MSK 4- Final: Endgame
Ulnar-meniscal - triquetral volar glide procedure?
pt: seated with elbow supported at 90 degrees with table. Dorsal wrist facing therapist stabilizing hand: lumbrical/golfers grip on radial side wrist manipulating hand: key grip with thumb on ulnar head and pointer finger on pisiform. Squeeze key grip
Anterior and posterior glide of lunate on capitate procedure?
pt: seated with hand hand resting palm down on the table Stabilizing hand: capitate manipulating hand: lunate, moving dorsally or palmary
Anterior and posterior glide of lunate on scaphoid procedure?
pt: seated with hand resting palm down on table Stabilizing hand: scaphoid Manipulating hand: hamate, moving dorsally or palmary
Anterior and posterior glide of lunate on triquetrum procedure?
pt: seated with hand resting palm down on table Stabilizing hand: triquetrum Manipulating hand: lunate moving dorsally or palmarly
Distraction of MCP, PIP, or DIP procedure?
pt: seated with proximal phalanx on wedge-hand in pronation Stabilizing hand: grasps proximal phalanx of joint Manipulating hand: Grasps distal phalanx of joint and pulls apart
Elbow ulnar distraction procedure
pt: supine with arm in SCHNECK Stabilizing hand: distal humeraus, hold down against table Manipulating hand: grasping proximal ulna only, grasping flexor group, exerting inferior force on ulna in plan of humerus
Posterior radial head glide procedure?
pt: supine with pillow or wedge supporting forearm Stabilizing hand: distal humerus, holding it down Manipulating hand: grasp head of radius with thumb and digging into extensor group with fingers push with fingers
Anterior radial head glide procedure?
pt: supine with pillow under forearm Stabilizing hand: distal humerus, holding it down Manipulating hand: grasp head of radius with thumb and digging into extensor group with fingers. Push with thumb
What nerves innervate the facet joints?
recurrent sinuvertebral mixed spinal posterior primary ramus
Mid-Cervical Multifidus isometric
relieving an impacted facet capsule resists the following motions -extension -ispilateral side bending -contralateral rotation
Posterior Lumbar Interbody Fusion (PLIF)
removing disc tissue pressing on the lower spine area, inserting a piece of bone between the vertebrae, and fusing this area with plates and screws. Skeletal System
Clinical signs of instability during AROM assessment
shaking "juddering" while forward bending more difficulty in coming up from forward bending than going into forward bending
Neurogenic Claudication
shooting, sharp, burning pain results from narrowing of spinal canal
Shoulder anterior glide improves?
shoulder abd, ER, and extension
C5 myotome
shoulder abduction
Ectomorph
shoulder and hip width the same (hypo/hyper mobile tendencies)
C4 myotome
shoulder elevation
Shoulder inferior glide improves?
shoulder flexion and abduction
Shoulder posterior glide improves?
shoulder horizontal add, IR, and flexion
Mesomorphs
shoulders broader than hips (hypomobile tendencies)
Lumbar and thoracic functional sidebending
side bending causes rotation to the same side ex. picking up a penny in front of right toe
Describe the osteokinematics and associated arthrokinematics in the lumbar spine for side bending (non functional left)
side bending produces rotation to the opposite side due to ribs and lordosis Right facet upglide Left facet down glide
Pt presents with lateral foraminal stenosis with radiulopathy. What is likely direction of preference to centralize symptoms?
sidebend away
Upward and downward rotation of the scapula
sidelying joint play for all movements of the shoulder
Cephalic and Caudal movement of scapula
sidelying joint play for classical movements of the shoulder
Red flags for manipulation
significant trauma weight loss hx of cancer fever intravenous drug use steroid use severe unremitting night time pain pain that worsens on lying down
Manipulation is
skilled passive movement to a joint with therapeutic intent
T or F: A hallux valgus could be caused by a hypomobility and a hypermobility?
true
What dictates the treatment of a torn mensicus?
type of tear and symptoms
Mid Thoracic Tilt Manipulation
type: graded or progressive oscillation forward and backward bending
Joint play that improves elbow flexion and extension
ulna distraction
T10 dermatome
umbilicus
Which side does a heel lift go on when dealing with stenosis?
unaffected side
Idiopathic scoliosis
unknown cause 90% female early detection/screening key 20-40 degree curves hard braces are used curves can be reduced 50% by bracing >40% harrington rods surgery
Tx of a tendonitis
unload area slow return
Forward bending PIVM (sitting)
upper thoracic pt seated examiner stands on the side of the pt. one hand on the forehead the other palpates spinous processes as head is flexed
Describe the osteokinematics and associated arthrokinematics in the lumbar spine for forward bending
upslide of both facets
Describe the osteokinematics and associated arthrokinematics in the mid thoracic region for forward bending
upslide of both facets limited by posterior ligament, disc and MF
Painful Entrapment
Caused by an awkward movement in eccentric range S/S unable to slide inferior articular processes down Head held away from painful side No Neurological signs management Cervical -multifidus isometric Lumbar -Multifidus isometric -rotational manipulation over a bolster
Functional sidebending in the C Spine
Causes rotation to the same side in the mid/lower cervical spine and subcranial spine
Bunnel Littler
Checks for: intrinsic muscle tightness or capsular problem Procedure: 1. MCP Extension with passive PIP flexion (if unable to flex PIP progress to step 2) 2. MCP flexion with passive PIP flexion. Positive: If PIP flexes then tight intrinsics If PIP does not flex then problem with PIP joint/capsule
Cozen's Test
Checks for: lateral epicondylitis Procedure: patient is stabilized, patient makes a fist, pronates and radially deviates, extends the wrist while the examiner resists the motion. Examiner will also have a thumb over the common extensor tendon Positive: pain
Describe the osteokinematics and associated arthrokinematics in mid cervical backbending
facets are at 45 degrees facets translate down and back at the end range the facet tilts and gaps superiorly lateral interbody joints translate posteriorly spinal canal has narrowed and shortened annulus and ligamentum flava bulge in the spinal canal
Describe the osteokinematics and associated arthrokinematics in upper thoracic back bending
facets at 45 degrees similar movement to the cervical but limited by large spinous process and rib attachments both facets glide down and back nucleus shifts anteriorly annulus bulges posteriorly
Lumbar rotation PIVM: prone lying with rolling legs
evaluates passive rotation in L5/S1 to T12/L1 Leg direction indicates the side of rotation being tested (ex. Rolling legs to L = Left rotation) *rule of the leg*
Lumbar rotation PIVM: Spring Test through the transverse processes
evaluates passive rotation of lumbar segments L5/S1 to T12/L1 ex TP of L3 spring test = Rotation of L3/L4 segment Pushing on L side = Right rotation
Upper Thoracic Forward bending PIVM (seated)
evaluates the passive forward bending of segments C7/T1 to T3/T4
Lateral arc glide of the calcaneus improves
eversion and pronation (frontal plane)
Hip Anteversion
excessive = pigeon toed appears to have increased IR and lack ER Normal cartilage end feel
A patient with excessive hip anteversion will appear to have?
excessive IR and limited ER for PROMclass
Potential causes of plantar fascitis
excessive hindfoot pronation or supination weakness or tightness of surrounding muscles Poor footwear Excessive time on feet Decreased dorsiflexion heel spur
Alar ligament
extends from sides of the dens to lateral margins of foramen magnum
Multifidus action
extends, laterally flexes and rotates vertebral column to opposite side stabilizes vertebral column
MSTT Extension of Index finger
extensor carpi radialis longus
MSTT Extension of ring finger
extensor digitorum
Trochanteric fx
extra-capsular severely comminuted position: ER and shortened Swelling Tx: ORIF - good union F>M
What determines the spinal plane of arthrokinematic movement?
facet joints
Describe the osteokinematics and associated arthrokinematics in upper thoracic (T1-T4) forward bending
facets at 45 degrees similar movement to the cervical but limited by large spinous process and rib attachments both facets glide up and forward nucleus shifts posteriorly annulus bulges anteriorly
BB Lumbar spine
facets slide down bilat facets fulcrum on the lamina facet joints open up cephalically (tilt) Annulus bulges posteriorly and flattens anteriorly nucleus deforms anteriorly
BB Thoracic spine
facets slide down bilat ribs rotate
FB in lumbar spine
facets slide up bilat disc bugles anteriorly and flattens posteriorly nucleus deforms posteriorly
Forward bending in the thoracic spine
facets slide up bilat ribs rotate on their long axis
Mid/Lower C Spine BB
facets translate down and back At end range the facet tilts and gaps superiorly Lateral interbody joints translate posteriorly Spinal canal is narrowed and shortened Disc and ligamentum flava bulge into spinal canal IV forament is narrowed
Mid/Lower Cervical Forward Bending what happens?
facets translate up and forward (40%) Lateral interbody articulations translate anteriorly *IV disc bulge anteriorly and flatten posteriorly* Spinal canal lengthens and narrows (no change in volume) IV foramen open
If the knee is in genu valgus in what position is the femur?
femoral IR
Other muscle states
fibromyalgia
T1 myotome
finger abduction
T1 myotome
finger abduction/adduction
Dorsal glide of MCP, PIP, DIP improves?
finger extension
Palmar glide of MCP, PIP, DIP improves?
finger flexion
Finklestein's test
flex thumb across palm and bend fingers over top- pt then ulnarly deviates wrist + = pain in thumb extensors
Empty Can Test
flexion and internal rotation of the shoulder followed by resistance to observe for weakening of the supraspinatus muscle
What is the capsular pattern at the elbow?
flexion is more restricted than extension
When is a tight capsule at the elbow more likely to occur?
following immobilization (bracing, splinting)
Press Test
for TFCC injury. Sn 100%, pt sits in chair, grasps both sides of seat & presses body up. (+) ulnar sided wrist pain
If the hindfoot is supinating
forefoot pronating midfoot supinating
If the hind foot is pronating
forefoot supinating midfoot pronating
Still
founded Osteopathy 1874
Palmer
founded chiropractic 1895
Spondylolysis
fracture of pars interarticularis
Spondylolisthesis
fracture of the pars interarticularis with forward slipping of one vertebra over another
The greatest amount of motion at the subtalar joint is in what plane of motion?
frontal
Closed packed position of the hip
full extension medial rotation abduction
Neurophysiological effects of manipulation
gate control - type I & II centralization of pain muscle inhibition (type III) joint nutrition & lubrication
How does BB relieve pain?
gate control theory Increase H2O in disc mobilizes the facet joints promotes circulation relieve the fear of movement neural tension decrease protruded nucleus pulposus begins to shrink *good for everything but an annular tear*
Hypermobility causes of PFS
genuvalgum, small lateral femoral condyle, patella alta
In the LE what muscles typically get weak?
glutes, quads, posterior tib, anterior tib
Clinical signs of instability PROM assessment
grade 5 or 6 on passive motion palpation
prone rib manipulation
graded or progressive oscillation used for help with exhalation follows scapula -superior glide after scapula -superior glide costovertebral -inferior glide costotransverse
Synovitis S/S
gradual onset (6-12 hours) Warm Joint Min/mod limited joint ROM Usually dull ache in the joint with joint disteneded
L5 myotome
great toe extension
L1 dermatome
groin
Cyriax Capsular Pattern
gross limitation of: (FAME) -flexion -abduction -medial rotation and extension -slight limitation of lateral rotation
What muscle weakness could lead to ACL injuries?
hamstring, glude mead and min
In the LE what muscles typically get tight?
hamstrings, hip flexors, adductors, gastrocs
Forward bending at OA joint
head rolls anteriorly and glides posteriorly
O/A Joint Mechanics for FB
head rolls anteriorly and glides posteriorly
O/A joint mechanics for for SBL
head rolls left and glides right
Sidebend left at OA joint
head rolls left and glides right
Backward bending at OA joint
head rolls posteriorly and glides anteriorly
O/A joint mechanics for BB
head rolls posteriorly and glides anteriorly
Chronic SOC
healing almost complete if not complete 12-15 weeks post injury pain behaviors begin
Endomorphs
hips broader than shoulders hypermobile tendencies
Clunk Test
identifies a glenoid labrum tear
Slump Test
identifies dysfunction of neurological structures supplying the lower limb
Drop arm test
identifies tear and/or full rupture of rotator cuff
Lateral distraction of humeral head with long lever arm
joint play for classical GH motions pt - sitting PT - at pt side Stabilizing hand - placed under pt axilla (acts as fulcrum Manipulating hand - grasps the lateral distal side of humerus Force applied towards the pt trunk with an inferior pull
Lateral distraction of humeral head (short lever arm)
joint play for classical movements at GH joint pt supine PT - standing at pt side stabilizing hand - lateral/distal humerus while providing a slight inferior force on humerus manipulating hand - grasps mid humerus Force applied away from trunk of pt
Distraction of the Ulna
joint play for flexion and extension pt - supine. elbow flexed hand resting on PT PT - standing to side of pt Stabilizing hand - hand grasps distal upper arm Manipulating hand - hand wraps around proximal ulna fingers on anterior side Movement - manipulating hand pulls downward
Tx of a tendonosis
load area progressively eccentrically
Side bending - side lying - raising legs
located L5 pt flexes hip and knee to 90 pt legs are supported by examiners thigh examiner controls legs by grasping lower ankle (up or downward motion) other hand palpates near interspinous space Upward motion = concavity Downward motion = convexity
Coccyx manipulation
long axis distraction
Deep neck Flexors
longus capitis and longus colli Chin Tucks deep neck flexor endurance training
How do you differentiate between a popliteus and semimembranosus tendinopathy?
look at hip
MSTT GH Adduction
loose pack position of the shoulder about 20 degrees from the trunk (scaption) - patient is sitting - PT: standing, cradles elbow into the palm to maintain loose pack position and to avoid patient having to hold arm in the position - Muscles: teres minor, teres major, latissimus dorsi, pectoralis major - Contact: medial mid humerus to apply resistance
MSTT GH Abduction
loose pack position of the shoulder about 20 degrees from the trunk (scaption) - patient is sitting. - PT: standing, cradles elbow into the palm to maintain loose pack position and to avoid patient having to hold arm in the position - Muscles: deltoid, supraspinatus - Contact: lateral mid humerus to apply resistance
Injury to median nerve can cause
loss of pronation ape hand deformity benediction sign sensory : loss of 3 1/2 lateral digits
What is the articular discs responsibility in the TMJ?
maintain joint integrity and alignment distribute forces guide movement shock absorption
Mechanoreceptor influence in pain modulation
manipulation influences *type 1* and *type 2* mechanoreceptors modulation = the exertion of a controlling influence on something
Mechanoreceptor influence on muscle inhibition
manipulation influences *type III* mechanoreceptors
TX: Settled stage of condition
progress strengthening to more aggressive forms of strengthening, stretch any tight muscles; progress with manipulations as needed for joint restrictions, 80% (8-12 reps) 1 RM for strengthening
Distraction of proximal row of carpals on radius procedure?
pt: seated in pronation with wrist slightly hanging over wedge Stabilizing hand: hold down distal radius and ulna against wedge "kiss hands" Manipulating hand: grasp proximal row of carpals, including thumb. pull apart in direction of loose packed
Volar (palmar/anterior) glide of carpals on radius procedure?
pt: seated in pronation with wrist slightly hanging over wedge Stabilizing hand: hold down distal radius and ulna against wedge "kiss hands" Manipulating hand: grasp proximal row of carpals. Push down in direction of loose packed
Dorsal (posterior) glide of carpals on radius procedure?
pt: seated in supination with wrist slightly hanging over wedge stabilizing hand: hold down distal radius and ulna against wedge "kiss hands" manipulating hands: grasp proximal row of carpals, including thumb. push down in direction of loose pack
Pisiform glides (medial/lateral/superior/inferior) procedure?
pt: seated with elbow supported at 90 degrees palmar wrist facing therapist grasp pisiform with thumb and pointer finger and move in direction indicated
External rotation Lag sign
(infraspinatus, teres minor) -Arm at side w/ elbow 90 degrees flexion -arm max ER w/ 20 degrees abduction - (+) test Inability to hold arm in ER - or hold against resistance
What will likely occur after an intracapsular humeral neck fracture?
* Hemarthrosis within the capsule - can lead to early adhasion formation and joint degeneration * this type of fracture is often malaligned once healing is complete
Z-Deformity of the thumb
* deformity due to laxity of the IP joint secondary to RA - MCP joint is positioned into flexion - IP joint is positioned into hyperextension
MOI for humeral shaft fracture? how is it treated?
* result of direct trauma to the arm without FOOSH * tend to heal with with good blood supply *treatment: closed reduction with cast or splint if fractured bones are still aligned * ORIF if there is malalignment with fractures surfaces
How are nerve entrapments between the median nerve and its anterior interosseous branch different?
* the anterior interosseous nerve is ONLY motor, no sensory component * median is both motor and sensory
Hypertonic states
- spasm - hypertrophy - involuntary muscle holding - chemical muscle holding - voluntary muscle holding
What role does joint play motion play in movement?
Allows joints to absorb outside forces in order to decrease chances of injury
What is a loose pack position?
Angular position All tissues on most amount of slack
How do we determine the stage of healing?
Based on our examination
MOIs for humeral neck fractures (2)
1. FOOSH injury 2. compressive force into the glenoid - common in patients with osteoporosis
Scaphoid Fracture 1. What is the MOI? 2. How can it be medically treated? 3. What is unique to the scaphoid that can cause additional complications post-fracture?
1. FOOSH injury to the radial side of the wrist when it is in close-packed position - scaphoid and lunate are in rigid contact with radial articular surface 2. casting, surgery, bone stimulation - can take up to 3 months to heal 3. scaphoid has limited blood supply due to little periosteum surrounding it. can lead to: - avascular necrosis - delaye healing and non-unions
Grade II manipulation
Beginning of range to middle range, large amplitude
Grade I manipulation
Beginning of range, small amplitude
Where do thoracic and lumbar nerves exit?
Below the vertebrae ex. T3 nerve - T3/T4 segment L2 nerve - L2/L3 segment
What two tests can differentiate between a neurogenic and vascular claudication?
Bike test and treadmill test
Cervical Central Stenosis S/S
Bilat UE symptoms Vague transient neuro signs in arms and maybe leg UMN signs -babinski -clonus
What is a swelling end feel?
Boggy or soft
Phase III of Osteocondrosis
Bone healing -bone resoprtion stops -bone deposition continues -biological plasticity still present -final shape of epiphysis is forming
Bennett's Fracture 1. What anatomical area is it specific to? 2. What is the MOI? 3. What are common characteristics of this injury (3)
1. Fracture of the base of the 1st CMC 2. Axial force to the thumb (usually in a slightly flexed position) driving CMC into the carpal bones 3. - fracture tends to be more anterior - fractured segment remains intact w/ trapezium due to strong volar oblique ligament - 1st metacarpal susceptible to dislocation in radial direction
Supraspinatus tendinitis vs calcific tendinitis
Calcific tendinitis results from local areas of necrosis within the tendon. Causes calcium deposits (toothpaste consistency) requires radiography to confirm
What is a tissue specific impairment that can cause altered joint alignment?
Capsule or ligament laxity/instability/hypermobility
Etiology
Cause of disease
disuse atrophy
Cause: underused muscle, immobilization, stiffness Signs and Symptoms -Loss of bulk on MRI, CT, US, Palpation Management Manipulate stiffness Exercise the muscle
Fibromyalgia
Cause: unknown (sleep disturbances, neurobiological abnormalities, loss of SNS control, local tissue factors, trauma/virus, psychological Signs and Symptoms -Primary: aches and pains (swelling, stiffness, weakness, tender points) -Secondary: excessive fatigue, non-restorative sleep, chronic tension migraine, HA, bowel and bladder irritability (11/18 specific spots for greater than 3 months) Management Multidisciplinary approach PT: posture, low load exercise, low reps, low impact
SIJ Sprain/Strain
Cause; trauma Signs and Symptoms Pain, well localized over SI joint (unilateral in nature) Management Strengthen multifidus and other core IFC stim Heat or Ice
Central spine stenosis
Caused by DDD and DJD Pressure on spinal cord Can lead to saddle paresthesia and loss of bowel or bladder control
Restriction
Caused by a resolved synovitis or hemarthrosis not symptomatic S/S: limited ROM (capsular pattern), pain, lowered tolerance to insult Clinical pres: capsular pattern Management: manipulation -grade dependent on pt reactivity
Biomechanical Effects of manipulation
1. Restore mobility and ROM 2. Restore Restricted connective tissue 3. Stretch/Snap capsular adhesions 4. Release capsule/meniscoid entrapment 5. correction of a positional fault
What two things can happen to the humeral head if laxity or instability is present
1. The humeral head is already in an incorrect position prior to movement. Movement then results in earlier encroachment of the humeral head to the coracoacromial arch. 2. The humeral head is in the correct position prior to movement, but once movement occurs the humeral head may move excessively in one arthrokinematic motion thus resulting in encroachment of the humeral head to the coracoacromial arch.
1. what is the MOI for a redial head fracture 2. what are the surgical treatment options?
1. compression of radial head into capitullum as a result of a FOOSH - can be comminuted or non-comminuted - malunions are likely 2. - closed reduction w/ cast - open reduction w/ early motion - ORIF - replacement or resection of radial head
T5 dermatome
1/2 between nipples and xiphoid process
Mid-Cervical joints
10 8 are synovial
Ankle dorsiflexion (with knee extended)
10 (end-feel: muscular, ligamentous, or capsular)
Dorsal (posterior) glide of carpals on radius loose packed?
10 degrees flex neutral 10 degrees ext
Anterior and posterior glide of hamate on triquetrum loose packed position?
10 flex neutral 10 ext
Anterior and posterior glide of lunate on capitate loose packed position?
10 flex neutral 10 ext
Anterior and posterior glide of lunate on scaphoid loose packed position?
10 flex neutral 10 ext
Anterior and posterior glide of lunate on triquetrum loose packed?
10 flex neutral 10 ext
Scoliosis
10-20 degrees - mild 20-40- moderate 40-50 severe (structural changes, tx needed) 60-70 cardiopulmonary changes - decreased life expectancy
Loose packed position of the MCP joint
10-20 degrees flexion
PIP/DIP loose packed
10-20 degrees flexion
What are steps 10-12 of the 18 steps of the extremity examination?
10. MMT 11. Special Test 12. Movement Analysis
Finger PIP flexion
100 (end-feel: boney, tissue approximation, capsular, or ligamentous)
Thoracic joints
12 10 are synovial
Chronic
12-15 weeks Pain behaviors begin to develop Smaller noxious stimuli will cause the same amount of pain despite healing considered finished Pt despondent is possible to to the chronicity of the condition
Hip flexion
120 (end-feel: tissue approximation, capsular, or muscular)
What are steps 13-15 of the 18 steps of the extremity examination?
13. Palpating for tenderness 14. Neuromuscular 15. Diagnostic imaging
Knee flexion
135 (end-feel: tissue approximation or muscular)
Ankle eversion
15 (end-feel: boney, ligamentous, or capsular)
Thumb CMC flexion
15 (end-feel: tissue approximation, capsular, or muscular)
Elbow flexion
150 (end-feel: tissue approximation, boney, capsular, or muscular)
What are steps 16-18 of the 18 steps of the extremity examination?
16. Evaluation 17. Dx and prognosis 18. Intervention
Shoulder abduction
180 (end-feel: ligamentous, capsular, or muscular)
Proliferation healing (sub acute)
2 weeks - 1-2 months
Thumb CMC extension
20-80 (end-feel: capsular or muscular)
What is needed for functional opening of the mouth?
25-35 mm or at least 2 knuckles between teeth
Inflammatory healing (acute)
3-14 days
Cervical Myelopathy causes
Cervical spondylosis (80%) Cervical stenosis Large central or paracentral disc herniation Lig Flavum PLL Ostephytes
Neer's Test
Checks for: supraspinatus or bicepts tendon injury (impingement) Procedure: Elbow extended, IR, PT passively elevates arm into scapular plane flexion Positive Test: pain in face or verbalized due to greater tuberosity jamming into the acromion
Tinel's Sign at elbow
Checks for: ulnar nerve problem at the cubital tunnel Procedure: tap ulnar nerve in cubital tunnel Positive: pain or tingling
Wartenburg's sign
Checks for: ulnar neuropathy Procedure: the examiner passively spreads the fingers and asks the patient to bring them together again Positive: unable to adduct digits 4 and 5
Scapular assistance test
Checks for: weak scapular stabilizers Procedure: 1. patient lifts arm into scaption. 2. patient lifts arm into scapiton with therapist upwardly rotating at superior angle and inferior angle Positive: decrease in pain
Scapular Retraction Test
Checks for: weak scapular stabilizers (rotator cuff/labrum) Procedure: 1. patient lifts arm into scaption. 2. patient lifts arm into scaption with therapist supporting medial border and clavicle/spine of scapula in retraction Positive: if decrease in pain
Empty Can Test
Checks for:Supraspinatus or suprascapular nerve injury Procedure: pt's arm is abducted to 90 degrees, thumb down. told to resist PT. Positive Test: Pain or verbal complaints. Inability to resist
CPR Thoracic Manipulation for Neck Pain
Cleland (FSTEPS86) FABQ less than 12 Symptoms dont pass the shoulder T3-T5 diminished kyphosis Ext <30 Painless BB Symptoms < 30 days 3/6 = 86%
What is the stage of condition?
Clinical appearance/presentation of dysfunction
What should be included in pt position during a manipulation?
Comfortable Relaxed Joint supported
What should be included in therapist position during a manipulation?
Comfortable Relaxed Body mechanics
Myelopathy cluster
Cook HIGAB +Hoffman;s +Inverted Supinator Gait deviations Age over 45 +Babinski 3/5 LR = 30.9 Tx: DNF strengthening, posture education, cervical stabilization
Tx of TMD
Correct forward head posture anterior cranial rotation exercises -chin nods Nasal breathing Self-Distraction/mobilizations Rocabado's 6x6
Functional Limitation
Difficulty with ADL
What are the types of manipulations?
Direction Glide Distraction Tilt
Physical Therapy is....
Disability oriented
Lumbar discectomy
Disc removal
What are the precautions for manipulations?
Disease states Hemarthrosis Hypermobility/instability Muscle holding Acute inflammation Joint Replacements Anti-coagulant therapy
Standing: PSIS unequal GT are equal Seated: PSIS and GT equal Causes?
Femoral joint angle DJD Perthe's Disease SCFE trauma
A normal capsule end feel will be?
Firm arrest with creep
A normal ligament end feel will be
Firm with no creep
Cervical Myelopathy CPR (Cook)
Hoffman's inverted supinator gait deviations Age over 45 Babinski
Major and Minor Muscle States
Hypertonic states Hypotonic states Normal tone/shortened Other
What grades of manipulation are used to examine capsular restrictions?
III and IV
TSI or tissue specific impairments
Identifies a tissue and the dysfunction or impairment and tells us what is wrong with it
CPR for SIJ
Laslett Rule: -No centralization of pain w/ McKenzie Evaluation -Reproduce pain w/ 3+ provocation tests Specificity: 0.78 Sensitivity: 0.91 Tx: SIJ manipu and lumbosacral stabilization
Superficial layer of back muscles
Last, traps, rhomboids, levator, glut max
What types of amplitude can you use with manipulations?
Non-Thrust Thrust - small amplitude high velocity Oscillations
Relative contraindications/precautions
Osteoporosis Herniated disc with radiculopathy signs of spinal instability RA w/ Upper cervical instability Pregnancy Local infection inflammatory disease active cancer hx of cancer long term steroid use systemically unwell hypermobility syndrome CT disease Cervical anomalies throat infection in children recent manipulation by another healthcare professional
TSI: Bursitis Best exam step? Best Tissue reactivity
P4C P4T
TSI: Edema Best exam step? Best Tissue reactivity
P4C P4T
What are the two best examinations to confirm synovitis?
P4C and PROMacc
Supination consists of:
PF Inversion IR
Anterior glide of the talus improves
PF and Supination (sagittal plane)
Best Exam Findings for Bursitis?
PFC and PFT
Compared to a MD what does a PT focus on during treatment?
PTs focus on the dysfunction or impairments MD = the condition
18 steps
Pain Assessment Initial Observation History Structural Inspection PFC AROM PROM MSTT MLT MMT Special Test Movement analysis PFT Neurovascular Evaluation Imaging Dx Tx
Thoracic Outlet Syndrome (TOS) S/S
Pain and paresthesia in UE Deep aching ill defined pain intermittent claudication Raynaud's phenomena Intermittent edema, venous engorgement, cyanoses Dorsal scapula pain
Posteroanterior (PA) Forward Bending PIVM
Peace sign fingers are placed on TP's and other hand provides a PA pressure Assess passive forward bending motion and the level of reactivity of thoracic segments T3/T4 to T11/12 (Spinous Process of T2 between fingers = T3 Transverse Processes)
Clinical Presentation of WAD
Postural muscle imbalance Limited or guarded ROM Muscle weakness as well as decreased endurance and motor control Muscle tightness Limited joint mobility Tenderness and increased muscle tone
Management of Cervical central stenosis
Posture-axial extension Stabilize cervical spine - deep ant. Muscles Avoid backward bending - sleeping postures, cycling, basketball, breastroke Manipulate upper thoracic region to help reduce MC stress Surgery - remove impingements and then fusion
Stages of disc injury (Paris)
Pre-Prolapse Immediate injury (tear or herniation) Acute and Sub Acute Prolapse Settled Prolapse Chronic Disc Disease
Preparatory
Prepares he tissue for the corrective treatment Ex. Warm up
Lumbar Side Bending PIVM test prone position
Purpose: evaluates passive side bending L5/S1-T12/L1 feeling same side lateral interspinous space and should feel it move into your fingers Knee can be extended or flexed
T4/T5 to L5/S1 SB L
R facet upglide L facet down glide
Biomechanical effect: restore mobility and ROM
ROM and mobility improved with: Upper Cervical - thrust Cervical thrust and non-thrust manipulation Thoracic thrust manipulation Lumbar thrust manipulation Isometric muscle contraction: muscle energy
Hemarthrosis S/S
Rapid onset (1-2 hours) Hot joint Mod/severe limited joint ROM with inability to assess due to pain more severe pain because knee is very inflammed
Clinically, at the talocrural joint we examine for what 2 planes of motion using what 2 manipulations/glides?
Sagittal (A/P glide of talus) Frontal (M/L glide of talus)
In what direction will roll and glide be if a concave surface is moving on a convex surface?
Same direction
Why should PT do an examination?
Screening process Provides a starting point for intervention Additional interventions needed?
Maitland Grade IV
Small amplitude movement at the end of the range last 10% of range
Maitland Grade V
Small amplitude, quick thrust manipulation at the end of the range. Within the anatomical range
What nerves innervate the intervertebral disc?
grey ramus communicans recurrent sinuvertebral mixed spinal anterior primary ramus
SIJ Syndromes
Sprain/Strain Hypermobility Displacement
What is a displaced meniscus end feel?
Springy rebound/bouncing back
Symptom
Subjectively manifested Consciously affecting the pt and likely verbalized by them Can only be felt by the pt
Lumbar segment
T12/L1 - L5/S1
Mid-Thoracic segment
T3/4 - T12/L1
Anterior Apprehension Test
TESTING: Anterior instability POSITION: Supine, 90˚ shoulder abduction, and take into ER (+) TEST Apprehension (Not pain)
supination lift test
TFCC pathology
Yergason's Test
Tests for the integrity of transvere ligament and may also identify bicipital tendonitis
Rib Exhalation PIVM
Tests the costotransverse and costovertebral joints of targeted rib Ribs around scapula = inferior glide Ribs below scapula = Costovertebral - superior glide and Costotransverse - inferior glide
gate control theory of pain
a theory of pain perception based on the idea that signals arriving from pain receptors in the body can be stopped, or gated, by interneurons in the spinal cord via feedback from two directions
Inferior glide of humeral head without scapula stabilization
component motion of elevation pt - seated PT standing above shoulder Stabilizing hand - grasps distal surface of humerus Manipulating hand - superior surface of the humerus Inferior force applied
Anterior radial head glide type of motion?
component or joint play
Acute SOC
condition is worsening cardinal signs of inflammation
anterior longitudinal ligament
connects anterior surfaces of adjacent vertebral bodies prevents hyperextension
MidCarpo Wrist extension
dorsal glide
Weakness of what muscles at the hip can lead to genu valgus?
hip abductors and ER
L1 myotome
hip flexion
L2 myotome
hip flexion
Unicondylar glides
dude just do it
Cruciform ligament
transverse ligament of atlas and vertical ligament from skull; holds body of C2 and dens to the inside of the skull
management of thoracic outlet syndrome
treat the cause manipulate hypomobility stretch myofascia - pec minor, scalenes postural exercise scapular neuromuscular control diaphragmatic breathing HEP - self stretching & mobilization
Psychological effects of manipulation
therapeutic touch and intelligent hands induced skilled movement in presence of fear jt pop/snap/cavitation placebo nocebo pt expectations Therapeutic alliance
A capsular pattern indicates?
whole joint capsule is restricted
1. What are the nerve roots for the ulnar nerve? 2. What muscles are innervated by the ulnar nerve? 3. What is the sensory distribution of the ulnar nerve?
woof
1. What nerve roots contribute to the median nerve? 2. What muscles are innervated by the median nerve? 3. What muscles are innervated by the anterior interosseous nerve? 4. What is the sensory distribution of the median nerve?
woof
Side lying raising legs manipulation
stretch or progressive oscillation for side bending
Painful Arc Test
subacromial impingement
L1 dermatome
inguinal ligament
L3 myotome
knee extension
S2 myotome
knee flexion
What is the key to success with manipulation?
knowing when and how to manipulate
Spring test for thoracic rotation
peace sign with one finger higher than the other (TPs of different vert) same as PA glide but rotation occurs towards the lower finger *rule of the lower finger*
Anterior and posterior glide of hamate on triquetrum procedure?
pt: seated with hand resting palm down on table stabilizing hand: triquetrum manipulating hand: hamate, move dorsally or palmaryl
Shoulder posterior glide procedure
pt: supine with wedge under scapula PT opposite side of the table Stabilizing hand: on table Manipulating hand: grasp humeral head with C grip and push posterior/lateral with heel of hand
sacrotuberous ligament
sacrum to ischial tuberosity
Edema
swelling outside of a joint
What spinal level does the L4 nerve root exit?
L4/L5
What nerve does the L5/S1 disc impinge on?
L5
What nerve does the L4/L5 disc impinge on?
L5 nerve root
Cyriax
"end feel"
Where does manipulation fit in the 18 steps?
#7 PROM
Why is the supraspinatus more susceptible to tendonous pathology?
*With the arm along the side of the body, the tendon is pulled down and over the greater tuberosity of the humerus * The tuberosity compresses against the tendon, creating a zone of avascularity
hypomobility risk factors for shoulder impingement
*adhesions - most specifically in inferior aspect of capsule - prevenst inferior glide of humeral head during osteokinematic flexion, preventing greater tuberosity from clearing the acromion
MSTT ECRL
- Position: elbow extension, forearm pronation, wrist in 10 degrees of extension, fingers in neutral - Contact: dorsum of the index finger between the MCP and PIP to apply resistance
MSTT Forearm supination
-- loose pack position at the elbow about 70 degrees of elbow flexion and neutral between pronation and supination. - Patient is sitting - PT: standing, hand cradles the posterior elbow to maintain loose pack position and to avoid patient having to hold arm in position - Muscles: supinator and biceps - Contact: distal 1/3 dorsum of forearm on radius to apply reisstance
What motion does the convex-concave rules apply to?
Component motions
Hoffman's reflex (sign)
-Upper extremity equivalent to Babinski reflex (sign) -Reflex test which verifies the presence or absence of problems in the corticospinal tract; also known as the finger flexor reflex -Involves tapping the nail or flicking the terminal phalanx of the third or fourth finger *-Positive response is seen with flexion of index finger to the thumb* -Sign of UMN damage, spinal cord compression (myelopathy)
Hoffman's reflex (sign)
-Upper extremity equivalent to Babinski reflex (sign) -Reflex test which verifies the presence or absence of problems in the corticospinal tract; also known as the finger flexor reflex -Involves tapping the nail or flicking the terminal phalanx of the third or fourth finger -Positive response is seen with flexion of index finger to the thumb -Sign of UMN damage, spinal cord compression (myelopathy)
Prone Knee Bend Test
-assesses upper lumbar (L1-L3) nerve root lesion, femoral nerve tension -pt. is prone and flexes knee, PT hyperextends hip -"+" = pain in lateral hip, upper lumbar spine, or anterior thigh
Prone Knee bend TEst
-assesses upper lumbar (L1-L3) nerve root lesion, femoral nerve tension -pt. is prone and flexes knee, PT hyperextends hip -"+" = pain in lateral hip, upper lumbar spine, or anterior thigh
Elbow extension
0 (end-feel: boney)
Finger DIP extension
0 (end-feel: capsular or ligamentous)
Finger PIP extension
0 (end-feel: capsular or ligamentous)
Knee extension
0 (end-feel: capsular or ligamentous)
Thumb CMC adduction
0 (end-feel: capsular or ligamentous)
Thumb MCP extension
0 (end-feel: capsular, ligamentous, or muscular)
PIVM grading
0: Ankylosed: fused joint primarily caused by ankylosing spondylitis 0 manipulation technique performed → can break fusion 1: Considerable restriction 0 thrust performed → when too tight, thrust can tear joint capsule 2: Slight restriction Thrust or non-thrust (for pain, ect.) ok 3: Normal 4: Slight increase in motion Stabilize? Unless increased ROM is normal to the individual 5: Considerable increase in motion Stabilize c supporting musculature around spine (TA, mult, obliques) 6: Unstable Need external support (brace, tape) Take care when using this term, can infer pt is surgical candidate
Cervical radiculopathy: 1. Spondylitic changes of what bony landmark contribute to this? 2. what population does CR affect most? 3. What type of sensations are reported? 4. impairments?
1. * joint of Von Lushka (uncinate process) acts as a barrier between the disc and nerve root in C-spine - spondylitic changes include osteophyte formation at this joint * vertebral bodies decrease in size due to osteoporosis, but not facet joints of T1/T2 - high will decrease anteriorly, but not posteriorly, causing hyperextension in lower cervical spine 2. Affects more women in 4th or 5th decade - C6/C7 most commonly affected 3. gradual onset of pain in neck and upper trap that spreads to arm - parasthesias in UE - symptoms worse by looking up or sidebending to side of symptoms 4. Foward head/shoulders' - limited SB toward involved side and BB w/ pain radiating into UE - neurological signs postiive in corresponding dermatome/myotome - distraction decreases symptoms - compression and quadrant test all increase symptoms in UE - tenderness on involved side in upper trap/levator/paraspinal/interscap muscles
Muscular Torticolis 1. What is it 2. what corrects it
1. Congenital tightness/restriction in sternocleidomastoid muscle - weeks after birth, a firm swelling develops in the SCM, leaving behind a contracture once resolved 2. daily stretching for the first year
Benefit of the POP
1. Continued stretch on the capsule (gas) 2. Increased joint mobility increased joint space 3. Stimulate type III mechanoreceptors 4. Decrease pain from endorphin release
Dupuytren's Contracture 1. What anatomical region is it specific to? 2. what is the MOI?
1. Contracture of palmar fascia with flexion deformity of MCP and PIP joints - most often affects digits 4 and 5 2. formation of nodules of unknown etiology on palmar aspect of hand - eventually leads to thickening and shortening of palmar fascia
Galeazzi Fracture 1. What anatomical region is it specific to? 2. What is the MOI?
1. Distal radius fracture with dislocation of distal radioulnar joint 2. MOI not given
Potential risks of the pop
1. Muscle inhibition = joint not as protected as well 2. ROM increases which could cause instability over time 3. fosters dependency on the POP and relief it brings 4. Inflicts stress and trauma on the disc
What are the first three steps of the 18 steps of the extremity examination?
1. Pain assessment 2. Initial observation 3. History
CRPS 1. what is it? 2. what are some possible causes?
1. Painful and intolerable hypersensitivity that ins't proportional to any specific event - most commonly in upper extremities 2. direct trauma to sympathetic nerves - direct trauma to a peripheral nerve - immobilization - immobilization in the presence of edema - psychological predisposition
Supine examination of C-spine 1. MLT 2. Palpation
1. Pec Minor - Pec Major - SCM - Upper Trap 2. SC joints - Clavicles - Subclavius - AC joints - Scapular spines - levator scap - upper trap - cervical paraspinals - SCOM - Scalenes - Articular PIllars/facet joint capusles - Spinous processes
Boutonniere Deformity 1. What causes it? 2. What is its appearance? 3. What is it often a consequence of? (5)
1. Volar displacement of the lateral bands of the PIP joints 2. PIP joint is pulled into flexion while the MCP and DIP joints are pulled into extension 3. RA - inflammatory arthritis - traumatic tendon avulsions - contractures - nerve injuries
In reflex testing: 1. What grade would you expect from a nerve irritation? 2. what grade would you expect from a nerve compression?
1. a +3 or +4, indicating hyperactivity (hyperreflexive) 2. +1 indicating a diminished reflex
Potential causes of scapular dyskinesis (5)
1. abnormality in bony posture or injury: excessive scapular protraction and acromial depression - excessive resting kyphosis - forward head posture 2. AC joint injuries or instabilities: can alter center of rotation of scapula, leading to faulty mechanics 3. muscle function alterations: involving serrature anterior and lower trap most common - microtrauma due to excessive strain in muscles, fatigue, and inhibition due to pain 4. nerve damage: rare cause 5. contractures: especially to anterior musculature that attaches to the coracoid process (pec minor, short biceps) - causes anterior tilt and forward scapular lean - also tightness to posterior capsule and latissimus
What types of surgery are done for carpal tunnel syndrome? (2)
1. endoscopic - like arthroscopic, but in a tunnel rather than a joint 2. open * both aim to cut flexor retinaculum pr remove lesions to increase amount of space available to median nerve
Shoulder posterior glide loose packed position?
20 flex 20 abd
Hip adduction
30 (end-feel: capsular, ligamentous, or muscular)
Ulnar deviation
30 (end-feel: ligamentous, capsular, or muscular)
Ankle inversion
35 (end-feel: muscular, ligamentous, or capsular)
What is the normal for mouth opening?
35-50mm
What are steps 4-6 of the 18 steps of the extremity examination?
4. Structural inspection 5. Palpating for condition 6. Joint Active Range
MSTT Biceps
: GH internal rotation, GH flexion, elbow flexion, forearm supination
Finger MCP extension
45 (end-feel: capsular or ligamentous)
First metatarsophalangeal flexion
45 (end-feel: capsular or ligamentous)
Hip external rotation
45 (end-feel: capsular, ligamentous, or muscular)
Hip internal rotation
45 (end-feel: capsular, ligamentous, or muscular)
C1 joints
5 5 are synovial
What is an abnormal muscle end feel?
A don real contractile resistance
Damage to which ligaments will result in joint effusion?
ACL and MCL
Best steps to identify a capsular pattern of the shoulder
AROM - patient's active movements are decreased with ER>ABD>IR PROM CLASSICAL (quantity) - decreased passive classical ROM with limitations of ER>ABD>IR PROM CLASSICAL (quality) - tight capsule end-feel in all directions PROM ACCESSORY (quantity) - decreased P/A>inferior>A/P PROM ACCESSORY (quality) - tight capsule end-feel in all directions
cervical radiculopathy werrners
AROM <60 ULTT + Spurling Distraction relieves symptoms
Provocation Tests for SIJ
ASIS distraction test Gaenslen's Thigh Thrust ASIS compression Sacral thrust test Drop Test
S1 reflex
Achilles
Pathology
Actual problem or disease that is occurring at the cellular level
MSTT GH Flexion
All positions same as above - Muscles: deltoid, biceps, coracobrachialis - Contact: mid humerus anteriorly to apply resistance
MSTT GH Ext
All positions same as above - Muscles: lat dorsi, triceps - Contact: mid humerus posteriorly to apply resistance
A tissue specific impairment is best described as?
An impairment of an identifiable tissue or structure in the body that is contributing to the patients complaints and functional loss
Backward bend lumbar spine
Annulus bulges posteriorly Facets move back and down Nucleus deforms slightly anterior Foramen close
Lateral flexion or sidebending of the lumbar spine
Annulus bulges to side of sidebending Annulus flattens on opposite side Facet slides up on opposite side Facet slides down on same side
Spine ligaments ant to post
Ant Long ->IV disc ->Post Long -> facet capsules ->flavum->interspinous->supraspinous
C6 Dermatome
Anterior arm, radial side of hand to thumb and index finger
What is traction?
Application of force such as joint play assessment and treatments that are directed along the axis of the long bones
What is distraction?
Application of force where there is joint surface separation; the force is perpendicular to the treatment plane (joint separation)
T4/T5 to L5/S1 Rotation Left
L facet gap/distract R facet compresses
L2 dermatome
Back, front of thigh to knee
L3 dermatome
Back, upper buttock, anterior thigh and knee, medial lower leg
Chronic SOC
At ~12-15 weeks post injury primary healing is considered finished. Pain behaviors begin to develop A smaller noxious stimuli will cause the same amount of pain despite healing considered finished Patient despondent is possible due to the chronicity of the condition
SIJ CPR
Author Laslett No peripheralization or centralization with BB or ext 3+ provocation tests -Gaenslens -FABERS -Sacral Thrust -Thigh Thrust -ASIS Compression/distraction 2/2 = 91%
Thoracic Manipulation for Neck Pain CPR
Author: Cleland FABQ <12 Shoulder up symptoms T3-T5 decreased kyphosis Extension of cervical spine less than 30 degrees Painless BB Symptoms <30 days 3/6 =86% probability of success
Cervical Myelopathy CPR
Author: Cook +Hoffman's +Inverted Supinator Gait deviations Age >45 +Babinski 3/5 = high likelihood
Lumbopelvic Manipulation CPR
Author: Flynn FABQ <19 Lumbar Hypomobility IR >35 degrees in at least one hip Knee up symptoms Symptoms <16 days 4/5=95% chance of success
Unhealthy disc mechanics
BB will NOT centralize an extruded nucleus, but will keep any further extrusion from occuring McKenzie extension routine has been shown to centralize PAIN Protruded NP will shrink d/t loss of proteoglycans over time
S2 Dermatome
Buttock, thigh, and posterior leg
What is occurring in the cervical spine during forward head posture
C1-C2 extension C3-T1 flexion
Forward head posture (need more info)
C1-C2 extension C3-T1 flexion Tight lower cervical extensors and upper cervical flexors Tight pectorals and SCOM Lengthened erector spinae, scapula retractors,
What is being assessed with an open mouth radiograph?
C1/C2 articulation
Mid-Cervical segment
C2/3 - C7/T1
What spinal level does the C4 nerve root exit?
C3/C4
Provide the areas corresponding to the following myotomes: C4 C5 C6 C7 C8 T1
C4 = upper trap C5 = biceps (elbow flexion/supination) C6 = wrist extensors C7 = triceps, wrist flexors C8 = thumb extensors T1 = intrinsics (finger add/abd)
Provide the areas corresponding to the following reflexes: C5 C6 C7
C5 = biceps C6 = brachioradialis C7 = triceps
Apprehension Test
Checks for: Anterior GH instability Procedure: patient is supine and the arm is abducted to 90 degrees then ER Positive Test: Apprehension or pain
Pinch grip
Checks for: Anterior interosseous nerve Procedure: patient makes and "O" sign with thumb and index fingers Positive: unable to make "O" pad to pad
Phalen's
Checks for: CTS Procedure: pt pushes dorsum of hands together Positive: pain/tingling
Reverse phalen's
Checks for: CTS Procedure: Patient pushes palms of hands together Positive: pain/tingling
Anterior radial head glide improves
Component = elbow flexion Joint play = pronation/supination
Posterior radial head glide type of motion?
Component and joint play
What are the two types of accessory motion?
Component motion and joint play motion
Anterior glide humeral head
Component motion for -GH ER -GH ext -Coronal abd -Horizontal abd WEDGE USED Stabilizing hand - anterior surface of the AC joint Manipulating hand - proximal surface of humeral neck Force applied anteriorly "GANGSTA LEAN"
Posterior glide of humeral head
Component motion for GH IR, GH sagittal flex, horizontal adduction WEDGE used
Radial Glide of Base of Phalanx of the Hand
Component motion for MCP abduction (index) MCP adduction (ring and little fingers) Pt seated with forearm pronated and supported on the table PT - sitting Stabilizing hand - ulna side proximal aspect of the proximal joint Manipulating hand - ulna side of the distal joint surface MCP in 20 degrees of flexion force applied by manipulating hand in radial direction
Settled
Condition has stabilized Tissue is not fragile Swelling may or may not be present No warmth
Sub-acute
Condition is beginning to improve Tissue is fragile and must be cared for delicately as to not cause re-injury Warmth and swelling is commonly present
Sub-Acute SOC
Condition is starting to improve Tissue is fragile warmth and swelling present Goal: Continue to facilitate healing
Acute Stage of conditioning
Condition is worsening cardinal signs of inflammation Goal: Prevent worsening
Acute
Condition is worsening cardinal signs of inflammation Goal: prevent the condition from worsening
Outward roll of radius and ulna
Connective tissue extensibility for all wrist movements pt - seated with forearm in supination supported on table PT - standing facing forearm Manipulating HANDS - grasps the volar radius and ulna with thenar eminences and fingers wrap around to dorsal side Movement - volar skin is bunched between thenar eminences. Fingers push radius and ulna volarly and thenar eminences exert and outward force from the midline of the forearm
posterior longitudinal ligament
Connects all the posterior surfaces of the vertebral bodies limits flexion
PIVM grade 5
Considerable increased movement (hypermobile) Stabilize (conservative first)
Chronic stage of healing
Continued complaints beyond perceived healing Abnormal pain perception Likely to function but expresses continued complaints
Settled stage of healing
Continued state of healing but not resolved No redness Unlikely warmth Unlikely swelling Low pain Decrease in pain complaints
ligamentum nuchae
Continues supraspinous ligament (C7 to skull)
The Triplane motion of the pronation consists of what 3 classical ROM?
DF Eversion ER
Posterior glide of the talus improves
DF and pronation (sagittal plane)
RadioCarpo Wrist abduction
Distraction Ulnar glide (proximal row) medial tilt
CarpoMetacarpo
Distraction dorsal glide volar glide
What are the principles of tx?
Do no harm Base treatment on accurate dx and prognosis Select treatment with specific aims Cooperate with laws of nature Be realistic and practical in tx Select tx for your patient as an individual
Hx questions specific to lumbar spine
Do you have tingling in the saddle region Do you have any loss of bowel or bladder control Any change in symptoms during valsalva
Evaluation
Dynamic process in which the physical therapist makes clinical judgements based on data gathered during the examination
What is the tissue specific impairment?
Dysfunction found during examination
What is the capsular pattern for decreased ROM within the glenohumeral joint?
ER is most limited, followed by abduction, follwed by internal rotation - ER>ABD>IR
Management of WAD
Early muscle strength training re-education for coordination and endurance Manual PT to address restricted joints and tight muscles Balance and coordination exercises Paris vs Quebec Task force -Paris: collar up to 6 weeks and rehab in easy stages -Quebec: Avoid collar, maintain normal activity, early intervention as tolerated
A normal muscle end feel will be?
Elastic and slow
Grade IV manipulation
End of range, small amplitude
C3 dermatome
Entire neck, posterior cheek, temporal area, prolongation forward under mandible
What is clinical management?
Entire process of treating our patients. Starts with exam Analysis of the information gained during physical exam, evaluation, dx and prognosis
Cervical Downglide PIVM Test
Evaluates passive downglide of cervical segments C2/C3-C7/T1 force is in the direction of the opposite axilla
Thoracic PA rotation PIVM
Evaluates passive rotation and level of reactivity of T3/T4 - T11/T12 Peace sign is staggered (one finger higher than the other) Rule of lower finger = rotation towards lower finger
Medial glide of the talus improves
Eversion and pronation (frontal plane)
What two things provide the PT accountability to treat patients?
Examination and evaluation
Why would you use manipulation?
Examination and treatment of accessory motion Restore normal motion Improves function and performance Decrease pain Improves tolerance to insult Aides nutrition and repair
Hip Retroversion
Excessive - toes point out appears to have increased ER and lack IR
What are functional goals?
Expected outcome from our chosen treatment intervention
apical ligament
Extends from apex of dens to anterior aspect of foramen magnum
A normal cartilage/bone end feel will be?
Hard/rigid
Cross-Body adduction test
Flex shoulder to 90 degrees, pull arm across body; Pain at AC indicates AC pathology/arthritis
What are the manipulation variables?
Force Duration Type of manipulation Temperature Amplitude Velocity
MSTT Supraspinatus
GH abduction, GH external rotation
MSTT Deltoid
GH abduction, GH flexion
MSTT Pec Major
GH adduction, GH internal rotation
MSTT Teres Major
GH adduction, GH internal rotation
MSTT Lat Dorsi
GH adduction, GH internal rotation, GH extension
MSTT Teres Minor
GH adduction, external rotation
MSTT Triceps
GH extension, elbow extension
MSTT Infraspinatus
GH external rotation
MSTT Coracobrachialis
GH flexion
What are the neurophysiological effects of manipulation?
Gate control theory biopsychosocial theory of pain centralization of pain mechanoreceptor neurological influence movement fosters nutrition
Sub Acute stages of healing
Getting better No redness Maybe some warmth Decreased pain level Improving function
Acute stage of healing
Getting worse Redness Warmth Swelling High pain Limited function
What is the prognosis?
Goals and outlook for treatment
The patient has a tight joint capsule in the anterior direction at the tibiofemoral joint. The best choice of treatment to have a mechanical effect is?
Grade III anterior glide
Maitland
Graded Oscillations I-IV Oscllations work by increasing mobility as well as modulating pain through neurophysiological effects
Lateral foramenal stenosis
Gradual onset Pain in lumbar spine, buttocks, or LE Increased with backward bending and or side bending to the side affected
CPR for lumbar stabilization
Hicks and Rabin Hicks (FPAALS) FABQ >8 +prone instability test Aberrant movement Age under 40 Lumbar spring test (hypermobile) SLR over 91 Rabin (2/4 useful) aberrant movement +prone instability test Likelyhood Ratio 3+/4 = +4.0 *3/4 = 67%* success Tx: Stabilization and strengthening (QL, TA, Multi)
Thrust manipulation
High velocity, low amplitude therapeutic movements within or at end range of motion
Degenerative spondylolisthesis
The entire vertebrae "slips" forward at the level that is involved. Slippage is felt at the level of the fracture
Intermediate layer of back muscles
Iliocostalis, longissimus, spinalis
Upper thoracic and mid cervical upslide in prone
Improves rotation to the opposite side -sidebending to opposite side and forward bending as well PT thumb contact with TP with other thumb ontop. avoid grade III graded oscillation
What is an examination finding?
Information directly identified during an examination test
Nerve Root Injury
Injury to a nerve at the level of the spinal cord. Radicular symptoms myotome/dermatome/reflex
Biopsychosocial theory of pain
Interaction of biological, psychological, and cultural factors influence the intensity and duration of pain
Where can lumbar stenosis occur?
Intervertebral foramen Central canal
If the L4/L5 foremen is stenoic then what nerve root is affected?
L4
Patella reflex
L4
What is the tissue reactivity?
Irritability of the tissue when a stress is applied to it
What three things need to be r/o when examining the spine?
Is there a non-mechanical problem? (Cancer) Are there neurological signs? (Myotome/dermatome) Are there psychosocial issues? (Waddell's behavior signs)
Manipulations that occur in the same row
Joint play
Long Axis Rotation (radial direction) of base of phalanx of hand
Joint play pt - seated with left forearm pronated and supported on table PT - sitting to either side of left finger Stabilizing hand - grasps proximal joint surface Manipulating hand - distal joint surface MCP in 20 degrees of flexion grade 2 distraction force applied with a force of rotation in the radial direction
Long Axis Rotation (ulnar direction) of base of phalanx of hand
Joint play pt - seated with left forearm pronated and supported on table PT - sitting to either side of left finger Stabilizing hand - grasps proximal joint surface Manipulating hand - distal joint surface MCP in 20 degrees of flexion grade 2 distraction force applied with a force of rotation in the ulnar direction
Metacarpal heads - dorsal and volar movements
Joint play sitting with elbow flexed and posterior aspect of elbow on table PT - facing dorsal aspect of hand stabilizing hand - grasps head next to manipulating head Manipulating hand - grasps head to manipulate and move in either a dorsal or volar direction Performed on 2-4 heads (4th stabilized on 3, 3 on 2)
Dorsal Glide of Radius on Ulna
Joint play pt - seated or supine with left forearm supported on table in neutral position PT - seated facing volar aspect of forearm Stabilizing hand - grasps dorsal and volar surface of the distal ulna and lateral side of carpals (Golfers Grip) Manipulating hand - pal placed on volar surface of the radius and fingers wrap around to dorsal side Movement: manipulating hand exerts a dorsal force through palm contact
Maitland Grade III
Large amplitude movement at the end of the range 50-100% of the range
Maitland Grade II
Large amplitude movement. Within the midrange of the joint range between 10 and 90% (50% ROM)
Distraction of proximal row of carpals on radius loose packed position?
determine: 10 degrees flexion neutral 10 degrees ext
Lumbar Lateral Foraminal Stenosis
Lateral symptoms -Pain -Subjective numbness -Hyper neurological responses True neurological signs -paresis>skin sensation>reflexes>neural tension (SLR) Management -Posture education -Stabilization -Stretch myofascia -Manipulate stiff joints -Positional distraction -Possible heel lift on unaffected side
Anterior radial head glide end feel?
Ligament end feel
Palmar glide of MCP, PIP, DIP end feel?
Ligament end feel
Kaltenborn Capsular Pattern
Limitation in: (MEAL) Medial rotation Extension abduction Flexion with slight limitation in lateral rotation
Supraspinous ligament function
Limits flexion of the spine
Forward bending sidelying double knee flexion (pt on right side)
Locate L5 (moves away with leg ext) Hand placements R: hand and forearm grasp both the pt legs L: middle finger palpates interspinous spaces pt legs balanced on operators thigh (right) legs are flexed and movement is felt
Impairments for lateral foraminal stenosis
Lordotic posture Limited backward bending Dermatome and myotome issues Tight hamstring and piriformis Limited neural mobility
T8 dermatome
Lower costal margine
Anterior primary Ramos proceeds where?
Lumbar and sacral plexus
TSI: Partial Tear Best exam step? Best Tissue reactivity
MSTT Defer
TSI: Partial Tear Best exam step? Best Tissue reactivity
MSTT Defer
TSI: Complete Tendon Tear Best exam step? Best Tissue reactivity
MSTT MLT
What does a goal need to be?
Measurable Objective Applicable Realistic
Which meniscus is injured more frequently?
Medial
C8 Dermatome
Medial arm and forearm to long, ring, and little fingers
T1 Dermatome
Medial side of forearm to base of little finger
Grade III manipulation
Middle of range to end range, large amplitude
What are some examples of interventions?
Modalities, stretching, manipulation, strengthening, etc
Compared to the examination of a medical doctor the examination of a physical therapist is?
More detailed
Manipulating hand vs the stabilizing hand
Most often the stabilizing hand will be on the proximal part of the joint and the manipulation hand will be distal
What is joint play motion?
Motions not under voluntary control. They need outside forces in order for the motion to occur
What is component motion?
Motions that take place at a joint surface in order to facilitate a particular movement
What is accessory motion?
Movements that accompany classical motion
S/S of WAD
Muscle guarding Generalized non specific pain Vague visual, hearing and swallowing issues Fatigue Dizziness, unsteadiness, visual disturbances Altered postural stability Decreased control of head and eye movements
Wrist Loose Packed
Must determine 0 degrees 20 degrees ext or flexion
Management of lumbar central stenosis
Myofascial manipulation and stretching -psoas, low back muscles Increase physical fitness (pool or unweighted TM) Lifestyle changes (smoking obesity, posture)
Phase I of Osteocondrosis
Necrosis -0 blood supply -osteocytes and bone marrow die -Imaging negative -Quiet Period -Symptomless
Radiculopathy
Nerve root issue S/S -sensory and/or motor dysfunction -Neurogenic pain (deep radiating) -Follows dermatomal and myotomal pattern -LMN signs (hyporeflexia, areflexia, hypotonia, muscle atrophy) Management -traction, joint and myofascial manipulation, pt education
Does every Functional limitation lead to a disability?
No
Abdominal reflex
Normal response is the ipsilateral contraction of the abdominal muscles with an observed deviation of the umbilicus towards the stroke.
Forward bend lumbar spine
Nucleus deforms posteriorly Facets slide up and forward Foramen opens
Clinical Presentation of TOS
Numbness and paresthesia usually follows ulnar nerve Tight scalenes, elevation of first rib, shortened pectorals
What is the only joint to follow the convex concave rule in the spine?
OA joint
Sign
Objectively measured Not always known by the pt but observed by others Must be seen or read by the examiner
Sub-cranial Spine segment
Occ/C1/C2
What are the three main types of spina bifida?
Occulta, meningocele, myelocele
In what direction will roll and glide be if a convex surface is moving on a concave surface?
Opposite directions
Multifidus origin and insertion
Origin: PSIS, dorsal surface of sacrum, mammillary processes of lumbar vertebrae, TPs of thoracic vertebrae, articular processes of cervical vert. Insertion: SPs of all vertebrae
What step can tell you the tissue reactivity?
PROM
Ligament Adhesion Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Adhesion capsule Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Capsule Laxity Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Capsule Tightness Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Cartilage tear Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Effusion Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
TSI: Ligament laxity Best exam step? Best Tissue reactivity
PROM ACC PROM ACC
What is the best examination to use to determine the tissue reactivity of a joint capsule adhesion?
PROM accessory
How can you tell the difference between a structural hallux valgus and a functional hallux valgus?
PROM classical - passively re-alight jt it is positional. if you cannot it is structural
What are the three best examinations steps and findings to differentiate an ATFL sprain from an peroneal strain?
PROMacc MSTT PFT
what direction does a disc typically bulge?
Posteriorlateral direction
Allodynia
Pain due to a stimulus that does not normally provoke pain
Moderate tissue reactivity
Pain is reported at the point the tissue is taken to its restriction, or rather, at the point the therapist does determine the end feel
Moderate Tissue Reactivity
Pain is reported at the point the tissue is taken to its restriction, or rather, at the point the therapist does determine the end-feel. This means you were able to feel the end-feel or the resistance of the tissue and the patient complained of pain.
High tissue reactivity
Pain is reported before tissue can be taken to its restriction or rather enforce the therapist can determine the end feel
At the radiocarpal joint, when the joint is in neutral flexion/extension and the forearm is probated, where is the therapist forearm placement to indicate direction of force for a GLIDE?
Parallel to the distal end of the radius (concave)
Cervical upglide PIVM
Passive upglide of cervical segments C2/C3-C7/T1 force is in the direction of opposite eye
L4 dermatome
Patella, medial lower leg, and medial malleolus
L3/L4 reflex
Patellar
pathogenesis
Pathological process of disease
What direction do the menisci move during knee flexion?
Posteriorly
Tinel's sign (wrist)
Percuss over the flexor retinaculum of the wrist and the tunnel of Guyon. Positive with tingling into the lateral 3 fingers or medial 2 fingers indicating carpal tunnel syndrome or ulnar nerve impingement
At the radiocarpal joint, when the joint is in neutral flexion/extension and the forearm is probated, where is the therapist forearm placement to indicate direction of force for a distraction?
Perpendicular to the distal end of he radius (concave)
Aspects of pain
Physical: actual physical causes of the pain Emotional: pt's concern about intensity, duration, effects of the condition on their lifestyle Rational: pt's ability to understand the self-limiting nature of the condition
What is the intervention?
Plan of care. Purposeful and skilled interaction of the pt with the patient/client
Cervical Central Stenosis Clinical presentation
Poor posture-forward head Cervical stress, strain, sports, MVA Compensatory hypermobility to UT kyphosis/stiffness Instability at C2/3 and C5/6
What is the closed packed position?
Position of most congruency in the joints. Statically stable
MSTT Extensor Digitorum
Position: elbow extension, forearm pronation, wrist in 10 degrees of extension, fingers in neutral Contact: dorsum of the ring finger between MCP and PIP to apply resistance
MSTT ECRB
Position: elbow extension, forearm pronation, wrist in 10 degrees of extension, fingers in neutral - Contact: dorsum of the middle finger between MCP and PIP to apply resistance
Dysfunction/impairment
Problem that is causing a decrease in function
Examination
Process of obtaining a history, performing relevant systems reviews and selecting and administering specific tests and measures
Lumbar Forward-Bending Passive Intervertebral motion test: Sidelying with single leg flexion
Purpose: evaluates passive forward bending motion of L5/S1 to T12/L1
What are impairments that a person with a disc dysfunction may have?
Protective scoliosis Limited AROM Dermatome and myotome issues Limited neural mobility Tight hamstrings and piriformis Distraction decreases symptoms Compression increases symptoms Tenderness in the lumbar paraspinals, QL, and posterior lateral hip muscles on side involved Decreased function and endurance
nucleus propulsus
Proteoglycans and Type II Collagen (resists compression) Centrally located in cervical (children and young adults) and thoracic discs, more posterior in lumbar discs Functions -Imbibition: holding fluid against mechanical pressures -Nutrition: attracts nutrients from vertebral bodies -Force Transmission -Stress Equalization: equally transmits forces across annulus -Movement: ball-bearing like "rocking"
Cartilaginous End Plate
Proteoglycans, hyaline cartilage Contains Sharpey's fibers that connect the disc into the rim of the vertebral bodies Avascular after 10 years following birth Functions -Protect bone -Transmit weight -Fluid exchange: between disc and vertebral body
What are the effects of manipulation?
Psychological Neurophysiological Mechanical
What effect will a grade II manipulation have?
Psychological and neurophysiological effect
What effect will a grade IV manipulation have?
Psychological, neurophysiological, and mechanical
Low Subject Reactivity
Pt can carry out functional activities as expected without complaints during the activity
Moderate subject reavitivity
Pt can carry out the functional activity as expected bu expressed complaints during that activity Post activity complaints
Inverted Supinator Sign
Purpose: Cervical myelopathy Method: PT support pt's forearm and taps the dista brachioradialis with a reflex hammer. Positive Test: Finger flexion or slight elbow extension
Cervicogenic Headache
Referred headache pain that originates from the neck, often due to muscle tension or cervical degenerative arthritis. Also referred to as occipital neuralgia. management -Impairment based approach (manual therapy and exercise) -DNF training -Postural education -Cervical mobilization
What are the indications for manipulation?
Relief of pain increase range of motion improve function impairment-based evidence informed approach
Phase IV of Osteocondrosis
Residual deformity -bone healing complete -shape of epiphysis is fixed -jt function limited -DJD may ensue
Hemarthrosis Tx
Rest Support Aspiration by MD PRICE
Synovitis Tx
Rest from provoking activities PRICE
What are outcomes?
Results of the patient/client management
Phase II of osteocondrosis
Revascularization -blood supply returns -bone deposition occurs -pathologic fracture -symptoms present -imaging shows fragmentation -dx -biological plasticity - TX = splinting or bracing
Examination of scoliosis (structure)
Rib hump - on side of convexity S curve typically L lumbar/R thoracic Unlevel shoulders Scapula prominent on the side of the convexity Pelvic obliquely may appear as a leg length
C2/C3 to T3/T4 rotation to left
Right glides up and forward Left glides down and back
Non-Functional sidebending in the C spine
Rotation to the same side in the mid/lower C Spine Rotation to the opposite side in the upper/subcranial C spine (keeps eyes level)
What is an abnormal cartilage end feel?
Rough and grating
Achilles tendon reflex
S1-S2
What muscle is associated with torticollis?
SCOM
Standing: PSIS and GT unequal Seated: PSIS and GT unequal causes?
SI disfunction scoliosis inominates asymentrical
Straight leg raise tension test
SID - sural TED - tibial PIP - peroneal
Biceps Load Test II
SLAP lesion
How would you differentiate between a lateral shift caused by the disc or instability?
SLR if + = disc if - = instability
Median N. Tension test
Shoulder ABD External Rotation Supination Wrist/finger/elbow extension Shoulder depression Cervical contralateral lateral flexion
Ulnar N. tension test
Shoulder ABD & ER Supination Wrist/finger/elbow extension Shoulder depression Cervical contralateral lateral flexion
Radial N. Tension Test
Shoulder ADD & IR Pronation Wrist/thumb/index flexion Elbow extension Shoulder depression Cervical contralateral lateral flexion
Examination of scoliosis (Active movements)
Side bending limited to side of convexity erector spinae prominent on convex side of lumbar spine
What two words are important when providing a definition of intervention?
Skilled and purposeful
What is a manipulation?
Skilled passive movement to a joint
Passive Compression test
Slap lesion
PIVM grade 2
Slight restriction (hypomobile) non thrust/thrust progression
A normal muscle/soft tissue approximation end feel will be?
Soft and spongy
What is a pannus end feel?
Soft with crunchy feeling
What is the best examination to determine tissue reactivity of the medial mensicus injury?
Special test
What is an examination test?
Specific test related to one of the 18 steps
Spina bifida myelocele
Spinal cord and nerve roots are completely exposed/infection may result in death
Settled SOC
Stabilized condition Goal restore tissue back to normal
In what steps can you find TSI's?
Step 5 P4C Step 7 PROM Step 8 MSTT Step 9 MLT Step 10 MMT Step 11 Special Tests (some) Step 13 P4T Step 14 Neuromuscular/vascular
What should happen if a patient suffers adverse reactions to manipulation?
Step back, re-examine, critically reflect upon what happened and analyze in order to correct
Lumbar Roll (Lumbar rotation/stretch)
Stretch Contraindicated for disc involvement and spondys Pt right side lying -L rotation -Gapping L -Upper hand pushes down on vert (pt R) -Lower hand pulls up on vert (pt L) Locking-facet distraction
Which manipulations engage the plastic region of the stress strain curve?
Stretch Thrust Progressive oscillation Grade III and IV
What mechanical effects do you get from manipulation?
Stretching a restriction Snapping an adhesion Change in positional relationships
What is a bony block end feel?
Sudden hard/rigid stop
What is joint adhesions end feel?
Sudden sharp arrest in one direction
CPR for spinal stenosis
Sugioka (FBASICS65) FB improves symptoms +2 BB improves symptoms -2 Age >70 +3 Standing symptoms worse +2 Incontinence +1 Claudication +1 Symptoms >6 months +1 score of 7+ = 65% validity
What position will a person with a disc dysfunction prefer?
Supine
Supportive
Supports previous treatments Ex home exercise program
Straight Leg Raise Test (SID, TED, PIP)
Sural -inversion and dorsiflexion Tibial - eversion and DF Peroneal - inversion and PF
Effusion
Swelling inside a joint
Which words are clues that it is not a tissue specific impairment?
Syndrome or pain
Facet Syndromes
Synovitis/Hemarthrosis (sprain) Restriction Painful Entrapment (capsular) Mechanical Block Chronic Facet Arthrosis
C2 dermatome
Temple, forehead, occiput
What is the difference between tendonitis and tendonosis and tendonopathy?
Tendonitis implies that there is an inflammatory process occurring within the tendon; tendonosis refers to tendon degeneration; tendonopathy is the pathology of at tendon and includes tendonosis and tendonitis
What are 3 causes of scapular dyskinesis?
Type I - SICK scapula -malposition of scapula - interiormedial border prominence -coracoid pain -kinesis abnormality Type II - Portuded medial border Type III -Superior translation
Settled SOC
The condition has stabilized The tissue is no longer fragile and corrective treatments are well tolerated Swelling may or may not be present, but warmth is likely absent
Sub-acute SOC
The condition is beginning to improve The tissue is fragile and must be cared for delicately as to not cause re-injury Warmth and swelling is commonly present
Lytic spondylolisthesis
This usually occurs in a younger population due to trauma or excessive/repetitive backward bending as seen in gymnastics. The pars interarticularis is where the fracture occurs. Slippage is at that level of the fracture but felt at the level below L4 lytic = L5 step felt
Indication for manipulation: Acute neck pain and mobility deficits?
Thoracic Manipulation
Indication for manipulation: Sub Acute neck pain and mobility deficits
Thoracic and cervical manipulation and mobilization
Indication for manipulation: Chronic neck pain and mobility
Thoracic manipulation Cervical: manipulation and mobilization
Indication for manipulation: Chronic neck pain and radiating pain
Thoracic manipulation and mobilization
What are the 4 possible end-feels for classical DF following immobilization?
Tight capsule Tight muscle adhesion Swelling
What is the purpose for the 9 abnormal end feels?
To assist with identifying the structure that is limiting joint movement
What are component motions used for?
To detect joint dysfunctions that may be interfering with active range of motion
The purpose of STT (muscle selective tissue tension testing) is?
To identify dysfunction within the musculotendinous unit
What is the purpose of the evaluation and the diagnosis?
To make a clinical judgement based on the data from the tests and measures that results in a diagnostic label for the patient
What are the psychological effects of manipulation?
Touch=caring Induced skilled movement in presence of fear (decreases pt fear) pop or snap cavitation placebo and nocebo effect Impact of pt expectations (keep it positive) therapeutic alliance: relationships (TRUST)
A disc bulge that is medial to the nerve root will cause a pt to shift or lean which way?
Towards the side of pain
Deep layer of back muscles
Transverse spinalis, multifidus, rotators
Peripheral Nerve Injury
Traumatic injury (lacerations, fractures, crush injury), nerve entrapment neuropathy (external compression by fibrous band, median nerve commonly involved, may require surgical release if unresponsive to conservative treatment)
Corrective
Treatment that actually tries to correct or fix the impariment
Palliative
Treatments to ease symptoms and complaints Ex. Electric stim
C7 reflex
Triceps
T or F a patient with SCFE may complain of pain into the knee and thigh?
True
T or F manipulation is both an examination and a treatment?
True
types of mechanoreceptors
Type I Type II Type III Type IV
Annulus Fibrosis
Type I collagen (resists tension) Fibers at oblique orientation of 30-70° arranged in opposite directions Inner layers more gelatinous, less organized Outer 1-2 layers innervated by Ventral Ramus, Sinuvertebral n, Gray Ramus Communicans Blood supply from Segmental aa Functions -Contain nucleus -Stabilization: limits excessive motion of each segment -Movement: wide range permitted
SI forward torsion manipulation
Type: Strong stretch, sustained stretch, progressive oscillation, impulse
PIVM grade 6
Unstable (loss of ligament and osseous control) Stabilize/fusion surgery candidate be careful grading 6-d/t surgery need
C2 myotome
Upper cervical extension/ Neck Rotation
C1 myotome
Upper cervical flexion
Lumbar sidebending prone lying abducting the leg
Used to stretch the opposite side facet joint in an upslide Thumb is used to block the vert above the segment being treated (L3/4 segment = block of L3) progressive oscillation or stretch
Ulnar collateral ligament test (thumb)
Valgus stress test to thumb
Cluster to rule in radiculopathy
Wainner SUD60 +Sprulings +ULTT Distraction improves >60 degrees of cervical rot to involved side Specificity 4/4 = 90% likely 3/4 = 65% Sensitivity 4/4 0.24
Disability
a physical or mental condition that limits a person's movements, senses, or activities.
What is manipulation founded on?
anatomy and biomechanics
What does the ALL become?
anterior A/A membrane and the anterior A/O membrane
C3 myotome
cervical lateral flexion
The AA joint is
convex on convex
MSTT Anconeus
elbow extension
C7 myotome
elbow extension, wrist flexion
MSTT SUpinator
forearm supination
Imbibition
how the discs get nutrition
L4 dermatome
includes kneecaps
What causes TMD?
injury to jaw, TMJ, muscles of the head and neck teeth grinding or clenching injury to the disc
Femoral Neck Fx
intracapsular problematic - 95% displaced no obvious swelling even tho swelling in joint poor bone healing due to low blood supply
Mennell
joint play
C8 Dermatome
little finger
T1 dermatome
medial forearm
Forefoot
metatarsals and phalanges
What is the primary segmental stabilizer of the lumbar spine?
multifidus
What 3 structures prevent facet capsule from getting pinched
multifidus meniscus ligamentum flavum
14 steps to spinal examinations
pain assessment initial observation hx and interview structural inspection AROM Neurovascular P4C Palpation for position PIVM Upper and lower quadrant assessment radiologic summary of findings tx plan prognosis
T6 dermatome
passes over xiphoid process
PIVM
passive intervertebral motion
Ankylosed
permanently immobile
Neurochemical Effects
plausible release of endorphins
High Subject Reactivity
pt cannot carry out activity
Manipulation
skilled passive movement to a joint with a therapeutic intent (paris)
McKenzie
spinal extension for LBP
T3 dermatome
third intercostal space
PA Glide Supine
thrust
What nerve innervates the TMJ?
trigeminal nerve
What are some factors that could lead to impingement?
• Structure (osseous) • Instability and/or laxity • Hypomobility • Muscle imbalance (tightness, weakness) • Extrinsic factors: postural - functional, nerve, trauma, disease
A/A joint mechanics for FB
atlas glides anteriorly on both sides
A/A joint mechanics for BB
atlas glides posteriorly on both sides
RadioCarpo Wrist Flexion
distraction dorsal glide dorsal tilt
CarpoMetacarpo Wrist adduction
distraction dorsal glide volar glide
CarpoMetacarpo Wrist extension
distraction dorsal glide volar glide
CarpoMetacarpo Wrist flexion
distraction dorsal glide volar glide
RadioCarpo Wrist adduction
distraction radial glide (proximal row) lateral tilt
TSI: Complete tear Best exam step? Best Tissue reactivity
MSTT MLT
TSI: Strain Best exam step? Best Tissue reactivity
MSTT MLT
TSI: Tendonitis/osis Best exam step? Best Tissue reactivity
MSTT MLT
At the AA joint with forward bending what direction does atlas move?
anteriorly on both sides
A/A joint mechanics for rotation to L
atlas right facet glides anteriorly left facet glides posteriorly
At the AA joint with rotation left what direction does atlas move?
atlas right facet glides anteriorly and left facet glides posteriorly
A patient with a left lumbar disc bulge that protrudes lateral to the nerve root will shift what direction?
away from pain
Joint play motions of MCP joint
distraction radial tilt ulnar tilt long axis rotation
PIP/DIP joint plays
distraction radial tilt ulnar tilt unicondylar glides
Radio Carpo wrist extension
distraction volar glide volar tilt
A/A Joint (C1/C2)
convex on convex - planar/pivot joint in transverse plane motions: rotation, some sidebending 50% of rotation
Kaltenborn
convex/concave rule
Joint play that improves pronation and supination
distraction radius from capitulum
Reverse Phalen's Test
TESTING: Carpal tunnel syndrome POSITION: Prayer position with palms together and fingers pointed upward (+) TEST: If symptoms worsen
Crank Test
TESTING: Inferior labrum tear POSITION: 160˚ flexion load through the elbow and move in a IR/ER motion (+) TEST: Clicking or popping with loaded movement
Lift-off test
TESTING: Subscapularis tear POSITION: Patients hand behind their back and ask them to pull it away from their back (+) TEST: Inability to perform the movement
Settled Prolapse
(3-4 weeks) slow improvement Signs:sensory and motor dysfunction, neurogenic pain Clinical Presentation: flex or shifted posture Management -Commence positional distraction with caution (HEP) -Stabilization -Lifestyle and healthy back regime -Goal is to prevent chronicity by encouraging activity and managing any fear avoidance behaviors
Malunion:
* a fracture that has healed but incorrectly, leading to significant deformity
Scapular dyskinesis
* any alteration in the position or motion of the scapula * 3 main types - type 1 "sick": malposition of scapula, ineriormedial border prominence, coracoid pain and malposition, kinesis abnormality - type 2: protruded medial border - type 3: superior translation * treatment: restoring normal position and motion to allow proper scapulohumeral rhythm
Codman's exercise (pendulum)
* bend forward at waste - puts GH join in slide flexion and ABD * move trunk in forward/backward, lateral, an circle movements - allows for pain reduction and joint separation NEUROPHYSIOLOGICAL EFFECT
What is different about a calcific tendonitis than traditional tendinitis? What muscle tendon is this unique to?
* calcific results from local necrosis within the tendon - the necrosis causes calcium deposits to occur within the tendon - has a "toothpaste" like consistency - can be laid down fast (acute) or more slowly (chronic) - requires radiography to identify * specific to supraspinatus
Muscle imbalance risk factors for shoulder impingement
* common pattern - anterior muscular tightness (pec major + minor, subscapularis) - posterior weakness (mid and low trap, rhomboids, serratus anterior, supraspinatus, infraspinatus, teres minor) * tight anterior muscle causes anterior tilt of scapula, closing subacromial space
What is a non union
* failure of fracture to heal with bone * i.e fibrous union, fracture healed by fibrous tissue rather than bone
Delayed union:
* fracture heals much slower than expected
Greenstick fracture:
* fracture on convex side of bone * only bending on concave side
What is impingement syndrome a reference to?
* greater tuberosity of the humerus coming into closer proximity to the underside of the caraco-acromial arch - soft tissues i.e supraspinatus, long head of biceps become impinged between humerus and coracoacromial arch
MOI for clavicular fractures
* most often a fall directly onto outside of the shoulder * can also be a FOOSH * most often affected: middle 1/3 of the bone *greenstick fracture most common: cancaveity on one side of bone, convecity with bone splintering on other side * figure 8 brace to treat
CRPS is a pathology of the communication between the ANS and the brain. - what does this mean?
* the response to injury through the sympathetic NS is impaired - redness, swelling, vasodilation, which are normal responses to injury, occur in CRPS without an injury
Why is the glenohumeral joint slightly abducted post surgery?
* to promote blood flow for the supraspinatus tendon * if the shoulder is adducted, the tendon is "wrung" out over the head of the humerus, decreasing blood flow
Pseudoarthrosis:
* type of nonunion that occurs due to continual movement at fracture site * a "false joint" starts to form
Chemical muscle holding
- Occurs when muscles have been overused - Muscles will ache and feel "doughy" and tender to touch - May also occur as result of sustained involuntary guarding Management: heat and massage
Hypotonic states
- disuse atrophy - wasting and fibrosus
Benediction sign
- have patient make a fist - if they can only flex the 4th and 5th digits, loss of median nerve is indicated
MSTT Elbow Flex
- loose pack position at the elbow about 70 degrees of elbow flexion and neutral between pronation and supination. - Patient is sitting - PT: standing, hand cradles the posterior elbow to maintain loose pack position and to avoid patient having to hold arm in position - Muscles: biceps, brachialis, brachioradialis - Contact: mid forearm of radius to apply resistance
MSTT Forearm pronation
- loose pack position at the elbow about 70 degrees of elbow flexion and neutral between pronation and supination. - Patient is sitting - PT: standing, hand cradles the posterior elbow to maintain loose pack position and to avoid patient having to hold arm in position - Muscles: pronator teres - Contact: distal 1/3 volar forearm on radius apply resistance
MSTT Elbow Ext
- loose pack position at the elbow about 70 degrees of elbow flexion and neutral between pronation and supination. - Patient is sitting - PT: standing, hand cradles the posterior elbow to maintain loose pack position and to avoid patient having to hold arm in position - Muscles: triceps and anconeus - Contact: mid forearm of ulna to apply resistance
Subcranial instability 1. how can it occur 2. what is it caused by? 3. what should you do when you encounter it?
1. - can occur in those with rheumatoid arthritis - ankylosing spondylitis - down's syndrome - those on corticodsteroids - post trauma 2. excessive anterior translation of the atlas on the axis - greater than 3mm in adults and 4mm in children - can cause compression of medulla, spinal cord, vertebral arteries - superior sympathetic ganglion - nasopharynx 3. REFER TO MD IMMEDIATELY
Posture related neck ache 1. where is it usually located? 2. what is the source?
1. - neck - upper trap region -interscapular region -suboccipital region 2. facet joint capsule or cartilage
Prognosis of CRPS
1. 80% have complete spontaneous relief of signs + symptoms within 18 months 2. no criteria established to predict outcome 3. 50-80% disability secondary to pain or limited ROM 4. long duration of symptoms - presence of tropic changes - presence of cold (reflex sympathetic dystrophy (RSD)
Capsular pattern at the elbow (5)
1. AROM flexion more limited than extenson 2. PROM classical flexion more limited than extension 3. tight capsular end feel with PROM classical 4. PROM accessory P/A glide more limited than A/P glide of radial head 5. tight capsule end feel with PROM accessory
Best Examination findings to confirm a capsular pattern of restriction at the GH joint (4)
1. AROM: active movements decreased with ER>ABD>IR 2. PROM classical (quantity): decreased passive ROM with ER>ABD>IR 3. PROM classical (quality): tight capsule end-feel in all direction 4. PROM accessory (quantity): decreased P/A> inferior> A/P
Carpal Tunnel Syndrome 1. What is it? 2. What are the primary signs and symptoms?
1. Crompression of the median nerve in the carpal tunnel 2. paretheisias within the median nerve distribution and motor weakness within the muscles innervated by the median nerve
What are the three best examination findings to confirm carpal tunnel syndrome?
1. history - night pain 2. MMT: weakness in hand muscles innervated by median nerve 3. neurovascular: decreased sensation in median nerve distribution in the hand
1. What would be the positive exam findings for supraspinatus calcific tendonitis with the following steps. - PFC -AROM -PROM -MSTT -MLT -PFT -DI 2. out of these steps, what are the BEST ones to rely on
1. FFC: warmth and swelling over tendon -AROM: painful arc -PROM- painful in opposite direction that muscle contracts - MSTT: strong and painful with ER and abduction - MLT: pain with lengthening of the supraspinatus -PFT: painful over tendon - imaging: "brightness" noted within supraspinatus tendon location 2.- MSTT -MLT -PFT -Imaging: will be positive but it is not a clinical exam since PTs can't order images
Monteggia Fracture-dislocation 1. what anatomical region is it specific to?
1. Fracture of the proximal 1/3 of the ulna with dislocation of proximal radioulnar joint 2. radius is displace and angled anterior
Instability risk factors for shoulder impingement (3)
1. humeral head is in incorrect position before movement. Movement then causes earlier encroachment of humeral head to coracoacromial arch 2. humeral head is in normal position prior to movement, but movement causes excess arthrokinematic movement that encroaches humeral head to coracoacromial arch 3. increased muscular effort due to laxity can pull humeral head up too much, closing off the subacromial space.
1. What is the MOI for a supracondylar fracture of the elbow? 2. what complications can this injury present? 3. how can this injury be treated (outside of pt)
1. hyperextension or fall on flexed elbow? 2. Comminution, jaggest ends of bone being driven into the anterior periosteal tissue and brachialis - could cause neurovascular damage to median nerve and brachial artery 3. immobilization if no displacement or neurovascular damage. if the former occured, closed reduction. If the latter occured, ORIF
1. What is the most common location for the ulnar nerve to become entrapped at the elbow 2. What can cause this entrapment?
1. in the cubital tunnel behind the medial epicondyle 2. larger carrying angle * larger forearm flexor mass
USA Clinical Philosophy
1. Injuries to the joints such as osteoarthritis, instability, and the effects of sprains and strains are considered impairments or dysfunctions and fall under the scope of physical therapy 2. Impairments are considered abnormal movements that either increase or decrease the amount of motion from normal. 3. If the impairment results in limited motion the treatment should focus on increasing motion by use of manipulation (joint structure), stretching (muscles and fascia), and activities that focus on full range of motion. 4. If the impairment results in increased movement the treatment should focus on decreasing motion by using stabilization and not manipulation. Stabilization includes correct posture, stabilization exercises, and correction of limitations in movement in surrounding areas. 5. Timely physical therapy is key in preventing adverse effects from impairments or dysfunctions 6. The role of the physical therapist is to deal with impairments and dysfunctions of the neuromusculoskeletal system and the physicians role is to diagnose and treat diseases. Different roles that are complementary to each other. 7. Physical therapy should focus on correcting the impairment rather than just pain. Unless pain prevents treatment of the impairment 8. Anatomy and biomechanics are the foundation to physical therapy so an understanding and continual study in these areas is essential to providing quality care for our patients. 9. Physical therapy is now at the level where it should be the primary care for movement dysfunctions and impairments not dependent on referrals from other healthcare professionals 10. The responsibility to get better lies with the patient because if they do not follow the education, example, or direction of the physical therapist they will not benefit from physical therapy.
USA Philosophy
1. Injuries to the joints such as osteoarthritis, instability, and the effects of sprains and strains are considered impairments or dysfunctions and fall under the scope of physical therapy 2. Impairments are considered abnormal movements that either increase or decrease the amount of motion from normal. 3. If the impairment results in limited motion the treatment should focus on increasing motion by use of manipulation (joint structure), stretching (muscles and fascia), and activities that focus on full range of motion. 4. If the impairment results in increased movement the treatment should focus on decreasing motion by using stabilization and not manipulation. Stabilization includes correct posture, stabilization exercises, and correction of limitations in movement in surrounding areas. 5. Timely physical therapy is key in preventing adverse effects from impairments or dysfunctions 6. The role of the physical therapist is to deal with impairments and dysfunctions of the neuromusculoskeletal system and the physicians role is to diagnose and treat diseases. Different roles that are complementary to each other. 7. Physical therapy should focus on correcting the impairment rather than just pain. Unless pain prevents treatment of the impairment 8. Anatomy and biomechanics are the foundation to physical therapy so an understanding and continual study in these areas is essential to providing quality care for our patients. 9. Physical therapy is now at the level where it should be the primary care for movement dysfunctions and impairments not dependent on referrals from other healthcare professionals 10. The responsibility to get better lies with the patient because if they do not follow the education, example, or direction of the physical therapist they will not benefit from physical therapy.
Hypermobility risk factors for shoulder impingement
1. congenital capular and ligamentous laxity - there are people born with "stretched out" ligaments -AMBRII: atraumatic multidirectional bilateral rehab inferior interval 2. some type of trauma to GH joint that results in tearing or stretching of the capsule, ligaments, or labrum - SLAP tear: tear of superior labrum from anterior to posterior direction 3. dislocation: most often happens in anterior direction
What tendons may be used to surgically fix trauma to the elbow MCL?
1. palmaris longus tendon 2. plantaris tendon 2. toe extensor tendons
What are the 10 muscles responsible for gripping?
1. flexor pollicis longus 2. flexor digitorum profundus 3. flexor digitorum superficialis 4. opponens pollicis 5. opponens digiti minimi 6. flexor digiti minimi 7. flexor pollicis brevis 8. adductor pollicis 9. dorsal interossei 10. palmar interossei
bicycle test
1. Pt in erect posture rides bike 2. Time noted at onset of symptoms 3. Pt rests until symptoms resolve 4. Pt leans forward and repeats 5. Time of symptom onset recorded *Vascular claudication if symptoms come on at same time as erect posture trial*
Bicycle Test for intermittent claudication
1. Pt in erect posture rides bike 2. time noted at onset of symptoms 3. pt rests until symptoms resolve 4. pt leans forward and repeats 5. time of symptom onset noted *Indicates vascular claudication if symptoms come on at same time as erect posture trial*
Treadmill Test
1. Pt walks on 0% incline 2. Time of symptom onset recorded 3. Pt rests until symptoms resolve 4. Pt walks on inclined treadmill 5. Time of symptom onset recorded *Symptom onset quicker if due to vascular claudication*
C/S Disc - posterior annular tear exam What is the painful movement pattern?
1. forward flexion 2. bilateral rotation 3. possible extension * pain can be unilateral or bilateral
How would you differentiate facet joint tightness vs muscular tightness, such as upper trap?
1. have patient side bend with arms at their side and observe range 2. support patient's arms in elevation to slack upper traps and reobserve side bend * if range improves with slacked traps, then tightness is in facet joint
"No Man's Land" 1. where is it? 2. What's important about it? 3. why is it difficult to heal an injury to it?
1. part of flexor zone 2 - from distal palmar crease to mid portion of middle phalanx 2. This is where the tendons of the flexor digitorum profundus and flexor digitorum superificalis tendons pass through their fibrous tunnels 4. surgery is always required but adhesions are likely due to low blood supply
Physiology of the pop
1. Thrust manipulation to the joint 2. Increased Joint Space 3. Vacuum of negative pressure is created 4. "POP" formation of the CO2 gas bubble 5. POP is more than gas in the joint 6. Joint capsule is distracted by the gas like a balloon 7. Mechanoreceptor III is stimulated causing muscle inhibition 8. Local relaxation is experienced *PAIN RELIEF* 9. Has biomechanical effect as the synovial capsule is stretched and adhesions may be snapped
extrinsic risk factors for shoulder impingement (2)
1. postural: increased kyphosis, forward head, rounded shoulders - all cause anterior tilt of scapula and internal rotation of humerus, increasing risk of impingement 2. nerve damange - suprascapular nerve - axillary nerve - long thoracic - dorsal scapular
Treadmill Test for Intermittent claudication
1. pt walks on 0% incline 2. time of symptom onset recorded 3. pt rests until symptoms resolved 4. pt walks on inclined treadmill 5. time of symptom onset recorded *symptom onset quicker if due to vascular claudication*
Sprain/strain/synovitis of C-spine 1. cause? 2. location? 3. key factor? 4. impairments?
1. an overstretch of the facet capsule - sore on onset, with worse pain over the following days 2. location can ary from centered in upper trap/levator region to the interscapular region or cervical/subcranial regions 3. no neurological signs 4. forward head and rounded shoulders - limited AROM: side-bending and rotation is one direction more limited than other - upper trap and levator tighter on more involved side - tenderness and increased ton in cervical/thoracic paraspinals, suboccipital muscles, upper trap, levator and interscapular muscles
SC joint 1. most common MOI? 2. treatment?
1. anterior or posterior dislocation - posterior more rare, but more severe 2. immobilization followed by PT for normal motion, strength, stability, and function
How would an MD treat olecranon bursitis?
1. aspirin, cortisone, antibiotics 2. sling
What are the associated signs and symptoms of CRPS? (11)
1. atrophy of hair, nails, other soft tissue 2. alterations of hair growth 3. loss of joint mobility 4. impaired motor function (weakness, tremor) 5. sympathetically maintained pain 6. pain described as burning throbbing, shotting, or aching 7. hyperalgesia 8. allodynia (feeling pain from things you normally shouldn't) 9. abnormal sweating or anhydrosis 10. redness of bluish discoloration 11. heat of cold sensitivity
Areas of median nerve entrapment
1. bicipital aponeurosis 2. ligament of struthers - anatomical anomaly 3. area between the two heads of pronator teres - hypertrophy/tightness/swelling can cause this
Acceleration/Deceleration injuryies/whiplash 1. What anatomical structures can be effected (12) 2. impairments? 3. Interventions?
1. bone - ligaments - discs - facet joints - anterior/posterior cervical musculature - esophagus - trachea - pharynx - sympathetic chain - brainstem - spinal cord - blood vessels 2. Guarded posture - AROM markedly limited and guarded - no neurological signs - muscle tightness - joint overstretch/hypermobility - weak anterior neck musculature - tenderness and increased muscle tone 3. stabilization of C-spine - treat muscle gurading and pain - 50% 1 RM exercise - isometrics - ROM 1st, then resistance
1. Heterotropic ossification vs 2. myositis ossificans
1. bone formation in location other than bone 2. bone formation in inflamed muscle
Heberden's and Bouchard's nodes 1. What do both signify the presence of? 2. How do they differ? 3. what are the hallmark findings of these nodes?
1. both represent swelling or appearance of thickned bone 2. - Heberden's are located at the DIP joint and associated with OA - Bouchards are located at PIP joint, and associated with both OA and RA 3. - decreased joint space - sclerosis of subchondral bone - osteophytes at articular margins - joint deformities
Headaches 1. when is it warranted to be treated by a PT? 2. what segments are typically involve? 3. impairments? 4. interventions?
1. can be treated by a PT when pain begins in cervical, suboccipital or thoracic regions and radiates to the head - headache must be affected by change in position or movement 2. Occ/C1 or C1/C2 3. Forward head posture - poor postural awareness - upper trap/levator tightness - increased tone/tenderness - no neurological signs 4. treat tight cervical flexion - soft tissue mob - postural exercises
cervical radiculopathy exam 1. What type of stress would increase pain? 2. What type of manual technique would decrease pain? 3. Where would you experience tissue tenderness? 4. what movements will be compromised? 5. Where will neurological signs be observed?
1. compression 2. distraction 3. tenderness experienced on the side of involvement 4. ipsilateral side bending, and back bending 5. In dermotome and myotome
What areas are important to be touched upon during the subjective evaluation? (6)
1. demographic/ vitals 2. symptom location/type/intensity 3. what makes it better/worse 4. past medical/surgical history 5. functional limitations 6. Red flegs (screen for non musculoskeletal origin of symptoms
Olecranon Bursitis 1. etiology? 2. Clinical presentation? 3. differential diagnosis? 4. PT treatment?
1. direct trauma - repetitive weight bearing 2. warmth and swelling on posterior elbow - pain with ARM extension - pain with PROM flexion or MLT 3. Infection - RA - gout - Fracture 4. Modalities to decreased inflammation and pain - education for repetitive stress - stretch/strengthen as indicated by exam
Tribonucleation
1. distraction force is applied to the joint 2. Increase tension to a joint cavity = increase in joint space 3. A vacuum of negative pressure is created 4. Tribonuleation -opposing surfaces resist separation until a critical point where they separate rapidly *POP* -synovial fluid converts to gas -80% CO2 -joint space increases 5. 15-20 mins until joint can pop again (refractory period)
History Questions specific to C-spine (7_
1. do you have trouble bringing your head upright when you look downwards or bend your neck forward? 2. do you ever experience episodes of dizziness? 3. do you have difficulty swallowing or speaking? 4. have you noticed an increased incidence of gagging? 5. do you have any difficulty walking or balancing? 6. do you note a change in symptoms if you hold your breath and strain?
Swan neck Deformity 1. what causes it? 2. What is it's appearance? 3. what is it often a consequence of? (5)
1. dorsal displacement of the lateral bands of the PIP joints 2. PIP joint is pulled into extension while MCP and DIP joints are pulled into flexion 3. RA - inflammatory arthritis - traumatic tendon avulsions - contractures - nerve injuries
How can CRPS be medically treated? (4)
1. drugs 2. sympathetic blocks 3. psychotherapy 4. surgery - spinal cord stimulator - intrathecal infusion - baclofen pump - morphine pump - sympathectomy - radiofrequency
Subcranial instability: what are the signs of compression for the : 1. lower brain stem 2. vertebral arteries 3. spinal cord (upper cervical spine) 4. sympathetic ganglion
1. dysarthria: difficulty with speak due to dysfunctin of the tongue - dyphagia: inability or difficulty swallowing - lingual deviation - cariac or respiratory distress 2. dysarthria (difficult speech) - dysphagia (difficult swallowing) - staggering gait - vertigo - hypotonia - incoordination of movement - nystagmus (abnormal reflex in eyes) 3. bilateral or quadrilateral parasthesia - hypoesthesia 4. Ptosis (drooping eyelid) - Miosis (contraction of the pupil) - Anhydrosis (absence of sweating) - Enopthalmos (recession of the eyball within the socket)
AC joint 1. most common MOI? 2. tests? (18 steps) 3. treatment?
1. fall on the shoulder with GH joint adducted 2. -PFC -PFT 3. immobilization followed by PT for ROM, strength, stability, and function - for grades 1-3
DeQuervain's Tenosynovitis 1. What region is it specific to? - what type of injury is it considered to be? 2. What are the clinical features? 3. What are the positive exam findings? 4. How can it be treated in PT?
1. inflammation within the tendons and tendon sheath of the 1st extensor tunnel - considered an overuse injury 2. pain on radial side of wrist and area of first extensor tunnel - pain with active abduction and extension of thumb, pain with active ulnar deviation 3. PFC: warmth, swelling, thickening over APL EPB - AROM: pain with active abduction and extension of thumb - PROM: pain with classical flexion and adduction - MSTT: strong and painful for abduction and extension of theumb - MLT: pain with lengthening of abductors and extensors - Special tests: positive Finklesteins 4. treat hypo-hypermobilities - stretching tight muscles - strengthen weak muscles -address ergonomics - splinting to decrease stress place on tendons
1. Characteristics of Axonotmesis 2. signs and symptoms
1. injury damages axons but not nerve body - axons, myelin, internal structures are all disrupted - corresponds with 2nd, 3rd, 4th degree injury to a nerve - axons are disrupted and must regenerate while the epineurium is intact - typically occurs with traction type injuries - regeneration occurs in intact neural tubes, but slowly 2. pain - evident muscular atrophy - diminished motor, sensory, and sympathetic function - recovery sensations return before motor function
1. Characteristics of Neurotmesis 2. signs and symptoms
1. internal structural framework and enclosed axons are destroyed - corresponds to a 5th-degree injury to a nerve - results from a disruption in continuity of both axons and all supporting structures, including epineurium - losing the neural tubes negates potential for normal regeneration - neurofibrils can grow out from the divided ends to produce a neuroma 2. no pain - muscle wasting - complete motor, sensory, and sympathetic function loss
Smith's fracture 1. how is it similar to a Colle's Fracture? 2. How is it different?
1. it's also a FOOSH- induced transverse fracture to the distal radius 2. FOOSH occurs in a pronated position rather than supinated position - distal segment has a volar displacement rather than a posterior displacement in Colle's - wrist tends to be flexed rather than extended
Post traumatic DJD what can cause it?
1. joint disruption associated with: - intra articular fractures - dislocation - fracture/dislocations 2. malunion
Opera glove anesthesia 1. what is it 2. what individuals will primarily present with this?
1. lack of sensation or numbness from the wrist down to the fingers - NOT due to pathology of radial, median, or ulnar nerves - therefore, no neurological cause 2. individuals with hysteria, leprosy, diabetes, CRPS
Cervical facet entrapment 1. what structures prevent this? (3) 2. When would pain be reported by the patient? 3. what are the impairments? 4. Internvention?
1. ligamentum flavum - multifidus - menisci all 3 attach to the capsule 2. A "painful catch" reported while turning the head or returning from an eccentric movement - often at first thing in the morning - pain is unilateral - no neurological signs - pain with any activity involving downsliding of involved facet joint 3. - postural shift of head/neck away from painful side in order to open up involved facet more - AROM markedly limited and painful w/ rotation and SB to involved side - backward bending also painful and limited - swollen facet joint capsule with tenderness and guarding in paraspinals and levator scapula 4. Multifius Isometric - if right sided pain, PT stands on left side - left hand wraps around head to contact posteriorlateral aspect of head - right hand stabilizes right shoulder - left hand exerts a submaximal force (similar to that of MSTT) to bring head down on a diagonal to opposite knee for 5-6 seconds - patient resists pull, initiating isometric constraction - perform 2-3 reps for 2-3 sets
Shoulder bursitis: 1. bursa most commonly effected? 2. clinical features? 3. positive exam findings (18 steps) 4. treatment?
1. subacromial, subdeltoid, subscapular bursa 2. pain over lateral brachial region of shoulder - gradual onset with previous history of tendinopathy (possibly) - patient supports arm in loose pack position 3. PFC: warmth and swelling - AROM: pain in any direction that compresses bursa - PROM: pain in any direction that lengthens muscle over the bursa or directions that compress the bursa - PTF ** best findings are the two palpations 4. *decrease swelling within bursa - massage - temporary lifestyle modifications * avoid movements that may cause greater compression * retrain function movement after bursa has healed
Movement (manipulation) fosters nutrition
1. moves articular surfaces -improves cartilage nutrition 2. moves articular capsules -secretes synovial fluid to the joints (motion is lotion) 3. improves ROM -facilitates circulatory system and nerve nutrition
What are six TSI that can cause anterior knee pain?
1. muscle weakness 2. muscle tightness 3. edema/effusion 4. tendinitis/osis 5. hypermobility 6. hypomobility make specific by specifying muscle, location or tissue
Boxer's Fracture 1. What anatomical area is it specific to? 2. what is the MOI? 3. how can it be medically treated?
1. neck of the 5th metacarpal 2. a ulnar striking force or a "unskilled" punch - 4th and 5th metacarpals are more mobile and less rigid than the other 3 3. - closed fixation - ORIF to plate 5th metacarpal
Kienbock's disease 1. what is it
1. osteochondrosis of the lunate bone
Scheurmann's Disease 1. What is it 2. When does it effect humans 3. What does it result in 4. How is it treated
1. osteochondrosis of the spine (juvenile kyphosis) 2. begins at puberty and progresses until growth is complete. Occurs more in males than females 3. results in projections of the disc into the vertebral body and to decreased growth of the anterior aspect of the vertebral bodies - wedge shaped vertebral bodies and marked kyphosis in 3-4 levels 4. bracing and postural exercise
Osseous risk factors for shoulder impingement
1. osteophyte formation - generally form under acromion and underside of AC joint 2. acromion shape - flat: least likely to cause - curve or hook: more likely to cause 3. a larger than average greater tuberosity
Central spine stenosis and myelopathy: 1. How is it caused? 2. what complaints are reported? 3. What are the impairments? 4. how can it be managed/treated?
1. osteophyte formation on posterior aspect of vertebral body - disc protrusion - ligamentum flavum - combo of DJD and DDD in c-spine 2. complaints of aching in neck and shoulders - occasional radiation into the arms - paresthesias noted in hands and/or feet - weakness in legs - problems with balance 3. forward head posture with thoracic kyphosis - generall limited ROM - permanent or transient neurological signs - general weakness of extremities - muscle tightness/weakness associated with posture - tenderness and increased tone in upper traps, cervical regions 4. work on tightness/weakness - strengthen extremities - work on balance activities - local treatment for muscle soreness - chin tucks performed with head resting on 2 pillow
Medial collateral ligament 1. etiology? 2. clinical presentation? 3. Treatment?
1. overhead athlete (throwing) - trauma 2. - pain on medial elbow - warmth/swelling - pain and increased mobility with valgus stress test - pain with PFT 3. Rest, ice, protect - gentle increase ROM and strenght - strengthen/stabilize above and below - supervised throwing progression
C/S right facet cartilage exam: What is the painful movement pattern? (3)
1. pain w/ bilateral extension 2. pain w/ ipsilateral sidebending and rotation * pain is experienced on the right side of the neck
Laslett's Cluster for SIJ
1. reproduction of pain with 3+ provocation tests a. distraction test b. thigh thrust c. gaenslen d. compression e. sacral thrust f. drop test 2. no centralization with MDT
1. MOI for an avulsion fracture of an olecranon? 2. potential complications post surgery? 3. Treatment options?
1. result of a sudden passive flexion with a powerful contraction of the triceps - causes triceps to avulse the olecranon process 2. non-union - post-traumatic DJD 3. immobilization with elbow flexed to 90 if minimal or no displacement - otherweise ORIF followed by immobilization
How can CRPS be treated in physical therapy?
1. sensory training 2. pain science education 3. ROM and muscular maintenance 4. massage for edema 5. muscle pumping exercises
1. MOI of elbow dislocation 2. complications (9)
1. severe hyperextension of a fall on hand with elbow slightly flexed 2. capsular damage - brachialis damage - collateral ligament damage - median nerve damage - brachial artery damage - fractures - myositis ossificans - post traumatic DJD - tight muscles/capsule
1. Charcteristics of Neuropraxia 2. signs and symptoms
1. slight damage to the nerve with transient loss of conductivity - corresponds to a 1st degree nerve injury - demyelination with restoration in weeks - complete recovery is expected within ~ 12 weeks 2. pain - none or minimal muscle wasting - some muscle weakness - numbness - loss of proprioception
Volkman's Ischemic Contracture 1. What region is it specific to? 2. How does it occur? 3. What pressure is associated with 70% decrease in compartmental blood flow?
1. specific to the compartments of the forearm 2. a build up of pressure in the compartment (from trauma or casting too tight) leading to increased pressure on neurovascular tissue - increased pressure leads to decreased blood flow - decreased blood flow leads to ischemia - ischemia leads to necrotic damage and fibrosis of muscles and surrounding ST - fibrosis leads to contractures which can further impinge a nerve 3. 50mmHg
Mallet Finger 1. What anatomical area is it specific to? 2. What is the MOI? 3. what is the appearance?
1. specific to the extensor tendon @ DIP being ruptured or bone at the attachment being ruptured 2. heavy eccentric load applied to extensor tendon results in the injury 3. DIP joint is held in flexion
Potential factors leading to an impingement syndrome (5)
1. structure (osseous) 2. instability or laxity 3. hypomobility 4. muscle imbalance (tightness, weakness) 5. extrinsic factors - postural - nerve - trauma - disease
Rotator cuff 1. muscle most/least often involved? 2. MOI for youth/elderly? 3. positive exam findings( 7 of 18 steps)? 4. treatment?
1. supraspinatus/supscapularis 2. youth: trauma elderly: degeneration 3. PFC: warmth and swelling (if acute) - AROM: painful in direction that muscle contracts - PROM classical - MSTT: strong and painful if tendinopathy or minor tear, weak and painful if partial tear, weak and painless if complete tear - MLT: painful with lenghetning of involved muscle if not deferred due to MSTT finding - MMT: weakness of involved muscle if not deferred due to MSTT finding - special test: combo of painful arc, drop arm sign and infraspinatus muscle test has highest probability of a full thickness tear 4. treatment depends on SOC and other impairments present
What are common symptoms of Volkmann's ischemic contracture?
1. swelling and tightness 2. diminished pulses and capillary refill
Trigger finger 1. What causes it?
1. swelling around flexor tendons - and/ or formation of a nodule within the flexor tendon - and/ or thickening of the fibrous sheath of the flexor tendons
What impairments are typical of of a forward head and shoulders posture
1. tightnes off upper traps, levator scap, suboccipital muscles, pec major, pec minor 2. weakness of mid traps, low traps, deep neck flexor
Rocobado 6x6
1. tongue clicking -correct resting position 2. Controlled TMJ rotation on opening -keep tongue in position and work on opening 3. Mandibular rhythmic stabilization -pt resists opening, closing, lateral deviation in resting pos. 4. Upper Cervical distraction -UC flex while stabilizing cervical spine "hand collar" 5. Axial Extension of Cervical Spine - opposite of FHP 6. Shoulder girdle retraction -retraction and depression of scapulae to fix posture
Colles fracture 1. What anatomical region is the specific to? 2. what is the MOI 3. Who is more predisposed to this type of injury? 4. What are some complications (7)
1. transverse fracture through distal radius 2. FOOSH with wrist in extension, the force traveling dorsally through distal radius - forearm usually in supination 3. - people over 50 - women - people w/ osteoporosis 4. radioulnar or radiocarpal instability - median and ulnar nerve injury - malnunion: "dinner force deformity": proximal portion of fracture posteriorly dispalced - post-traumatic arthritis - soft tissue adhesions - RSD - shortening or lengthening of radius
Myositic ossificans 1. etiology? 2. clinical presentation? 3. treatment?
1. trauma - burns - genetic disorders - typically within muscles located close to periosteum (brachialis, quadriceps) 2. AROM/PROM limited in flexion and extension - PROM accessory should be normal - decreased length of muscles - decreased strength of muscles - imaging: as early as 2 weeks post injury 3. Maintain ROM - don't be too aggressive
What are the possible causes of Carpal Tunnel? (9)
1. trauma - disease process or space-occupying lesion 2. ergonomics resulting in compression of carpal tunnel - overuse injury 3. displaced lunate volarly taking up space within carpal tunnel 4. edema within carpal tunnel 5. effusion within the wrist 6. retinaculum tightness causing compression 7. tight flexors preventing neural gliding 8. pronator teres syndrome mimicking carpal syndrome 9. C5-T1 nerve root pathology mimicking a carpal tunnel syndrome
1. Where can the deep branch of the radial nerve get entrapped 2. Where can the superficial branch of the radial nerve get entrapped
1. within the belly of the supinator 2. at the fibrous edge of the ECRB - main complaint = pain over dorsal aspect of 1st CMC joint
Shoulder flexion
180 (end-feel: ligamentous, capsular, or muscular)
What are the three best examinations to confrim patellar tendonopathy?
MSTT, MLT, P4T
What are the best examinations for tendinopathies?
MSTT, MLT, and P4T
Rabin's review of Hicks CPR
2/4 useful Aberrant movement +prone instability test
Radial deviation
20 (end-feel: boney, ligametnous, capsular, or muscular)
Thumb IP extension
20 (end-feel: capsular or ligamentous)
Hip extension
20 (end-feel: capsular, ligamentous, or muscular)
Ankle dorsiflexion (with knee flexed)
20 (end-feel: muscular, ligamentous, or capsular)
Loose packed position for shoulder
20 degrees scapulohumeral abduction from 20 degrees horizontal abduction
Shoulder inferior glide loose packed position?
20 flex 20 abd
Shoulder anterior glide loose packed position?
20 flex, 20 abd
The 3 best examination findings to confirm an achilles tendon rupture are:
MSTT, MMT, P4C
Hip abduction
45 (end-feel: capsular, ligametnous, or muscular)
Cervical Arterial Dysfunction
5 D's and 3 N's Refer
How far should the mandible be able to protrude?
5 mm
Reflex grading
5+ - sustained clonus 4+ - very brisk, hyperreflexive with clonus 3+ - brisker or more reflexive than normal 2+ - Normal 1+ - Low Normal, diminished 0 - No Response
Thumb MCP flexion
50 (end-feel: boney, capsular, ligamentous, or muscular)
Ankle plantarflexion
50 (end-feel: muscular, ligamentous, or capsular)
Ideal healing rate
50% first 2 weeks 80% in first 6 weeks 100% by 12th week
The ideal healing rate
50% first 2 weeks 80% in first 6 weeks 100% in 12 weeks
Shoulder extension
60 (end-feel: ligamentous, capsular, or muscular)
Lumbar Joints
6: 2 saf, 2 iaf, 2 ib 4 are synovial
Sacrum Joints
6: 2 sup art facets, 2 infer, 2 interbody 5 are synovial
What are steps 7-9 of the 18 steps of the extremity examination?
7. Joint Passive Range (quantity and quality) 8. Muscle selective tissue tension 9. MLT (including myocardial)
Shoulder internal rotation
70 (end-feel: capsular or muscular)
First metatarsophalangeal extension
70 (end-feel: capsular, cartilaginous, or muscular)
Thumb CMC abduction
70 (end-feel: ligamentous or muscular)
Wrist extension
70 (end-feel: ligamentous, capsular, muscular, or boney)
Anterior radial head glide loose packed position?
70 degrees flexion
Elbow ulnar distraction loose packed position
70 degrees flexion
Posterior radial head glide loose packed position?
70 degrees flexion
Ulnar-meniscal - triquetral volar glide loose packed position?
70 degrees flexion
Loose packed radio humeral joint
70 degrees flexion and 35 degrees supination
Loose packed radio ulna joint
70 degrees flexion and 35 degrees supination
Loose packed position ulna humeral joint
70-90 degrees flexion
Waddell's Behavior signs
8 signs 3-4 -yellow flag Overreaction Axial compression Rotation Regional weakness or disturbances Regional sensory disturbance Distracted SLR Superficial tenderness to palpating Non-anatomic tenderness to palpation
normal lateral deviation of the mandible?
8-10mm
Forearm pronation
80 (end-feel: boney or ligamentous)
Forearm supination
80 (end-feel: ligamentous or muscular)
Wrist flexion
80 (end-feel: ligamentous, capsular, or muscular)
Thumb IP flexion
80 (end-feel: ligametnous, capsular, or boney)
C2 joints
9 8 are synovial
Finger MCP flexion
90 (end-feel: boney, capsular, or ligamentous)
Finger DIP flexion
90 (end-feel: capsular or ligamentous)
Shoulder external rotation
90 (end-feel: capsular, ligamentous, or muscular)
MSTT Subscapualris
: GH internal rotation
MSTT Extension of middle finger
: extensor carpi radialis brevis
MSTT Pronator Teres
: forearm pronation
Remodeling phase (chronic)
>1-2 months
Coxa Valga
>125 degrees Genu varus
Biopsychosocial model
A model of illness that holds that physical illness is caused by a complex interaction of biological, psychological, and sociocultural factors.
Sprengel's deformity
A scapular that sits too high on the thorax - congenital in nature *typically smaller and more internally rotated than than conralateral scapula * overhead function commonly limited * possible brachial plexus and muscular imbalance dysfunctions
When performing a joint manipulation on a hypomobile joint capsule the expected abnormal end feel is?
Abnormal tight capsule
MSTT GH ER
All positions same as above - Muscles: teres minor, infraspinatus, supraspinatus - Contact: ulna on mid dorsum of the forearm to apply resistance
MSTT GH IR
All positions same as above - Muscles: teres minor, infraspinatus, supraspinatus - Contact: ulna on mid dorsum of the forearm to apply resistance
Based on the convex-concave rule what is the component motion for glen oh unreal joint ER?
Anterior glide
What direction do the menisci move during knee extension?
Anteriorly
With backward bending which direction does the nucleus deform?
Anteriorly
CPR for regional lumbopelvic manipulation
Author: Flynn FLICKS FABQ <19 Lumbar Spine hypomobility IR >35 degrees on at least one hip Knee-up symptoms Symptoms <16 days 4/5 = 95% chance of favorable response 0/4 = 45% Tx - manipulation
Lumbar Traction CPR
Author: Fritz +Nerve Root Symptoms Peripheralization with extension +Crossed SLR (45) Centralization with traction 4/4 high likelyhood
Lumbar Stabilization CPR
Author: Hicks Age <41 SLR >91 degrees Aberrant Motion + Prone instability test 3/4= 67% Author: Rabin +Prone instability test Aberrant Motion
Cervical Traction CPR
Author: Raney +ULTTA +Shoulder Abd Test Age >55 Peripheralization with PAVIM +Cervical Distractions 4/5=95%
Spinal Stenosis CPR
Author: Sugioka FB +2 BB -2 Age >70 +3 Standing worsens +2 Incontinence +1 Claudication +1 Symptoms > 6 months 7+ = 65.5%
Cervical Radiculopathy CPR
Author: Wainner +Spurlings Test +ULTTA Distraction Test decreases symptoms <60 degrees cervical rotation towards affected side 4/4 = 90%
A disc bulge that is lateral to the nerve root will cause a pt to shift or lean which way?
Away from the side of pain
Coxa Valga at the hip will result in which of the following at the knee? A. Genu Valga B. Genu Vara C. Genu Recurvata D. Nothing
B
What examination steps and findings would indicate a complete tear of the achilles tendon?
MSTT: weak and painless plantarflexion
The etiology of Legg Calve Perthes disease is thought to be A. Largely unknown B. Related to the vascular supply C. Due to trauma
B
How do we know if a patient needs a specific intervention?
Based on the data from the tests and measures and the list of tissue specific impairments
L5 dermatome
Buttock, posterior and lateral thigh, lateral aspect of leg, dorsum of foot, medial half of sole, first, second, and third toes
S2 dermatome
Buttock, thigh, and posterior leg
The 2 most common MOI for an anterior labral tear are? A. Older person with OA/DJD B. young person with repetitive use into flexion C. older person with hx of hip dysplasia due to repeated pivoting and twisting D. Young person with a twisting injury to the hip (ER and hyperextension)
C and D
Indication for manipulation: Chronic neck pain and headaches
C or C/T manipulation/mobilization
Chronic Facet Arthrosis
Cause: poor posture, trauma, overuse S/S: dull ache, local pain, stiffness Management: Decompress by: -posture education -mobilize joints if stiff and neighboring joints if hypermobile -address muscular impairments
Ulnar Upper Limb Tension Test
Depress the shoulder ER shoulder elbow flexion forearm pronation wrist and fingers extended "waiter"
Mechanical Block
Cause: idiopathic, loose body, impaction S/S: Sudden onset, block to motion, relatively pain free Clinical presentation: extension, SB towards, and rotation away (limited downglide) Management: Cervical: Strong manual traction w/SB away and rotation to blocked side (gap) Lumbar: Rotational manipulation over a bolster to further open affected side (gap)
Wasting Fibrosis
Cause: neurological (paresis disc prolapse), spinal cord tumor, surgical Signs and Symptoms -Rapid loss of muscle bulk -Fibrous nature of muscle Management Exercise as innervation returns Myofascial release to fascia of muscle
Provide the areas corresponding to the following dermatomes: C4 C5 C6 C7 C8 T1 T2
C4 = upper trap C5 = lateral delt C6 = thumb C7 = middle finger C8 = ulnar border of hand/pinky T1 = medial forearm T2 = medial arm
biceps reflex
C5-C6
Brachioradialis reflex
C6
Patient has decreased sensation around thumb and index finger with weakness in wrist ext. Also a diminished biceps reflex what nerve root is involved?
C6
Tricep reflex
C7
Upper Thoracic segment
C7/T1 --> T3/4
Involuntary muscle holding
Cause: Injury or dysfunction Signs and Symptoms -Hypertonicity -Protective muscle guarding -Elevated resting tone -Abnormal elastic response to touch Management Treat the cause of the impairment
synovitis / hemarthrosis (strain)
Cause: Trauma, overstretch, awkward movement S/S: guarded movement, involuntary/voluntary muscle holding Management: Lumbar: rest, soft corset, careful movement Cervical: rest, soft collar, careful movement Codman principles to an acute neck Diaphragmatic breathing Slow circumduction circles within circles
Adaptive Shortening
Cause: chemical holding, slouching posture (uhoh) Signs and Symptoms -Normal tone -Shortened length and loss of ROM -Altered posture (increased lordosis secondary to psoas shortening) Management Myofascia stretching
SIJ Displacement
Cause: hypermobile joint overrides articular prominences, severe force to joint, pubis rupture Signs and Symptoms Constant or nearly constant low grade pain Raised or lowered iliac crest Restrictive PROM Positive supine to sit test Management Manipulative reduction
Voluntary muscle holding
Cause: pain or fear of pain (can follow involuntary or chemical) Signs and Symptoms -Slow and guarded movements -Trunk moves as a whole Management R/O more serious (fx) Ignore give reassurance Repetitive motion
Tinel's Sign at wrist
Checks for: Carpal tunnel/ median neuropathy Procedure: PT taps supinated wrist at carpal tunnel Positive: tingling or pain
Finkelstein's Test
Checks for: DeQuervian's Syndrome Procedure: pt makes a fist with the thumb inside the fingers. The examiner stabilizes the forearm and deviates the wrist towards the ulnar side Positive: APL, EPB pain
Sulcus Test
Checks for: Inferior instability Procedure: patient stands with arm by their side and shoulders relaxed. Examiner grasps the patient's forearm below the elbow and pulls down Positive Test: presence of a sulcus sign
Mills Test
Checks for: Lateral epicondylitis Procedure: while palpating the lateral epicondyle the examiner passively takes the patient into pronation then flexes the wrist fully, then extends the elbow Positive: pain
Posterior apprehension Test
Checks for: Posterior GH instability Procedure: Patient supine and examiner elevates the arm to 90 degrees in the scapular plane and applies a posterior force to the elbow Positive Test: apprehension or pain
Scapular Slide Test (lateral slide)
Checks for: Scapular dyskinesis/rhythm Procedure: Patient standing with arm at the side. Examiner measures the distance from the base of the spine of the scapula to the spinous process T2 -same test with hands on hips -same test with arms at 90 Positive: measurements shouldnt vary more than 1-1.5 cm from test 1
TFCC Load Test
Checks for: TFCC tear Procedure: examiner compresses carpals into ulnar side of wrist and ulnarly deviates Positive: pain in TFCC location/ulnar side of the wrist
Supination Lift Test
Checks for: TFCC tear Procedure: pt is seated with elbows flexed to 90 degrees and forearms supinated. The pt is asked to place the palms flat on the underside of the table and asked to lift table Positive: pain on ulnar side of the wrist
Yergason's Test
Checks for: Tests for transverse humeral ligament to hold biceps tendon Procedure: patient's elbow is flexed to 90 degrees and stabilized against the thorax with the forearm pronated. The examiner resists supination and external rotation while palpating the bicipital groove Positive: biceps tendon pops out of groove or pain
Valgus Test
Checks for: UCL or MCL Procedure: pressure on lateral proximal humerus and opposing pressure at distal medial forearm Positive: laxity
Milking Maneuver
Checks for: UCL/MCL Procedure: Holding patients arm in 90 abduction, examiner grabs patients thumb and moves in painful arc Positive: laxity
Moving Valgus Test
Checks for: UCL/MCL Procedure: Holding patients arm in 90 abduction, move at distal forearm into elbow flexion at an arc of ER Positive: laxity
Froment's Sign
Checks for: Ulnar Nerve Palsy Procedure: Patient attempts to grasp a piece of paper between their thumb and index finger. When the examiner tries to pull away the piece of paper and terminal phalanx of the thumb flexes or patient cannot hold Positive: finger flexes up or unable to hold paper
Allen's Test
Checks for: blood flow to the hand Procedure: patient pumps hand, Examiner occludes radial and ulnar artery and lets 1 go to test that side and repeats with other Positive: no refill of 1 side
Load and Shift Test
Checks for: position of humerus in the glenoid fossa and instability Procedure: Patient sits with no back support with the hand of the test arm relaxed on the thigh. Examiner stands slightly behind the patient and stabilizes the shoulder with one hand over the clavicle and scapula. With the other hand the examiner grasps the head of the humerus with the thumb over the posterior humeral head and fingers over the anterior humeral head. Examiner runs the fingers along the anterior humerus and thumb along the posterior humerus to feel where humerus is seated relative to the glenoid. Positive Test: If the fingers dip in anteriorly, the humeral head is seated anteriorly. Humerus is then pushed anterioly or posteriorly in the glenoid to seat it properly. The examiner then pushed anteriorly or posteriorly to see the amount of translation and end feel.
Drop arm test
Checks for: rotator cuff tear Procedure: examiner abducts the arm to 90 degrees and asks the patient to slowly lower the arm to the side in the same arc of movement Positive: Patient drops arm instead of slowly lowering, indicating RC tear
Lift Off Sign
Checks for: subscapularis weakness or dysfunction Procedure: patient stands with hand behind their back, the dorsum of their hand resting on the back pocket or midlumbar area. The patient then tries to actively lift their hand away from their back Positive: abnormal/no scapular motion
Hawkins-Kennedy Test
Checks for:supraspinatus tendonitis or impingement Procedure: patient stands while examiner forward flexes the arm to 90 degrees then forcibly internally rotates the shoulder Positive Test: pain
Lumbar central stenosis S/S
Chronic dull LBP Leg pain on walking any distance (neurogenic claudication) LMN symptoms (LLTT, myotome, dermatome)
Ulnar Glide of the base of phalanx of hand
Component motion for MCP adduction (index) MCP abduction (ring and little fingers) Pt seated with forearm pronated and supported on the table PT - sitting Stabilizing hand - radial side proximal aspect of the proximal joint Manipulating hand - radial side of the distal joint surface MCP in 20 degrees of flexion force applied by manipulating hand in ulnar direction
Dorsal (posterior glide) of 1st MCP
Component motion for abduction pt - seated with forearm semi supinated and supported on table PT - standing at right angle to palm stabilizing hand - volar and dorsal side of trapezium manipulating hand - first metacarpal Movement - into palm Volar glide is opposite and for adduction
Medial (ulnar) glide of first MCP
Component motion for flexion pt - seated with arm in neutral rotation and supported on table PT - standing stabilizing hand on dorsal and volar surface of trapezium Manipulating hand - proximal surface of 1st metacarpal. Movement towards palm of hand Lateral Radial glide is opposite (movement should be 1:1)
Medial Glide of Proximal Carpal Row (Ulna glide)
Component motion for wrist abduction (radial deviation) NO SPACE BETWEEN STABILIZING AND MANIPULATING HAND
Volar Glide of proximal carpal row
Component motion for wrist extension pt - seated with forearm pronated on table or wedge PT - standing on ulna side Stabilizing hand on wrist Manipulating hand - on proximal hand dorsal side movement - volar direction force by manipulating hand
Volar Glide of Capitate and Hamate on proximal carpal row
Component motion for wrist flexion
Cephalic movement of radius
Component motion necessary for elbow flexion and wrist extension pt - standing or supine PT - standing radial side of pt and holding left humerus in approximately 20 degrees of abduction Stabilizing hand - grasps the distal humerus and posterior proximal aspect of the ulna Manipulating Hand - thenar eminence contacts pt thenar eminence. Thumb hooks pt thumb Examination movement - manipulating hand exerts a cephalic motion through hand Treatment - above is maintained with small rotary oscillatory motion of forearm and moved towards end-range (10 degrees of flexion)
Hypertrophy
Increase in bulk from the normal. Normal response to exercise (can overload joints and limit ROM)
CCFT
Cranial Cervical Flexion Testing Local neck muscles -suboccipitals -multifidus -semispinalis cervicis -longus capitus -longus colli Assesses the firing of local muscles Cuff placed at C3/4 chin nod starting 20mmHg progressing to 30mmHg in 2 mmHg intervals Hold 10s x10
Joint manipulation is defined as: A. A grade V (thrust) movement B. Passive movement to a joint that does not include thrust C. Forceful movement of a joint D. Skilled passive movement to a joint
D
Osgood Schlatters disease A. osteochondrosis of the tibial tubercle B. Requires a period of rest from activity C. May be associated with muscle tightness D. All of the above
D
The 18 steps are organized such that A. They go from least aggressive to most aggressive b. The start off with superficial touch and examination C. Systems are grouped together D. All of the above
D
What is the purpose of the concave convex rule? A. Provide clinical rationale for direction of manipulations B. Allows the therapist to use biomechanics to predict movement C. Assist with clinical examination and evaluation D. All of the above
D
Lumbar central stenosis clinical presentation
Degeneration, wear and tear, poor posture, abdominal protrusion/lordosis, tight iliopsoas, tight lumbar spine myofascia Disc protrusion, prolapse
C5 dermatome
Deltoid area, anterior aspect of entire arm to base of thumb
Your patient with foraminal stenosis with radicular symptoms in the L4 distribution. What else would you expect to find in your neruovascular exam?
DF weakness Medial lower leg decreased sensation patella reflex hypo +neural tension
What data would indicate the need to perform manipulation as a treatment?
Decreased accessory motion with an abnormal end feel or pain with accessory motion
What is in the anterior compartment of the lower leg?
Deep peroneal N Anterior tibial A and V ankle dorsiflexors
Low back pain CPR (flynn)
FABQ < 19 Lumbar hypomobile IR <35 degrees Knee (prox symptoms) Symptoms <16 days *0 to 4 = 45% success rate with spinal manipulation* *4 to 5 = 95% success rate*
LBP (Hicks) prediction of stabilization exercise success
FABQ >8 Aberrant movement Prone instability test hypermobile lumbar spring test *3/4=best success*
Lumbar spine L facet limited pattern
FB - deviation to the L BB - deviation to the R SBR - limited RL - Limited SBL - free RR - free
Lumbar L Capsular Pattern
FB deviation L SBR limited RL limited SBL free RR free
Lumbar spinal stenosis CPR (Sugioka)
FB improves (+2) BB worsens (-2) Age over 70 (+3) Standing worsens (+2) Incontinence (+1) Claudication (+1) Symptoms >6 months (+1) *Score >3 = LSS*
Lumbar Myofascial Patterns
FB limited with inability to reverse lumbar lordosis
Cervical spine L facet limited pattern
FB possible deviation to the L BB possible deviation to the R SBR - Restricted RR - *most restricted* SBL - relatively free RL - Relatively free
Cervical L Capsular pattern
FB some deviation L SBR limited RL free SBL free RR most restricted
Upper Thoracic Joints (C7/T1 to T3/4)
Facet Joints -60 degrees from transverse plane movement limited by spinous processes and rib attachments
The posterior ramps provides innervation where?
Facet joints, ligaments and muscle posterior
Lumbar Joints (T12/L2-L5/S1)
Facets -Planar/synovial -90 degrees to transverse plane -2/3 in the sagittal plane -1/3 in the frontal plane Motion -flex/ext/SB/Rot
Mid Thoracic Joints (T3/4-T12/L1)
Facets -planar synovial joints -60-90 degrees to the transverse plane -20 degree to frontal plane Motion -Rotation (gapping same side) -Sidebending (greatest movement) -flex and ext
Describe the osteokinematics and associated arthrokinematics in mid cervical forward bending
Facets are at 45 degrees facets translate up and forward (40% displacement) Lateral interbody articulations translate anteriorly Intervertebral discs bulge anteriorly, flatten posteriorly Spinal canal lengthens and narrows (constant volume)
Rotation of the lumbar spine
Facets gap on side rotating toward Facets compress on side rotation away from
FOOSH injury
Fall on and Out Stretch Hand
Describe the osteokinematics and associated arthrokinematics of the TMJ during opening
First 12 mm of opening -rotational motion of the condyle moving anteriorly and the disc moving posteriorly Greater than 12 mm of opening -ligaments tighten -anterior translation of the condyles begins Terminal phase of opening -downward and forward translation (lateral translation occurs for chewing)
CPR for traction
Fritz Cervical -peripheralization with P/A PIVM -+shoulder abduction test (decreases radicular therapy) -Age >55 -+ULTT -+cervical distraction test Positive response to traction 3/5 = 79% 4/5 = 95% Lumbar -+Nerve root signs Peripheralization of leg pain with lumbar extension -+crossed SLR (45 degrees) -LE pain that centralizes with traction
Lumbar Traction CPR
Fritz NPCC +Nerve Root signs Peripheralization of leg pain with lumbar ext + Crossed SLR (45) LE pain centralizes with traction 4/4 high likelihood
In which direction is the manipulation applied in order to improve the specific classical motion?
Glide direction
What is classical/physiological motion?
Gross, general motion that you can see at a joint
Impairments of a lumbar sprain/strain/synovitis
Guarded posture Limited ROM in all directions QL and posterior lateral muscles tight on involved side tender and increased tone over lumbar paraspinals, QL, post-lat hip muscles Decreased strength and endurance No neurological signs
What is a capsule tightness end feel?
Harsh resistance with reduced or absent creep
Examination of scoliosis (MLT and Strength)
Hip flexors and lumbar myofascia Muscles weak on convex side Weak abdominals Trunk extensors weak
S1 dermatome
Lateral and plantar aspect of foot
What is the difference between a MD dx and an PT dx?
MD = disease or pathology PT = tissue and movement impairments
TSI: Muscle Tightness Best exam step? Best Tissue reactivity
MLT MLT
What is a capsule/ligament laxity end feel?
Increased movement with out firm arrest
What are the 3 phases of healing?
Inflammatory Proliferation Remodeling
TSI: Muscle Weakness Best exam step? Best Tissue reactivity
MMT MLT
Distraction of base of phalanx of hand
Joint play pt seated with forearm supported on table PT - perpendicular to pt Stabilizing hand - grasps the proximal joint surface Manipulating hand grasps the distal joint surface Joint held in 20 degrees of flexion "looking at quality or creep movement"
Dorsal - volar sweep stretch of syndesmosis at MC heads
Joint play necessary for closing and opening hand pt - seated with elbow flexed and posterior aspect of elbow on table PT - sitting facing dorsal aspect of hand Manipulating hand - both thumbs placed on dorsal surface of the MC shafts. Other fingers are placed on the volar surface Arch is either increased or flattened
Describe the osteokinematics and associated arthrokinematics in the mid thoracic region for rotation (left)
L facets gap R facets compress rotation and sidebending occur opposite to each other
Patellar reflex
L4
Your pt has a severe lateral disc bulge affecting the L5 nerve root. What spinal level is involved?
L5/S1
Maitland's Grades of Movement
MOBILIZATION (all based on available range - goal to reach anatomical limit) Size, speed and location Grade I - Small amplitude, low velocity, beginning of range Grade II - Large amplitude, low velocity, beginning to mid range (I&II only for pain) Grade III - Large amplitude, low velocity, mid to end range Grade IV - Small amplitude, low velocity, end of range THRUST/MANIPULATION (hear pop/crunch - more damaging to tissues) Grade V - small amplitude, HIGH velocity, end of range
Forward and backward Bending single leg sidelying PIVM (pt on right side)
Located L5 (moves away with leg ext) Hand placements R: support at the ankle L: middle finger palpates interspinous spaces Pt shin is placed on R thigh pt leg is flexed or extended and movement is felt
Cervical Myofascial patterns
Lumpiness or painful bump in trapezius or paraspinals Radiating pain referred from trigger points Dizziness Nausea Disturbed sleep due to night pains *Limited SB improves with shoulder girdle support*
An unhappy triad injury consists of injury to what structures?
MCL, ACL, Medial Mensicus
Injury to what tissues at the knee will result in synovitis?
MCL, Meniscus, anteriormedial fibers of ACL
Sequaelae of forward head posture
Mid and lower cervical spine (C2-T1) is in flexion Leads to hypermobility in lower cervical spine Upper cervical (AA and OA) is in extension Leads to hypomobility in upper cervical spine Compensation Excessive thoracic kyphosis Leads to hypomobility of thoracic spine Excessive lumbar lordosis Excessive facet compression Tight anterior muscles (pectorals, scalenes, scm, etc) Weakened/lengthened posterior muscles (longus colli and capitius) Scapular stabilizers too
Types of braces for scoliosis
Milwaukee - 23-24 hours a day Boston brace - molded plastic jacket Electrical stimulation - midaxillary line of the convex side at night time
Type II mechanoreceptors
Name: Dynamic Location: joint capsule Fired by: oscillations and progressive stretch When are they fired? changes in direction and velocity (rapidly adapting)
Type II mechanoreceptors: type, location, fired by, adapt?
Name: Dynamic Location: capsule Fired By: Oscillations, Progressive-stretch When are they Fired? How do they adapt?: Change in direction and velocity/rapidly adapting
Type III mechanoreceptors
Name: Inhibitive Location: Capsule/ligament Fired by: stretch, sustained pressure, thrust When are they fired? joint pop, stretched capsule, (very slow adapting)
Type III mechanoreceptors: type, location, fired by, adapt?
Name: Inhibitive Location: Capsule Ligament Fired By: Stretch, Sustained pressure, Thrust When are they Fired? How do they adapt?: joint pop, stretched capsule, very slow adapting
Type IV mechanoreceptors
Name: Nociceptive Location: most tissues Fired by: injury or inflammation When are they fired? with damage (Non Adapting) *just respond*
Type IV mechanoreceptors: type, location, fired by, adapt?
Name: Nociceptive Location: Most Tissues Fired By: Injury/inflammation When are they Fired? How do they adapt?: With damage/Non Adapting
type I mechanoreceptors
Name: Postural Location: Joint capsule Fired by: oscillations and progressive stretch When are they fired? Constantly (slow adapting)
type I mechanoreceptors: type, location, fired by
Name: Postural Location: Capsule Fired By: oscillations, progressive-stretch When are they Fired? How do they adapt?: constantly firing, slow adapting
3 N's
Nausea Numbness Nystagmus
Can PTs make the dx of osteoarthritis and degenerative joint disease?
No
Is every disability permanent?
No
What are the contraindications to manipulation?
No absolute contraindications
spina bifida occulta
No external manifestation Least serious 10% of population Rarely associated with neurological deficit
Does time frame alone define how well the tissue is healing?
No it is general guideline
Low tissue reactivity
No pain is reported at the point of the tissue resistance (end feel)
Low Tissue Reactivity
No pain is reported at the point of the tissues resistance (end-feel). This means you were able to determine the end-feel but the patient did not report any pain.
Healthy Disc Mechanics
No real displacement of nucleus with FB or BB, only deformation BB causes anterior fibers of the annulus to become taut, and a radial bulge posteriorly
High Tissue Reactivity
Pain is reported before the tissue can be taken to its restriction, or rather, before the therapist can determine the end-feel. This is before you feel an end-feel, or resistance of the tissue, the patient complains of pain.
What neurophysiological effects do you get from manipulation?
Pain relief and decreased muscle guarding
What are the treatment categories of intervention?
Palliative Preparatory Corrective Supportive
Based on the convex concave rule, what is the component motion for the MCP joint flexion?
Palmar glide
Sulcus Sign Test
Positive Test: Increased translation of humeral head from glenoid fossa and/or sulcus below acromion process. Indication: Inferior glenohumeral joint instability.
what is a positive babinski?
Positive= toes fan out, hallux extends upwards. Negative=toes curl down, plantar flexion [gas pedal] a positive Babinski = UMN lesion (brain/SCI)
Ligamentum Flavum becomes
Posterior atlanto-occipital membrane and posterior A/A membrane
What nerve innervates the multifidus
Posterior primary ramus
What is in the posterior compartment of the lower leg?
Posterior tibial N Posterior tibial A and V Peroneal A and V Ankle plantar flexors
With forward bending which direction does the nucleus deform?
Posteriorly
High Subject Reactivity
Pt cannot carry our their functional activity as expected of them because of thei compliants
subject reactivity
Pt limitations as they may relate to work, home, leisure, etc. the pt limitations as they may relate to work home leisure, etc
MSTT Brachialis
elbow flexion
Varus stress test (elbow)
Purpose: Lateral collateral ligament sprain Method: Pt is sitting with elbow flexed between 20-30 degrees. PT places one hand on elbow and the other proximal to pt's wrist. PT applies varus force while palpating joint line. Positive Test: Increased laxity, apprehension, or pain.
Valgus stress test (elbow)
Purpose: Medial Collateral Ligament Sprain Method: Pt is sitting with elbow flexed between 20-30 degrees. PT places one hand on elbow and the other proximal to pt's wrist. PT applies valgus force while palpating joint line. Positive Test: Increased laxity, apprehension, or pain.
Lumbar Forward-Bending Passive Intervertebral motion test: Sidelying with double/bilat leg flexion
Purpose: evaluates passive forward bending motion of L5/S1 to T12/L1
Cervical traction CPR
Raney (USAPC95) +ULTTA +Shoulder abduction test Age >55 Peripheralization with Ext +cervical distraction test 4/5 = 95%
MSTT Brachioradialis
elbow flexion
Elbow ulnar distraction improves?
elbow flexion and extension
C6 myotome
elbow flexion, wrist extension
Spinal Cord Injury signs
pathological reflex gait deviations transient bilateral symptoms
Fibro adipose meniscoids
present in the AA and mid-cervical joints
C4 dermatome
Shoulder area, clavicular area, upper scapular area
Median Upper Limb Tension Test
Shoulder depression shoulder ER and abduction elbow extension forearm supination wrist and fingers extended flex head away
What is the difference between a sign and a symptom?
Sign - something you can see Symptom - something pt tells you
Red Flags
Significant trauma Weight loss History of cancer Fever IV drug use Steroid use Severe unremitting nightime pain Pain that worsens on lying down
Pre Prolapse
Signs - no frank neurological signs, signs of instability -Grade 5 or 6 PIVM Symptoms - Dull muscular ache on sitting (need to get up and move around) -occasional LBP w/radiating into buttock -Hx of self cracking Management -Stabilization - decrease load, increase endurance -Back school - educate: posture, ergonomics, work, etc -Manipulation - joint and myofascia impairments -First Aid Ed - should injury occur go into lordosis and maintain it
Immediate Injury (tear or herniation)
Signs - Hx of pre prolapse -sudden and deep pain -may refer pain to butt -very guarded motions Symptoms - "it tore, ripped, gave out" Clinical presentation - sudden unguarded motion resulting in acute but deep pain, usually from flexion and perhaps with a torque. -Neurological will be negative for first 30 minutes Management -Lordosis position for 2 weeks (3-4 preferred) -Support and reinforce behavior (corset) -Try to gain lordosis if not in it -Back school principles -Stabilization exercises - gently with spine in muscular fusion -Myofascial techniques
Acute and Sub Acute Prolapse
Signs - classic neurological signs Symptoms - fatigue and disability Management Acute (day 1-4) Try to gain lordosis Minimal bed rest as disc swells with rest Try backward bending but probably too late Medical palliative measures Education - move, dont rest too long, laxatives Sub-Acute (Day 4 and improving) Initiate movement Myofascia manipulations Corset Stabilization Avoid aggravating prolapse
Lateral Foraminal Stenosis Cervical
Signs and Symptoms Radiculopathy Neck and arm pain and parethesia Frank neurological S/S + ULTT Positive spurling Management -Joint and myofascia release -Posture -Positional distraction
lumbar laminectomy
The excision of a vertebral posterior arch in the part of the back between the thorax and pelvis. Takes pressure off nerve root
Crossed Straight Leg Raise
also known as *well leg raise* Inclinometer is placed on tibia to measure the onset or change in symptoms Examiner *raises the unaffected limb* until pain (symptoms) is produced or reaches 90 degrees Positive findings: Increase in radicular pain on affected leg *(ex. you raise the L leg because it doesn't hurt and you get pain in the R leg)* Indications: Probable posteromedial disc protrusion involving L4, L5, S1, S2 or S3 roots (most likely L5 or S1)
Coxa Vara
angle of the neck of the femur and the shaft of the femur is <125 degrees Genu Valgus
L4 myotome
ankle dorsiflexion
PIVM grade 0
ankylosis - fused/no movement No manipulation
Component motions that improve supination
anterior and posterior glide of radial head
Load and Shift Test
anterior and posterior instability
Component motions that improve pronation
anterior glide radial head posterior glide radial head
hindfoot pronation effect up the kinetic chain
tibia - IR Genu valgum Femur - add and IR
Tx:Acute stage of condition
prevent condition from worsening, decrease inflammation, PRICE principles, gentle PROM in pain free ROM to preserve ROM, 50% 1 RM exercise (31+reps without fatigue) for vascularity/pain
Hindfoot supination effect up the kinetic chain
tibia ER Genu varum Femur - abd and ER
What are the symptoms of PFS?
anterior knee pain, pain with sitting, pain with descending stairs, and gradual onset of pain dull achy pain
Centralization of pain
process of where the pain experience moves from a peripheral location to a more central location repetitive motion produces centralization of pain Mckenzie method (MDT)
Rib manipulation
assists with exhalation and free costo-verterbral articulations graded or progressive oscillation follows scapula
Cervical Myelopathy
compression of the spinal cord in the neck. S/S -Bilat UE symptoms -UMN signs (hyper reflexive, pathological reflexes) -Hypertonia -gait deviation and poor balance Management -refer -stabilize -pt education/posture -manipulate UT
Hawkins-Kennedy Test
compression of the supraspinatus tendon against the coracoacromial ligament to assess the possibility of impingement of the subacromial bursa
prone instability test
also called Segmental Instability Test ___Instruct patient to *lie prone on the table with legs off* the end and feet on the floor ___Apply pressure to the lumbar spine & ask if it provokes symptoms ___*If pain is found* proceed to the next step, if pain is not found then the test is over ___Ask patient to actively lift legs off the ground (active lumbar & hip extension) ___Apply pressure to the spine again while the legs are elevated ___Positive finding: pain decreases or disappears when pressure legs are up (muscular contraction is contributing to stability ___Indication: Lumbar instability
A/A joint make up
atlas and axis inferior articular facets of C1 (convex) on superior articular facets of C2 (convex) 50% of cervical rotation
Where do cervical nerves exit?
above the vertebrae ex. C6 nerve - C5/C6 segment
Lumbar Lateral Shift
active or reflexive avoidance of a spinal nerve root compression or irritation
Normal tone/shortened
adaptive shortening
Difference between capsular tightness and adhesion?
adhesion is tight in one direction
what causes hypomobility?
adhesion or tight capsule
Anterior and posterior glide of lunate on triquetrum improves?
all motions of the wrist
Distraction of MCP, PIP, or DIP improves?
all movements of the finger
Anterior and posterior glide of hamate on triquetrum improves?
all movements of the wrist
Anterior and posterior glide of lunate on capitate improves?
all movements of the wrist
Anterior and posterior glide of lunate on scaphoid improves?
all movements of the wrist
Distraction of proximal row of carpals on radius improves?
all movements of the wrist
Tx for degenerative tendonopathy should include which of the following? Functional Strengthening Modalities as needed Stretching Eccentric Exercise
all of the above
Prone Instability Test
also called Segmental Instability Test ___Instruct patient to *lie prone on the table with legs off* the end and feet on the floor ___Apply pressure to the lumbar spine & ask if it provokes symptoms ___*If pain is found* proceed to the next step, if pain is not found then the test is over ___Ask patient to actively lift legs off the ground (active lumbar & hip extension) ___Apply pressure to the spine again while the legs are elevated ___Positive finding: pain decreases or disappears when pressure legs are up (muscular contraction is contributing to stability ___Indication: Lumbar instability
Caudal movement of radius
component motion for elbow extension and wrist flexion pt - supine PT - standing at side of pt Stabilizing hand - distal humerus and palpating joint line Manipulating hand - distal radius (golfers grip) Movement for Exam - caudal force applied to radius Movement for tx - exam step maintained and combined with small oscillatory rotary motion and forearm is moved towards end range of extension
Anterior and posterior Glide of the radial head
component motion for elbow flexion and extension joint play for supination and pronation Anterior force through thumb Posterior force through fingers
Inferior glide of clavicle head
component motion for shoulder elevation pt supine PT at pt head Manipulating hand - thumb pad contacts the most superior/proximal surface of the clavicle Movement - inferior force applied through thumb
Posterior glide of clavicular head
component motion for shoulder retraction pt supine PT - at head of pt thumb pad contacts anterior/proximal surface of the clavicle. movement - posterior force applied through thumb
Volar glide of trapezium on proximal carpal row
component motion for wrist flexion
Posterior radial head glide improves?
component: elbow ext joint play: pronation/supination
iliolumbar ligament
connects the transverse process of L5 with the ala of the sacrum
PIVM grade 1
considerate restriction (hypomobile) Non-thrust manipulation (could tear capsule)
C2/C3 to T3/T4 backward bending
both facets glide down and back
T4/T5 to L5/S1 forward bending
both facets glide up
C2/C3 to T3/T4 forward bending
both facets glide up and forward
C6 reflex
brachioradialis
Chronic compartment syndrome
secondary to overuse (exercise induced)
Mid to lower C spine combined motion
bends and rotates in same direction when the motion occurs either in the frontal plane or horizontal plane
Lumbar spine combined motion
bends and rotates in the opposite direction when motion occurs in the frontal plane
C5/6 reflex
biceps reflex
Speed's test
bicipital tendinitis
Are the cruciate ligaments extracapsular or intraarticular?
both
T4/T5 to L5/S1 backward bending
both facets glide down
Acute Compartment syndrome
secondary to trauma
O/A Joint (C0/C1)
convex (condyles) on concave (facets of C1) Ellipsoid/condular type synovial joint Accounts for 50% of cervical flexion and extension Motions: nodding, sidebending and minimal rotation
Anterior and posterior glide of hamate on triquetrum type of movement?
component motion
Anterior and posterior glide of lunate on capitate type of motion?
component motion
Anterior and posterior glide of lunate on scaphoid type of motion?
component motion
Anterior and posterior glide of lunate on triquetrum type of motion?
component motion
Dorsal (posterior) glide of carpals on radius type of motion?
component motion
Dorsal glide of MCP, PIP, DIP type of motion?
component motion
Manipulations that occur in different row
component motion
Palmar glide of MCP, PIP, DIP type of motion?
component motion
Pisiform glides (medial/lateral/superior/inferior) type of movement?
component motion
Shoulder Inferior Glide type of motion?
component motion
Shoulder anterior glide type of motion?
component motion
Shoulder posterior glide type of motion?
component motion
Ulnar-meniscal - triquetral volar glide type of motion?
component motion
Volar (palmar/anterior) glide of carpals on radius type of motion?
component motion
Inferior glide of humeral head with scapula stabilization
component motion stabilizing hand in armpit downward force applied to distal humerus
Dorsal glide of base of phalanx of hand
component motion for MCP extension pt - seated with forearm supinated and supported on table PT - STANDING at side stabilizing hand - grasps the dorsal aspect of the proximal joint surface Manipulating hand - grasps the distal joint surface Joint held in 20 degrees of flexion posterior force applied by manipulating hand
Volar glide of base of phalanx of hand
component motion for MCP flexion pt - seated with forearm pronated and supported on table PT - standing at side stabilizing hand - grasps the dorsal aspect of the proximal joint surface Manipulating hand - grasps the distal joint surface Joint held in 20 degrees of flexion Anterior force applied by manipulating hand
Hindfoot
calcaneus and talus
Shoulder inferior glide end feel?
capsular
Shoulder anterior glide end feel?
capsular end feel
Shoulder posterior glide end feel?
capsular end feel
Elbow ulnar distraction end feel?
capuslar or ligament end feel
Phalen's test
carpal tunnel syndrome
Component motions that improve elbow extension
caudal movement of radius posterior glide of radial head
Distal Radio Ulnar wrist flexion
caudal movement radius dorsal glide volar glide
SIJ Hypermobility
cause: repetitive minor trauma, one legged standing, sex, childbirth Signs and Symptoms Dull ache on backward torsion (prolonged positioning) Reference possibly posterior leg Lowered iliac crest on standing Hypermobile symphysis pubis Positive spring test Management Support (belt) Postural instruction Hip manipulation if restricted Stabilization exercise (glutes, multifidus, abdominals) Sclerosing for pain reduction Surgical fusion
LBP and improvement with traction (Fritz)
centralization of sx with ext - shows greater improvement and no need for traction I peripheralization w/ extension movements II. + crossed SLR test
Distal radio-Ulnar wrist extension
cephalic motion of radius dorsal glide volar glide
Component motions that improve elbow flexion
cephalic movement of radius outward roll anterior glide of radial head
Indication for manipulation: sub acute neck pain and head aches
cervical manipulation and mobilization
Why is a capsular pattern considered?
characteristic of shrinking of the joint
A/A joint mechanics for SBL
clinical insignificant
O/A joint mechanics for for RotL
clinically insignificant motion
How would you treat a lateral shift?
correct lateral shift extension program Stabilize posture education
Elbow flexion test
cubital tunnel syndrome. Passive elbow flexion held for 3 mins + if symptoms recreated
Lumbar rotation using progressive oscillations
done on TP's pressure on one side improves rotation in opposite direction (R side pressure = L rotation)
Distal radio ulnar pronation
dorsal glide volar glide
Distal radio ulnar supination
dorsal glide volar glide
MidCarpo WRist abduction
dorsal glide volar glide
MidCarpo wrist adduction
dorsal glide volar glide
PIP/DIP component motions
dorsal glide volar glide
Component motions of the MCP joint
dorsal glide volar glide radial glide ulnar glide dorsal tilt with flexion beyond approximately 65 degrees
Pronation consists of:
dorsiflexion eversion ER
L5 dermatome
dorsum of foot
Describe the osteokinematics and associated arthrokinematics in the lumbar spine for backward bending
downslide of both facets
What are possible end feels for accessory motion following immobilization?
tight capsule, effusion, bony block
Hypomobility causes of PFS
tight lateral retinaculum, tight ITB and tight quads
Describe the osteokinematics and associated arthrokinematics in the mid thoracic region for backward bending
downslide of facets on both sides
Developmental dysplasia of hip
due to repetitive dislocation F> M Birth to infancy
What are possible end feels for classical motion following immobilization?
tight muscle, tight capsule, edema, bony block
a pt will shift towards leg pain if it is caused by
disc bulge is medial to the nerve root
a pt will shift away from leg pain if it is caused by
disc bulge that is lateral to nerve root
Chronic Disc Disease
discogenic back pain: no great solutions. life style education, stabilization, posn distraction if neuro signs, fitness training, counseling
Posterior Fx dislocation
dashboard injury occurs in loose packed Medical emergency Complications -AVN -Sciatic N -Post DJD
hypoalgesia
decreased pain sensation
DDD
degenerative disc disease. Will narrow the central canal and intervertebral foramen
DJD
degenerative joint disease
What does excessive and repititive shoulder impingement lead to?
degenerative tendonopathy of rotator cuff musculature and potentially rotator cuff tears
Radial Upper Limb Tension Test
depress shoulder 10 degrees abduction elbow extension internally rotate shoulder pronate forearm flex wrist and fingers flex head away
Volar (palmar/anterior) glide of carpals on radius loose packed position?
determine 10 degrees flex neutral 10 degrees ext
Craig's Test
determines amount of anteversion or retorversion 15-18 anteversion 5-8 retroversion Normal 8-15 degrees
5 D's
diplopia, dizziness, drop attacks, dysarthria, and dysphagia
Neer Test
impingment test of subscalpular n/supraspinatus
Mid-Thoracic Tilt on Spinous process
improves forward bending and backward bending (costo-vertebral restrictions) Pressure is applied to spinous process with hand (distal to pisiform) Graded or progressive oscillations
Clinical signs of instability during HX
inability to stay in one posture for a prolonged period of time pain relieved with rest and change of position
spina bifida meningocele
incomplete fusion with neural tissue/meninges protruding
Clinical signs of instability during structural assessment
increase muscle tone with standing presence of a step indicates spondylolisthesis *disappearance of muscle tone and step during prone lying*
hyperalgesia
increased sensitivity to pain
Upper Thoracic rotation in prone
increasing movement here will cause: -decreased stress on cervical spine -gate cervical discomfort -enable improved posture -reduce associated swelling pt head turned towards direction to be manipulated ex R rotation - pt head to R. PT R hand higher than L Stretch
Upper thoracic rotation prone
increasing movement here will cause: -decreased stress on cervical spine -gate cervical discomfort -enable improved posture -reduce associated swelling pt head turned towards direction to be manipulated ex R rotation - pt head to R. PT R hand higher than L Stretch
Lateral glide of the talus improves
inversion and supination (frontal plane)
Medial arc glide of the calcaneus improves
inversion and supination (frontal plane)
Distraction of MCP, PIP, or DIP type of motion?
joint play
Distraction of proximal row of carpals on radius type of motion?
joint play
Elbow ulnar distraction type of motion?
joint play
Distraction of Proximal Carpal Row
joint play pt - seated with forearm in pronation and supported on the table. CAN USE WEDGE DETERMINE CLOSED PACKED PT - seated on radial side of forearm Stabilizing hand - grasps distal radius and ulna Manipulating hand - web space contacts the dorsal surface of proximal carpal bones. Thumb wraps around to scaphoid other fingers contact triquetrium Movement - manipulating hand pulls away
Ulno-menisco-triquetral (volar glide of ulna)
joint play for supination pt - seated with elbow flexed and in a neutral position. Elbow on table PT- sitting and facing ulna side Stabilizing hand - hand grasps the radial side of the hand, wrist, and distal radius Manipulating hand - thumb placed on distal dorsal ulna. PIP flexed and contacts pisiform to stabilize Movement: thumb exerts a volar glide on ulna while PIP stabilizes pisiform and other hand stabilizes radial side
Posterior-superior and anterior - inferior glide of clavicle on the acromion
joint play motion for all shoulder movements pt - supine PT standing facing pt Stabilizing hand - anterior surface of the humerus while palpating the AC joint line Manipulating Hand - index finger contact the posterior/lateral surface of clavicle. Thumb contacts the anterior/lateral surface of clavicle Force is directed either through thumb or index finger
Modified relocation
labral pathology or anterior instability
What are absolute contraindications of manipulation?
lack of indications poor integrity of ligmamentous or bony structures from recent injury or disease process Unstable fractures bone tumors infectious disease osteomyelitis upper cervical instability cervical arterial dysfunction (CAD) vascular: aortic aneurism multilevel nerve root pathology worsening neurological function unremitting, severe, non mechanical pain unremitting night pain UMNL Spinal cord damage
C7 Dermatome
lateral arm and forearm to index, long, and ring fingers
Cozen's Test
lateral epicondylitis
Passive Tennis Elbow Test
lateral epicondylitis
S1 dermatome
lateral foot
Pisiform glides (medial/lateral/superior/inferior) improves?
lateral glide-stretches retinaculum
standing: PSIS and GT unequal seated: PSIS and GT Equal what is the cause?
leg length structural or functional
Where can the median nerve be entrapped?
lig of struthers bicpital aponerurosis pronator teres carpal tunnel
Anterior and posterior glide of hamate on triquetrum end feel?
ligament end feel
Anterior and posterior glide of lunate on capitate end feel?
ligament end feel
Anterior and posterior glide of lunate on scaphoid end feel?
ligament end feel
Anterior and posterior glide of lunate on triquetrum end feel?
ligament end feel
Distraction of MCP, PIP, or DIP end feel?
ligament end feel
Distraction of proximal row of carpals on radius end feel?
ligament end feel
Dorsal (posterior) glide of carpals on radius end feel?
ligament end feel
Dorsal glide of MCP, PIP, DIP end feel?
ligament end feel
Pisiform glides (medial/lateral/superior/inferior) end feel?
ligament end feel
Posterior radial head glide end feel?
ligament end feel
Ulnar-meniscal - triquetral volar glide end feel?
ligament end feel
Volar (palmar/anterior) glide of carpals on radius end feel?
ligament end feel
Characteristics of abnormal spinal motion
limited range unwillingness to move pain during or at end range painful arc compensatory or trick movement signs of instability
What are the effects of manipulation?
mechanical neurophysiological psychological Chemical
L3 dermatome
medial knee
T2 Dermatome
medial side of upper arm to medial elbow, pectoral and midscapular areas
What injury do plica's imitate?
mensical lesions
L2 dermatome
mid anterior thigh
What is the difference between C1 and mid-cervical vertebrae?
mid-cervical: has uncinate processes, spinous processes, and bodies C1 does not
C7 dermatome
middle finger
Mulligan
mobilization with movement
C3 dermatome
neck
C2 myotome
neck flexion
What is the best examination step to identify compartment syndrome?
neurovascular
T4 dermatome
nipple line
Finger MCP abduction
no normal (end-feel: ligamentous or muscular)
Finger MCP adduction
no normal (end-feel: ligamentous or muscular)
PIVM grade 3
normal
Lumbar instability/hypermobility
normal integrity of spinal lig's are insufficient to prevent normal Fs from producing aberrant motions; from chronic misuse, poor posture, self adjusting Signs: Hx: Inability to sit for prolonged period Pain worse later in day-- relieved by movement or rest Frequent "catches" or "twinges" Increased m. tone in standing Disappearance of m. tone, step or rotation in prone lying Juddering in FB More difficulty coming up from FB than going into Grade 5-6 on motion palpation Rad evidence of motion studies of FB & BB showing translation
Sensitization
normal pain with abnormal response
Osteochondrosis
not specific to the hip alone Children 3-10 M>F Ex: Legg-Calve Perthes - hip femoral head - most common Osgood-Schlatter's disease - knee Severs disease - foot
interverterbral disc
nucleus annulus cartilage endplate
What are the 3 components of the disc?
nucleus pulposis annulus fibrosis cartilaginous end plate
O/A joint make up
occipital condyles (convex) on superior articular facets of C1 (concave) 50% of cervical flexion occurs here only joint in the spine to follow concave convex rule
Describe the osteokinematics and associated arthrokinematics Rib depression
occurs with exhalation costovertebral joint- upglide costotransverse joint - downglide
Describe the osteokinematics and associated arthrokinematics of rib elevation
occurs with inhalation costovertebral joint -downglide Costotransverse joint - upglide
Anterior interosseous nerve entrapped at
off the median nerve and motor only pronator teres
intermittent claudication
pain in the leg muscles that occurs during exercise and is relieved by rest
Claudication
pain, tension, and weakness in a leg after walking has begun, but absence of pain at rest
S/S of TMD
pain/tenderness in face, jaw, joint area, neck, shoulders, in and around the ear problems with opening Stuck or locked jaw clicking, popping, grating sounds with movement trouble chewing facial pain, chronic ear aches
Bishop's deformity
patient holds their hand with the 4th and 5th digits flexed due to loss of the ulnar nerve and medial two lumbricals that assist with PIP extension - patient is unable to extend digits fully
Slump Tension Special Test
patient seated at the end of examining table patient slumps back to flex thoracic/lumbar spine examiner maintains head in neutral position and applies overpressure to the cervical spine to maintain flexion with the other hand the examiner holds patient's foot in dorsiflexion patient is asked to extend knee as far as possible POSITIVE TEST: unable to fully extend knee
PA glide spring test (PIVM)
peace sign over TP other hand is placed over the two fingers and a downward force is applied feeling for PA movement
Medial Tibial Stress syndrome
periosteitis at attachment of posterior tibialis and medial attachment of soleus
Mid-Cervical Joints C2/3-C7/T1
planar joint 45 degrees from transverse plane move up and forward in sagittal plane
S1 myotome
plantarflexion
At the AA joint with backward bending what direction does atlas move?
posterior on both sides
multifidus innervation
posterior rami of spinal nerves
PA glide supine
precautions: osteoporosis and shoulder strain
Tx: Subacute stage of condition
progress to AAROM as tolerated and then to AROM as tolerated to preserve ROM and stress the tendon more; manipulations as needed to address any joint restrictions (if present); gentle PRE may begin to allow for strength progressions at the end of subacute, 60% (25-30 reps) 1 RM for coordination; eccentrics for tendon healing
Treatment Triangle Manipulation
progressive oscillations
If the knee is in genu valgus in what position are the hindfoot and ankle joint?
pronation
Distraction of scapula
prone or sidelying joint play for all shoulder movements
What are the effects of manipulation?
psychological mechanical neurophysiological chemical
Moving Valgus Stress Test
pt arm is abducted to 90 and elbow fully flexed. PT maintain valgus force and quickly extend pt's elbow. (+) reproduction of pain between 120-70 of flexion (partial tear of MCL
Low subject reactivity
pt can carry out functional activities without issues possible post activity pain
Moderate subject reactivity
pt can carry out functional activity but complaints during activity
Side bending - prone lying abducting the leg
pt is prone located L5 pt knee flexed to 90(if they can) Examiner reaches around flexed knee and lifts it off table slightly upper hand is placed near the side of the interspinous space spinous processes should move into hand as leg is abducted
Rotation - prone lying raising pelvis
pt lying prone upper hand is placed on the spinous processes lower hand grasps the opposite side ASIS and raises it off the table caudal SP is graded relative tot he cephalid process
Rotation - prone lying rolling the legs
pt lying prone with knees bent to 90 upper hand palpates with thumb between spinous processes lower hand grasps the ankles and rotates either left or right *rule of the leg = rotation occurs in the direction of leg roll*
Rotation prone lying - impulse over transverse processes (treatment triangle)
pt lying prone with support upper hand (thumb to bum) downward force is applied to the TP that you are testing (spring) Typically start at L2 opposite side L2-L4 same side L5 rotation occurs to the opposite side of the force
Palmar glide of MCP, PIP, DIP procedure?
pt position: seated with proximal phalanx on wedge- hand in pronation Stabilizing hand: grasps proximal phalanx of joint Manipulating hand: grasps distal phalanx of joint and pushes down /palmarly
Dorsal glide of MCP, PIP, DIP procedure?
pt position: seated with proximal phalanx on wedge-hand in supination stabilizing hand: grasps proximal phalanx of joint manipulating hand: grasps distal phalanx of joint and pushes down/dorsally
Rib PIVM spring test
pt prone examiner at the top of the table done in time with breathing (if time allows) downward force is applied with medial palm follows scapula
Spring Test mid thoracic (PIVM)
pt prone with pillow support upper hand (thumb to bum) force is generated downward on the spinous process (tilting)
Babinski Reflex
pt relaxed seated or supine coarsly run end of reflex hammer up the lateral aspect of foot from heel curve across metatarsal heads from 5th digit to hallux normal: toe flexion abnormal: splaying of toes with hallux flexion
Babinski reflex
pt relaxed seated or supine coarsly run end of reflex hammer up the lateral aspect of foot from heel curve across metatarsal heads from 5th digit to hallux normal: toe flexion abnormal: splaying of toes with hallux flexion
Inverse Supinator Sign
pt relaxed w forearm supported in neutral perform brachioradialis reflex test observe for abnormal *inverted supinator and digit flexion (repetitive) UMN involvement
Inverse supinator sign
pt relaxed w forearm supported in neutral perform brachioradialis reflex test observe for abnormal *inverted supinator and digit flexion (repetitive) UMN involvement
Tinel's sign (elbow)
pt seated, place elbow in a position where examiner can percuss the cubital tunnel (+) reproduction or aggravation of parasthesia down the arm = ulnar nerve neuritis
Side bending - side lying -rocking the pelvis
pt sidelying locate L5 lower hand is placed on the greater trochanter upper hand is placed near the spinous processes force is generated upwards with the lower hand causing pelvis movement and side bending of the spine
Cervical side bending
pt supine tests downslide of the facets in the cervical spine pt head is cradled in examiners hands in slight flexion force is in the direction of the pts opposite arm pit
Shoulder anterior glide procedure?
pt supine with wedge under scapula Cris-cross method Stabilizing hand: outside arm on coracoid/clavicle, elbow bent and underneath Manipulating hand: inside arm grasp proximal humerus and exert medial/anterior force, arm on top of stabilizing arm with elbow bent
C1 dermatome
top of head
PA glide of Mid-Thoracic (manipulation) prone
restores forward bending TP's level below spinous process between fingers (T6 Tp's/T5 SP) graded or progressive oscillation
PA glide mid thoracic
restores forward bending graded or progressive oscillation TPs level below ex. T6 TPS/T5 SP
Mid Thoracic Rotation manipulation
restores rotation graded or progressive oscillation rule of lower finger - rotation in direction of lower finger
Mid-Thoracic Rotation via TP's
restores rotation rule of lower finger peace sign Graded or progressive oscillation
winging scapula can be a disguise for
reverse thoracic curve
clonus reflex
rhythmic muscle contraction and relaxation during stretch reflex
T11 dermatome
right above groin line
T9 dermatome
right above the belly button
C2/C3 to T3/T4 SB L
right glides up and forward Left glides down and back
Describe the osteokinematics and associated arthrokinematics in upper thoracic SBL
right glides up and forward left glides down and back
Describe the osteokinematics and associated arthrokinematics in mid cervical rotation (left)
right glides up and forward left glides down and back SB to same side occurs in mid cervical
Describe the osteokinematics and associated arthrokinematics in mid cervical functional side bending
right glides up and forward left glides down and back rotation occurs to the same side in mid cervical
Describe the osteokinematics and associated arthrokinematics in mid cervical non-functional side bending (left)
right glides up and forward left glides down and back rotation occurs to the same side in mid cervical upper cervical rotation is to the opposite side
Describe the osteokinematics and associated arthrokinematics in the sacroiliac joint during nutation/counter-nutation
rotary moment of sacrum on the ilium
Describe the osteokinematics and associated arthrokinematics in the sacroiliac joint during rotation/torsion
rotary moment of the ilium on the sacrum
How does atlas move on axis when the head rotates to the right?
rotates to the right
Rotation rules for lumbar and thoracic spine
rotation and SB occur to the opposite side
Cervical Spine rotation rule
rotation and SB occur to the same side
Describe the osteokinematics and associated arthrokinematics mid thoracic region for side bending (non functional left)
rotation is to the opposite side due to ribs and lordosis left side downslide Right facet upslide
Describe the osteokinematics and associated arthrokinematics in the lumbar spine for Side bending (functional Left)
rotation occurs to the same side (ex picking up a penny in front of you) right facet up glide left facet down glide
Rule of the lower finger
rotation occurs towards lower finger
Subcranial spine rotation rule
rotation produces SB to the opposite side
Subcranial rotation rule
rotation produces side bending to the opposite side
Lumbar and thoracic non functional sidebending
rotation to the opposite side due to crowding of the ribs and the lordosis (T6-S3 lordosis increase)
Describe the osteokinematics and associated arthrokinematics in the mid thoracic region for side bending (functional left)
rotation to the same side left side downslide right facet upglide
Atlas moves in what direction in comparison to the occiput?
same direction
Sidebending rules for subcranial spine
same side rotation for functional non Functional - opposite side (to keep eyes level)
scaphoid compression test
scaphoid fracture
Progressive oscillation
slack is taken up and then a series of short and sharp impulses are delivered at ever increasing depths with the goal of using the oscillations to "gate" any discomfort while the fourth and final impulse being up against the end of range will increase range
How does atlas move on axis when the head rolls backward
slides backward
How does atlas move on axis when the head rolls forward?
slides forward
How does atlas move on axis when the head bends right
slides right
Distraction of MCP, PIP, or DIP loose packed position?
slight flexion
Dorsal glide of MCP, PIP, DIP loose packed position?
slight flexion
Palmar glide of MCP, PIP, DIP loose packed position?
slight flexion
PIVM grade 4
slight increase in movement (hypermobile) could be normal depending on pt possibly stabilize
Maitland Grade I
small amplitude movement at the beginning of the range first 10% of the range
Characteristics of normal spinal motion?
smooth motion regardless of speed adequate relation of antagonists range is full according to body type pain free muscles are of normal strength PROM > AROM
Paris
spinal manipulation progressive osscilation
Hippocrates
spinal traction
Shoulder inferior glide procedure?
stabilizing hand: inside arm stabilizing arm with pillowcase Manipulating hand: grasp humerus above elbow and pulls inferior in scapular plane
Lumbar Roll Manipulation
stretch or thrust PIVM performed to locate restricted movement pt upper body is rotated away lower body is rotated towards
Lumbar Sidebending prone abducting the leg manipulation
stretch/progressive oscillation less likely to injure the disc
Internal rotation lag sign
subscapularis tear . Pt unable to keep hand off lower back
Spasm
sudden, involuntary muscle contraction indicates impairment nothing more
What is in the lateral compartment of the lower leg?
superficial peroneal n Peroneal M
Ulnar-meniscal - triquetral volar glide improves?
supination
First rib manipulation
supine pressure downward on 1st rib used for thoracic outlet or respiratory problems pt instructed on breathing and PT holds hand in position
Common injuries that affect the median nerve
supracondylar humerus fracture Pronator teres syndrome tight casts/forearm fx wrist laceration
T12 dermatome
suprapubic region
Hoffman's sign
tapping/downward flicking distal phalanx of long or ringer finger elicits flexion of the distal thumb; associated with corticospinal tract lesions
Midfoot
tarsal bones
What does the PLL become from C2 to occiput?
tectorial membrane
Upper thoracic rotation PIVM
tests rotation of C7/T1 to T3/T4
Gate Control Theory
the theory that the spinal cord contains a neurological "gate" that blocks pain signals or allows them to pass on to the brain. The "gate" is opened by the activity of pain signals traveling up small nerve fibers and is closed by activity in larger fibers or by information coming from the brain.
Indication for manipulation: Chronic neck pain and movement coordination impairments
thoracic and cervical mobilization
Indication for manipulation: Acute neck pain and movement coordination impairments
thoracic and cervical mobilization and manipulation
Neurovascular claudication
throbbing, pulsing, pounding pain caused by insufficient blood flow artherosclerosis
C6 dermatome
thumb
C8 myotome
thumb extension
Lumbar sidebending - sidelying
used for upslide stretch Thumb is used to block vert above the segment being treated (L3/4 segment = block of L3) Stretch or progressive oscillations
1st rib manipulation
used for: thoracic outlet and respiratory problems graded or progressive oscillation
SI backward torsion
used to correct a displacement
Proximal Row movements
volar - extension dorsal - flexion
MidCarpo Wrist flexion
volar glide
Ulno-menisco-triquetral supination
volar glide of ulna
1. What are the nerve roots for the radial nerve? 2. What muscles are innervated by the radial nerve? 3. What is the sensory distribution of the radial nerve?
woof
Volar (palmar/anterior) glide of carpals on radius improves?
wrist extension
Pisiform glides (medial/lateral/superior/inferior) loose packed?
wrist flexed, ulnar deviation to put flexor carpi ulnaris on slack
Dorsal (posterior) glide of carpals on radius improves
wrist flexion
T7 dermatome
xiphoid process
What are some complications to elbow dislocations?
• Capsular damage • Injury to brachialis muscle • Damage to the collateral ligaments • Median nerve injury • Brachial artery damage • Fractures • Myositis ossificans • Post traumatic DJD • Tight muscles/capsule
Chemical effects of manipulation?
• Release of endorphins following multiple level thrust manipulations o these act as pain killers o the muscle reflexively relax from Type III mechanorecptor or GTO response o this approach is more representative of traditional chiropractic
Mechanical effects of manipulation
• Restore normal joint play • Stretch tight capsules • Stretch adhesions • Rupture adhesions • Alter relative positions of articular surfaces