Savarese (for OPP shelf) 2017

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introduced counterstrain tenderpoints

Jones

lateral collateral lig

O: femur I: fibula

medial collateral lig

O: femur I: tibia also articulates with medial meniscus

quadratus lumborum

O: iliac crest & iliolumbar lig I: TP of L1-4 & R12 A: SB the trunk, inspiration

Piriformis

O: inf ant aspect of sacrum I: greater trochanter of femur A: ext rotates, extends thigh & abducts thigh with hip flexed N: S1&2 roots Approx 11% pop have sciatic nerve running through the belly--> hypertonicity cause but pain radiating down thigh (but not usually below knee)

coccygeous

O: ischial spine I: coccyx & sacrum

adductor magnus

O: ischiopubic ramus and ischial tuberosity I: linea aspera of the femur; the ischiocondylar part inserts on the adductor tubercle of the femur A:adducts, flexes, and medially rotates the femur; extends the femur (ischiocondylar part)

vastus lateralis

O: lateral intermuscular septum, lateral lip of the linea aspera and the gluteal tuberosity I: patella and medial patellar retinaculum A: primary extensor of the knee

Lower GI SNS level

T12-L2 via least splanchnic n & inf mes gang After splenic flex (distal 1/3 transverse colon, desc & sig colon, rectum)

level of spine at sternal notch

T2

Resp System SNS level

T2-7

arms SNS level

T2-8

level of spine of scapula

T3

dermatome at nipple

T4 dermatome

level of spine at sternal angle

T4, R2

UpperGI SNS level

T5-9 via greater splanchnic n & celiac gang Anything b4 lig of treitz (stomach, liver, GB, spleen, pt of pancreas & duo)

Entire GI SNS level

T5-L2

facilitation from som dys causes

TART in offending unit & surrounding structures via interneuron release of bradykinins, serotonin, histamines, potassium, prostaglandins, substance P, and leukotrienes--> TART via local vasoD & tisssue text change, muscle spasm--> asymetry

Wright's test

TOS -pectoralis minor muscle at coracoid process -hyperabducting the arm above the head with some extension -positive with a severely decreased or absent radial pulse.

treatmetn for lymph congest

Thoracic Inlet Release- Improve lymphatic return in left and right lymphatic ducts

types of compression causing TOS

cervicle rib excessive tension of the andt or middle scalenes somatic dys of clavicle or upper ribs abn insertion of pectoralis minor

treatment for Psoas syndrome

acute: ice counterstrain followed by ME or HVLA to lumbar dys dont use heat initially, stretching acute psoas spasm may cause spasm chronic: stretch

cubitis varus

adduction of the ulna id som dys present carry angle <3

scalenes

ant: O=post tubercle of TP of cer vert; I= R1 mid: O=post tubercle of TP of cer vert; I= R1 post: O=post tubercle of TP of cer vert; I= R2 SB neck to same side individually & flex Aid in resp TP= post to cloavicle at base of neck

compartment most often to get compartment syndrome

anterior

minor motions of the ankle

anterior glide of the talus (with plantar flexion) and posterior glide of the talus (with dorsiflexion)

most common injured lig in foot

anterior talofibular lig (ATF= Always Tears FIrst)

Sensation for L3

anterior thigh just above knee

Sensation for L1

anterior thigh just below inguinal ligament

contraindications for celiac gang, sup mes, inf mes releases

aortic aneurysm

treatment of mild scoliosis

conservative management: PT, Konstancin exercises (series of exercises proven to improve pt with postural decompensation), OMT (not intended to completely straighten) improve flexibility & strengthen trunk & abs

treatment of cauda equina syndrome

emergent surg decompression of cauda equina imprrative; otherwise irreversibel paralysis may result

CN X PNS

heart bronchial tree lower 2/3 eso stomach sm intestine liver GB pancreas asc & trans colon (1st 1/2 colon) ovary & testes kidney & up ureter

acute low back pain that has electric type pain that shoots down leg, after trauma

herniation

spina bifida meningomyelocele

herniation fo meninges +nerve roots--> neuro defects

spina bifida meningocele

herniation meninges

key rib in exhale dys

highest one in group

R2

large tuberosity on shaft for serratus ant

Sensation for C5

lateral aspect of elbow

Navicular som dys of transverse arch

lateral edge will glide toward the plantar surface

Sensation for C6

lateral forearm and thumb

Sensation for S1

lateral malleolus

L UE lymph drains into

left (main) duct

R sulcus deeper L ILA post & slightly inf Lumbar curve convex to R pos seated flex on R spring of R base present spring of L ILA restricted spring at poles of L oblique restricted neg lumbosacral spring test L5 SB L Rot R

left on left

forward sacral torsion

left on left right on right

L sulcus shallow R ILA ant and slightly sup Lumbar curve convex to L pos seated flex test on L sspring at the L base restricted spring at R ILA is present spring at poles of R oblique axis is restricted pos lumbosacral spring test' pos backward bending test L5 flex/ext, SB R Rot R

left on right

eccentric contraction

lengthen of muscle duing conraction due to ext force

motion of brain & cord on expiration of prm

lengthens & thins

Klumpke's pasly

less common brachial plex injury, injury to C8-T1 paralysis occurs in the intrinsic muscles of the hand

treatment from herniated nucleus pulposus

less than 5% surgical candidates most treated conservatively--> bed rest for no more than 2 days, indirect techniques followed by gentle direct tech HVLA contra

C2-7 motion

like T2 50% of flex/ext, & rot C2-4 more rot C5-7 more SB

sick pts frequenct of omt

limit OMT to few key areas

peroneal nerve

motor: short head of biceps femoris, evertors and dorsiflexors of the foot, and most extensors of the toes sensory: lower leg and dorsum of foot

posterior innominate rot dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

superior innominate shear dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

superior pubic shear dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

ant innominate rot dynamic findings

pos standing flex ipsi post innominate rot restricted ipsi ASIS restricted to compression ipsi

spencer technique

test individual moritons of shoulder

typical rib landmarks

tubercle (articulate w TP) head (art w vert at level & above) neck angle shaft

ASIS sup ipsi PSIS inf ipsi short leg ipsi )or compensation for anatomic long leg) pos standing flex ipsi ASIS restricted to compression ipsi

posterior innominate rot

acquired scoliosis

tumor, infection, osteomalacia, sciatic irritability, psoas synd, short leg synd

middle transverse axis of sacrum

postural motion

Joint Mobilization using muscle force

restores normal range of motion of joint using muscle contraction. (contracting the hip flexors helps pull the innominate anterior in a posterior innominate dysfunction)

an radial head findings

restricted pronation of the forearm restricted post glide of radial head

post radial head findings

restricted supination of forearm restricted ant glide of radial head

torticollis

restriction due to SCM

2nd most common somatic dys of shoulder

restriction in abduction

least common som dys of shoulder

restriction in extension

most common somatic dys of shoulder

restriction in int & ext rot

pathogenesis of lateral epicondylitis

result of overuse of forearm extensors & supinatrs (tennis & turning screwdriver)

scapulothoracic joint

scapula--ribcage

Apley's Scratch

screen exam for gross ROM of shoulder

relative contraindications for cranial

seizure history or dysonia traumatic brain injury

Primary knee flexors

semimembranosus & semitendinosus

symptoms of compartment syndrome

severe unrelenting pain after and during exercise anterior tibialis muscle is hard and tender to palpation, pulses are present and stretching the muscle causes extreme pain

motion of brain & cord on inspiration os prm

shortens & thickens

Acute cases frequency of omt

shorter interval btwn, as they respond, interval inc

inc pain when stand/walk, pos thomas test, tender poind med to ASIS, ***T2 dys of L1/2***, pos pelvic shift test to the contra side, sacral dys on oblique axis, contralateral piriformis spasm

sign & symp for Psoas syndrome

weakness & dec reflexes associated with affected nerve root sensory deficit over corresponding dermatome pos straight leg raise test

signs & symp from herniated nucleus pulposus

saddle anesthesi, dec deep tendon reflexes, dec rectal sphincter tone, loss of bowel & bladder control

signs & symp of cauda equina syndrome

inc pain with extension-based activities tight hamstrings b/l stiffed-legged, short-stride, waddling type gait no neuro deficits pos vert step off sign

signs/symp of Spondylolisthesis

(back strain/sprain) inc pain with activity or prolonged standing/sitting, inc muscle tension

signs/symp of som dys lumbosacral spine

worsened in ext (standing/walking/lying supine)

signs/symps of spinal stenosis

ape hand

similar to claw hand but also has wasting of the thenar eminence and the thumb is adducted results from median nerve damage

Guyon's canal contents

ulnar nerve

floating ribs

unattached to sternum via cartilage of the rib superior

R sulcus shallow R ILA dignificantly sup R ILA slightly ant pos seated flex on R spring at R sulcus restricted spring at R ILA present pos lumbosacral spring pos backward bending test

unilateral sacral extension on the L

L sulcus shallow L ILA dignificantly sup L ILA slightly ant pos seated flex on L spring at L sulcus restricted spring at L ILA present pos lumbosacral spring pos backward bending test

unilateral sacral extension on the R

R sulcus deeper R ILA significantly inferior R ILA slightlt post pos seated flex test on R spring at R sulcus present spring at R ILA restricted

unilateral sacral flexion on the left

L sulcus deeper L ILA significantly inferior L ILA slightlt post pos seated flex test on L spring at L sulcus present spring at L ILA restricted

unilateral sacral flexion on the right

Oculocephalogyric reflex

uses extraocular muscle contraction to reflexively affect the cervical and truncal musculature

fibular anterior glide

with protonation (dorsiflex, eversion, & abduction) causes the talus to push the distal fibula postly and reciprocally the prox fibula will mve antly

fibular posterior glide

with supination (plantarflex, inversion, adduction) causes anterior talofibular lig to pull the distal fibula antly--> prox move postly

inhalation dys

wont move caudad during exhalation

exhalation dys

wont move vephalad on inhalation

signs/symps of spinal stenosis

worsened in ext (standing/walking/lying supine)

Motor for C6

wrist extensors

Developmental dislocation of the hip

encompasses the severity spectrum from mild acetabular dysplasia to frank dislocation. Hip X-ray would have demonstrated a shallow acetabulum with a completely or partially subluxed femoral head

CN VIII

exits: Int'l acoustic meatus Som Dys: Sphenoid, temporal, occiput Symp: ***Tinnitus, vertigo or hearing loss***

CN IX

exits: Jugular foramen Som Dys: temporal, occiput

CN X

exits: Jugular foramen Som Dys: temporal, occiput, ***OA, AA, C2*** Symp: Headaches, arrhyth- mias, Gl upset, respira- tory problems

CN II

exits: Optic canal Som Dys: Sphenoid, occiput Symp: Visual changes

CN XI

exits: Spinal division (C1-C6) enters foramen mag- num joins with the cra- nial division and exits the jugular foramen Som Dys: temporal, occiput Symp: Tenderness in the SCM or trapezius

CN IV

exits: Superior orbital fissure Som Dys: Sphenoid, temporal Symp: Diplopia

CN VI

exits: Superior orbital fissure Som Dys: Sphenoid, temporal Symp: Diplopia, esotropia

CN III

exits: Superior orbital fissure Som Dys: Sphenoid, temporal Symp: Diplopia, ptosis or accomodation problems

Boutonniere deformity

extension contracture of MCP & DIP flexion contracture of the PIP results from rupture of the hood of the extensor tendon at the pip often assoc with RA

Claw hand

extension of MCP flexion of PIP & DIP results from median and ulnar injury (loss of intrinsic muscles and overactivity of the extensor muscles)

intercostals

external: course down & med internal: course up & med innermost: course up & med subcostal: attach to rib & rib 2-3 below

int rotation of hip dys

finding: hip restricted in ext rotation Et: spasm of int rotators (glut min, semimembranosis, semitendinosis, TFL, adductor mag, adductor long)

ext rotation of hip dys

finding: hip restricted in int rotation Et: piriformis or iliopsoas spasm

Motor for T1

finger abduction

claw toes

fixed flexion deformity of the proximal interphalangeal joints associated with hyperextension of the metatarsophalangeal articulations. All toes, especially the lesser toes, tend to be effected

swan-neck deformity

flex contracture of MCP & DIP extension contracture of the PIP result from contracture of teh intrinsic muscles of hand and is often assoc with RA

Dupuytren's contracture

flex contracture of MCP & PIP usually seen with contractue of last 2 digits unlike bishops, its due to contracture of the palmar fascia

6 types of SBS strains

flex/ext torsion SB & rot vertical lateral compression

functional scoliosis

flexible, can be partially or completely corrected with SB to opposite side may progress to structural

Deep intervertebral muscle treatment with FPR

for C5 E SrRr 1. pt supine w/ head beyond end of table, resting on pillow on physician's lap 2. pt in neutral, straighten the cervical lordosis by flexing the head slightly. 3. applies the facilitating force 4. place C5 in E SrRr using the head as a lever. 5. The position is held for 3 to 4 seconds. 6. release and reevaluates

bunion

hallux valgus, is a lateral deviation of the proximal phalanx of the first toe associated with soft tissue changes, pain, swelling, and inflammation at the aspect of the head of the first metatarsal, which is angled medially

C2

has dens

C2-6

have bifid spinous processes articular pillars btwn sup and inf facets, post to transverse process, palpated

Flat back posture

head forward cervical spine has slightly increased lordosis thoracic spine slightly kyphotic in upper portion then flattens in lower segments lumbar lordosis flattened hips and knees extended

Swayback posture

head forward cervical spine lordotic thoracic spine kyphotic decreased lordosis of lumbar spine posterior tilt of pelvis hip and knee joints hyper-extended

anterior glide of the hip

head of femur glide antly with ext rotation

posterior glide of the hip

head of femur glide postly with int rotation

Military posture

head tilted slightly posteriorly cervical curve and thoracic curve normal anterior cervical and posterior thoracic deviation from plumb line anterior pelvic tilt knees extended ankles plantar flexed

adrenal medulla SNS level

T10 btwn ligament of Treitz & splenic flex?

lower ureters SNS level

T12-L1 via inf mes gang after splenic flex?

prostate SNS level

T12-L2 after splenic flex

Braggard's Test

dorsiflexes the foot to stretch the sciatic nerve

protonation of ankel

dorsiflexion, eversion & abduction***

tinnitus, vertigo, hearing loss

dys of CN VIII (dys of Sphenoid, temporal, occiput)

indications for sacral inhibition

dysmenorrhea labor pain from cerv dilation constipation

motion of clavicle

each end can glide (ant/post or sup/inf--> seesaw) can rotate w/int/ext rot of arm

Motor for C7

elbow extensors

Motor for C5

elbow flexors

findings for an inhalation dys of pump handle rib

elevated antly ant part moves cephalad on insp ant narrowing of IC space above dys sup edge of post rib angle prominent tender & tissue change at costochoneal junction, chondrosternal junction, & post rib angles

findings for an inhalation dys of bucket-handle rib

elevated latly lat part (shaft) of ib moves up on insp lat narrowing of IC space above lower edge of rib shaft is prominent tender & text change at IC muscles on mid-axillary line, & post rib angles

SI joint

inferted L shaped joint with upper and lower arms converging antly at S2

isotonic contratction

"approximation" of origin & insertion, no change in tension operator force<patient force

concentric contraction

"aproximation" of origin & insertion

chapman point

"gangliform contractions" -somatic manifestation of visceral dysfunction pressure will elicit sharp, nonradiating, and exquisitely distressing pain Ant: smooth, firm, discretely palpable nodules, approximately 2-3 mm in diameter, located within the deep fascia or on the periosteum of a bone Post: between the spinous and transverse processes of vertebrae, described as rubbery

what causes facilitation

"sensitized" intemeurons will have an increased or exaggerated output to the initiating site as well as other areas (neighboring muscles, or organs via autonomic efferents)

cranial rhythmic impulse

(CRI) rhythmic impulses of CSF at 10-14 cycles/minute

reciprocal tension membrane

(RTM) any motion of the brain & csf that can move the dural membranes will thus move its attachements to the cranial bones (inelastic rope)

sphenobasilar synchondrosis

(SBS) articulation of the sphenoid with occiput

Transient synovitis of the hip

(also known as toxic synovitis) is a nonspecific, common, unilateral inflammatory arthritis involving the hip joint, which occurs in children under 10 years of age most common cause of limp with hip pain in children. The male to female ratio is 3-5:1. There maybe a history of a preceding URI. X-ray of the hip is normal treat with NSAID idopathic

treat of som dys lumbosacral spine

(back strain/sprain) counterstrain, ME, HVLA decrease restrictions in other areas that may alter structure-functionrelationship of lumbosacral spine

signs/symp of som dys lumbosacral spine

(back strain/sprain) inc pain with activity or prolonged standing/sitting, inc muscle tension

Spring ligament

(calcaneonavicular ligament) one of the plantar ligs strengthens and supports the medial longitudinal arch

common peroneal nerve

(common fibular nerve) lies directly post to the prox fibular head therefore post fibular head or fracture of the fibula may disturb the function of this nerve

inherent motion of sacrum

(craniosacral) about superior transverse axis at S2 during cranial flexion, sacrum extends/counternutates during cranial extension, sacrum flexes/nutates

inferior innominate shear

(innominate downslip, inferior innominate subluxation)

superior innominate shear etiology

(innominate upslip, superior innominate subluxation) fall on the ispilateeral but or a mis-step

Plantar aponeurosis

(plantar fascia) one of the plantar ligs Strong, dense, connective tissue that originates at the calcaneus and attaches to the phalanges. Chronic irritation to this structure may cause calcium to be laid down along the lines of stress, leading to a heel spur.

iliopsoas

(psoas major & minor) O: T12-L5 vert bodies I: lesser trochanter A: flexor of hip mintains the lumbosacral angle

ME for R forearm restriction to pronation

(radial head ant) Treatment Position: Seated 1. Support pt's R elbow L hand. 2. Place R hand at distal end of pt's R forearm & pronate to initial resistance. 3. Direct the patient to supinate the R forearm against an equal counterforce supplied through your R hand. 4. Maintain force 3-5s, then both relax. phys re-engage new barrier. Repeat 3-5 times& recheck findings.

ME for R forearm restriction to supination

(radial head posterior) Treatment Position: Seated 1. Place R hand at distal end of pt's R forearm & supinate to initial resistance as you monitor with the other thumb at the radial head. 2. Direct the patient to pronate the R forearm against equal resistance supplied through your right hand. 3. Maintain the forces long enough to sense the patient's contractile force at the localized segment or area (usually 3-5 seconds). 4. pt & phys relax & phys takes slack to the new point of initial resistance. 5. Repeat 3-5 times & recheck findings.

treat sacral som dys

(sacral inhibition) Purpose: 1) normalize hyperpara in L colon & pelvic structures 2) reduce labor pain from cervical dilation

lumbosacral spring test

(spring test) assesses whether or not the sacral base is tilted posterior -patient prone position -physician place the heel of the hand over the lumbosacral junction. -Gentle and rapid springing is applied downward onto the lumbosacral junction. -positive when there is little or no springing. --> ***indicative of the sacral base moving posterior. ***

Articulatory techniques

(springing techniques, low velocity/moderate amplitude) passive, direct engage restric barrier & use gentle repetitive forces to inc ROM add resp & ME activation to further streth

O'Donahue's triad

(terrible triad) common knee injury resulting in the injury to the ACL, MCL and medial meniscus

infraspinatus

*** O: infraspinatous fossa I: greater tubercle of the humerus (middle facet) A:ext rotate arm (one of primary ext rot of shouler N:suprascapular nerve

subscapularis

*** O: medial two-thirds of the costal surface of the scapula (subscapular fossa I: lesser tubercle of the humerus A: internal rot arm; assists extention of the arm (one of primary int rot of shoulder) N: upper and lower subscapular nerves (C5,6)

supraspinatus

*** O: supraspinatous fossa I: greater tubercle of the humerus (highest facet) A: abduct arm N: suprascapular nerve (C5,6)

teres minor

*** O: upper 2/3 of the lateral border of the scapula I: greater tubercle of the humerus (lowest facet) A:ext rotate arm (one of primary extensors & ext rot of shoulder) N:axillary nerve (C5,6)

dural attachments

*** foramen magnum, C2, C3, S2***

sacral torsion rules

***1) then L5 SB, sacral oblique engaged on the same side 2) when L5 rotated, sacrum rot opposite way on oblique axis 3) seated flexion test on opposite side of oblique axis*** torsion=twisting of 2 (rotate opposite)

Myofascial release procedure

***1. Palpate restriction 2. Apply compression (indirect) or traction (direct) 3. Add twisting or transverse forces 4. Use enhancers 5. Await release***

rotator cuff

***4 muscles of shoulder that hold head of hermerus in glenoid fossa SITS supraspinatus infraspinatus teres minor subscapularis***

contraindications for HVLA

***Absolute 1. Osteoporosis 2. Osteomyelitis (including Pott's disease) 3. Fractures in the area of thrust 4. Bone metastasis 5. Severe rheumatoid arthritis - esp cervical; RA may weaken the transverse ligament of the dens, resulting in atlantal- axial subluxation--> catastrophic neurologic damage 6. Down's Syndrome - laxity may develop in the transverse ligament Relative 1. Acute whiplash 2. Pregnancy 3. Post-surgical conditions 4. Herniated nucleus propulsus 5. Patients on anticoagulation therapy or hemophiliacs 6. Vertebral artery ischemia (positive Wallenberg's test)***

anterior L5 tenderpoint

***One cm lateral to the pubic symphysis on the superior ramus*** patient supine, knees and hips flexed and markedly rotated away

Spondylolisthesis

***ant displacement 1 vert in relation to one below often at L4/5 usually due to fatigue fractures in pars interarticularis of the vert

Hip-drop test

***assess SB ability of lumber spine & thoracolumbar junction*** -patient standing -physician locates the most superior and lateral aspect of the iliac crests -patient bend one knee without lifting the heel from the floor. -lumber spine should sidebend toward the side contralateral to the bending knee, producing a smooth convexity in the lumbar spine on the ipsilateral side. -ipsilateral iliac crest should drop more than 20-25°. -positive test is indicated by anything less than a smooth convexity in the lumbar spine, or a drop of the iliac crest of less than 20-25°, and alerts the physician to a somatic dysfunction of the lumbar or the thoracolumbar spine

Spondylolysis

***defect of pars interarticularis without ant displacement of vert body findgins similar to spondylolisthesis ***oblique X-ray ID as a "collar" on the scotty dog***

what position is ankle more stable

***dorsiflexion***

DRIP sacral motions

***dynamic resp inherent/innominate postural***

poor suckling in newborn due to

***dys CN XII from occipital condylar compression dys of CN IX & CN X at the jugular foramen***

purpose of hip-drop test

***evaluate SB of lumbar spine***

Parallelogram efect

***inc in cary angle-->ulna ab-->adduction of wrist dec in carry angle--> ulna add--> abd of wrist***

Erb-Duchenne's palsy

***most common brachial plex injury upper arm paralysis injury to C5&6 nerve roots usualy during childbirth result in paralysiss of deltoid, ext rotators, biceps, brachioradialis, supinator musles***

spondylosis

***radiographical term for degenerative changes within the intervertebral disc and ankylosing of adjacent vert bodies

SITS

***supraspinatus infraspinatus teres minor subscapularis***

Wallenberg's Test

-To test for vertebral artery insufficiency -supine -flex patient's neck -holding for ten seconds -extend the neck holding it for ten seconds. -same is done for head and neck rotation to the right and left, rotation with neck extended -positive test when the patient complains of dizziness, visual changes, lightheadedness, or eye nystagmus occurs. -there are many variations: Underberg's test= perfomed with the neck backward bent and the head fully rotated to either side--> If patient develops vascular or neurologic symptoms, HVLA is contraindicated

3 places for TOS compression

-btwn ant & mid scalenes - btwn clavicle & R1 -btwn pec minor & upper ribs

reciprocal inhibition

-contract antagonist muscle -signal to cord reflex arc--> agonist relaxes direct or indirect: -direct- extend bad muscle, contract opposite muscle--> new barrier -shorten bad muscle, contract opposite muscle

Postisometric relaxation

-engage restrictive barier -pt contract equally against the offered counterforce -Golgi senses change in tension and causes reflex relaxation of the agonist muscle fibers -passive stretch to new restrictive barrier

Spencer technique

-good for inactivity, adhesive capsulitis following injury -pt in lat recumb -stabilize scapula -can use ME at the restrictive barriers Stage I: Stretching tissues and pumping fluids with the arm extended Stage II: Glenohumeral extension/flexion with the elbow flexed Stage III: Glenohumeral flexion/extension with the elbow extended Stage IV: IVa: Circumduction and slight compression with the elbow flexed/extended. IVb: Circumduction and traction with the elbow extended. Stage V: Adduction and external rotation with the elbow flexed Stage VI: Abduction with Internal Rotation with the arm behind the back Stage VII: Stretching tissues and pumping fluids with the arm extended.

interstitial fluid pressure

-normal= 6.3 mmHg at rate of 120cc/hr -inc--> inc lymph absorb -0mmHg causes lymph caps to collapse

sign & symp of TOS

-scalenes, cerv rib, or clavicle can be tender -pulses in UE may be normal or diminished -pos adison test (scalenes) -military posture (btwn clavicle & R1) -hyperextension test (under pec minor)

articulatory procedure procedure

1. Move the affected joint to the limit of all ranges of motion. Once a restrictive barrier is reached slowly and firmly, continue to apply gentle force against it. 2. At this time you may use respiratory cooperation or muscle energy activation to further increase myofascial stretch of tight tissues. 3. Return the articulation to its neutral position. 4. Repeat the process several times. 5. Cease repetition of motion when no further response is achieved.

thoracoabdominal dia release

-used to inc pressure gradients so can inc lymph return Indirect 1. Patientseated. 2. Physician standing behind patient. 3. Pass your hands around the thoracic cage (under the patient's arms) and introduce your fingers underneath the costal margin. 4. Test for motion by gently rotating the thoracic tissues. 5. Treatment phase: With your fingers still underneath the costal margin, hold the thoracic tissues in the direction which it moves more freely. Allow the fascia to unwind, until it settles into a rhythmic vertical motion.

Grade 1 Spondylolisthesis

0-25% slip

CN V

1 exits:Superior orbital fissure Som Dys: Sphenoid, temporal Symp: Decreased sensation to the eyelid and scalp 2 exits: Foramen rotundum Som Dys: Sphenoid, temporal Symp: Tic Douloureux 3 exits: Foramen ovale Som Dys: Sphenoid Symp: Decreased sensation to the mandible

treatment for short leg syndrome

1) OMT for spine & lower extremities 2) standing postural x-ray to quantify diff in height of fem head--> heel lift if diff >5mm

how does motion of L5 influence sacral motion

1) SB L5--> sacral oblique axis engaged on same side 2) Rot of L5--> sacrum rotate to opposite side

General procedure of HVLA

1) diagnose, move to restric barrier (in as many planes as possible) 2) pt relax--take deep breath 3) thrust (w/out backing off) 4) reevaluate

treat lymph of UE

1) open thoracic inlet 2)redome thoraco-abdominal dia 3) post axiallary fold technique

Heel lift guidelines

1) should be applied to short leg side 2) the final lift height should be 1/2-3/4 the measured leg length discrepancy (unless prosthesis or hip fracture) 3) "fragile" (elderly, arthritic, osteoporotic, or acute pain) pt should begin with 1/16" heel lift & increase 1/16" evry 2 wks 4) "flexible" pt should begin with 1/8" heel lift and inc by 1/8" evry 2 wks 5) max 1/4" may be applied to inside of shoe; if more needed, apply to then needs to be applied to outside of shoe 6) max lift = 1/2"; if more needed, ipsilat ant sole lift to keep pelvis from rot to opposite side

order of lymp treatment

1) thoracic inlet 2) rib raiding or paraspinal inhibitions 3) redome diaphram 4)lymph pump

Counterstrain steps

1)find tenderpoint 2)palpate tenderpoint & compare to other side 3) place pt in optimal comfort by shortening muscle until 70% reduction in pain; while monitoring tenderpoint 4) maintain for 90s 5) slowly return to neutral 6)recheck, no more than 30% should remain

signs & symp of short leg syndrome

1)sacral base unleveling (lower on short leg side) 2) ant innominate rotation on short leg side 3) post innominate rotation on short leg side 4)lumbar spine SB away & rot toward short leg side 5) lumbosacral angle inc 2-3deg 6) 1st iliolumbar lig, then SI lig become stressed on short leg side

atypical ribs

1,2,11,12 (10)

parts of spinal reflex

1. An afferent limb (sensory input) 2. A central limb (spinal pathway) 3. An efferent limb (motor pathway) ...spinal reflex is actually part of a vast ever-changing network of neurons that is finely tuned to regulate the activity of the body.

HVLA for L3 N SlRr with TP up

1. Patient in L lat recumb (post tp up). 2. Stand in front 3. Flex patient's legs until palpate motion at L3. 4. Straighten patient's inf leg. 5. Hook sup foot in lower leg's popliteal fossa. 6. Pull patient's inferior arm out (toward you) to rotate the torso and up (cephalad) to induce right sidebending down to the dysfunctional segment 7. Place one arm in patient's axilla and the other on the patient's iliac crest. 8. deep breath in and exhale. 9. At end exhalation, apply a HVLA thrust by rotating the patient's pelvis forward and toward the table. 10. Retest the range of motion.

HVLA for L3 N SlRr with TP down

1. Patient in R lat recumb (post tp down). 2. Stand in front 3. Flex the patient's legs until you palpate motion at L3 4. Straighten patient's inf leg. 5. Hook the superior foot in the lower leg's popliteal fossa. 6. Pull patient's inferior arm out (toward you) to rotate the torso and down (caudad) to induce right sidebending down to the dysfunctional segment. 7. Place one arm in the patient's axilla and the other on the patient's iliac crest. 8. deep breath in and exhale. 9. At end exhalation, apply a HVLA thrust by rotating the patient's pelvis forward and toward the table. 10. Retest the range of motion.

Rib Raising procedure

1. Patientsupine. 2. Physician seated at the side of the patient. 3. Place your hands under the patient's thorax, contacting the rib angles with the pads of your fingers. 4. Apply gentle traction. 5. Raise the patients ribs by pushing your fingertips upwards and lowering your forearms (It is easier to push your fingers upward by using your forearm as a lever)

Diag for lymph dys

1. Supraclavicular fullness from lymph congest of head & neck. (sinusitis) 2. Post axillary fold fullness from lymph congest of arm (post-mastectomy lymphedema) 3. Epigastric fullness from organ congest of chest or abdomen. (cirrhosis) 4. Inguinal fullness from congest of LE. (infection) 5. Popliteal fullness from congest of leg (thrombophlebitis) 6. Achilles fullness from congest of ankle/foot (sprained ant talofibular lig) other dys: tense pelvic dia, restricted thoracic cage motion, paravertebras spasm-->inc lumb lordosis--> flat dia, chapmans from organ lymph dys, closed thoracic inlet, cranial base strain

HVLA using SBing thrust for C6 E SrRr

1. The patient supine and the physician at the head of the table. 2. The MCP joint of the left hand is placed at the articular pillar of C6. 3. Grasp the patient's head and flex the neck to the C6 - C7 joint. Induce a small amount of extension by applying anterior translation at C6 4. Sidebend the neck to the left until localized at the C6- C7 joint. 5. Rotate the neck to the right to limit motion of (lock) the above facets. 6. Apply a sidebending HVLA thrust by translating C6 to the right. The direction of the thrust should be directed toward the patient's opposite shoulder. 7. Re-evaluate

HVLA for AA Rr

1. The patient supine and the physician at the head of the table. 2. The palm of the physician's left hand grasps the patient's chin. 3. The index finger of the physician's right hand is placed by the soft tissue of the AA joint. The physician's right thumb contacts the patient's right zygomatic process, avoiding the right mandible. 4. The patient is asked to inhale, then exhale fully. 5. At the end of exhalation, the physician applies a left rotational high velocity, low amplitude thrust using the right index finger as a fulcrum 6. Re-evaluate

HVLA for T7 N SlRr

1. The patient supine and the physician standing on the left side of the patient (stand on the opposite side of the posterior transverse process). 2. Patient crosses arms opposite over adjacent. 3. Place the thenar eminence under the posterior transverse process of the dysfunctional segment. 4. With the other hand flex the patient's torso to the T7 -T8 joint space. 5. Sidebend the patient to the right (away from you) engaging the restrictive barrier. 6. Have the patient take a deep breath in and exhale. 7. At end exhalation, apply a HVLA thrust straight down toward your fulcrum (thenar eminence).

HVLA for T7 F SrRr

1. The patient supine and the physician standing on the left side of the patient (stand on the opposite side of the posterior transverse process). 2. The patient will cross his arm over his chest, so that the superior arm is opposite that of the physician. For simplicity this is referred to as "opposite over adjacent". 3. Place the thenar eminence under the posterior transverse process of the dysfunctional segment. 4. With the other hand flex the patient's torso to the 17 -T8 joint space. 5. Sidebend the patient to the left engaging the restrictive barrier. 6. Have the patient take a deep breath in and exhale. 7. At end exhalation, apply a HVLA thrust straight down toward your fulcrum (thenar eminence).

HVLA for T7 E SlRl

1. The patient supine and the physician standing on the right side of the patient (stand on the opposite side of the posterior transverse process). 2. Patient crosses arms across chest opposite over adjacent. 3. Place the thenar eminence under the posterior transverse process of the vertebrae below the dysfunctional segment. 4. With the other hand, flex the patient's torso to the T7 -T8 joint space. 5. Sidebend the patient to the right engaging the restrictive barrier. 6. Have the patient take a deep breath in and exhale. 7. At end exhalation, apply a HVLA thrust directed 45° cephalad toward your fulcrum (thenar eminence).

ME for C3 E RrSr

1. With the distal pad of one finger on the articular pillar of the dys segment, engage the restrictive barrier by reversing the som dys in all three planes of motion 2. Direct the patient to gently straighten his head while you apply an equal counterforce. 3. Repeat steps 4-5 in the above example.

HVLA using rotational thrust for C3 F SlRl

1. patient supine and the physician at the head of the table. 2. Grasp the patient's head and flex the neck slightly. 3. The MCP joint of the thrusting hand is placed at the articular pillar of C3. 4. Flex the head and neck down to C3 and then induce a small amount of extension by applying ant translation at C3. 5. Rotate the head and neck to the right to the restrictive barrier. Right sidebending is achieved by keeping the patient's right temple close to the table. 6. Apply a right rotatory HVLA thrust using the left MCP as a fulcrum. The direction of the thrust should be directed toward the patient's opposite eye. 8. Re-evaluate

HVLA for OA F SrRl

1. patient supine and the physician at the head of the table. 2. Grasp the patient's head and flex the neck slightly. 3. The MCP joint of the thrusting hand is placed at the base of the occiput. 4. Extend the occiput slightly, make sure that extension is limited to only the OA joint. 5. Sidebend the occiput to the left and rotate it to the right to engage the restrictive barrier. 6. Apply a HVLA thrust by translating the occiput to the right. The direction of the thrust should be directed toward the patient's opposite (right) eye. 7. Re-evaluate the range of motion.

ME treatment procedure

1. positions to engage the restrictive barrier (direct treatment) in all planes of motion. 2. instructs the patient to reverse direction 3. The patient contracts the appropriate muscle(s) 4. The physician maintains an appropriate counterforce for 3-5 seconds. 5. patient to relax and the physician also relaxes. Then during the post-isometric relaxation phase, the physician takes up the slack, allowing it to be passively lengthened. 6. Steps 1-5 are repeated for 3-5 times until the best possible increase in motion is obtained.

superficial muscle treatment with FPR

1. pt in neutral position, straighten AP curve 2. apply the facilitating force 3. shorten the muscle 4. hold for 3 to 4 seconds. 5. releases and reevaluates

width of posterior longitudinal lig at L4/5

1/2 of what it was at L1

group rib dys

2+, usually there is key rib that is causing dys in the others--> lowest rib for inhale & highest for exhale

profunda brachial a

1st major branch of brachial a accompanies radial n in its posterior course of the radial groove

Uncommon Compensatory Pattern

20% OA rot R, CT rot L, TL rot R, and LD rot L

Grade 2 Spondylolisthesis

25-50% slip

Bones of the foot

26 Talus Calcaneous Navicular Cuboid 3 Cuneiforms 5 Metatarsals 14 Phalanges

SB/Rot of SBS

3 axes: SB on 2 parallel vert axes (one through foramen mag & ther through center of sphenoid) ("SB" on a transverse plane= rotation) (looks like translation of the SBS--occiput joint) rot on AP axes through SBS (same axis as torsion...rot on a coronal plane); both ends rot together in one way; rot to the same side SBS is rotated

lumbricles

4 1&2 innervated median n 3&4 innervated ulnar n

DTR grade

4/4 Brisk with sustained clonus (up motor n injury) 3/4 Brisk with unsustained clonus (normal/ up motor injury) 2/4 Normal 1/4 Decreased but present (normal/ low motor n injury) 0/4 Absent (lower motor n injury)

Muscle strength grades

5 (normal)- Full range of motion (FROM) against gravity and resistance 4-FROM against gravity with some resistance 3- FROM against gravity with no resistance 2- FROM with gravity eliminated 1- Evidence of slight contractility 0- No evidence of contractility

sacrum

5 fused vert

epidemilogy scoliosis

5% by 15 10% of these have clinival symp male:fem = 1:4

Maverick point

5% of tenderpoints wont improve treat by positioning pt in position opposite of what would typically be used

Prevalence of Spondylolisthesis

5% population 1/2 asymp pt become symp after 20

AA motion

50% of neck rotation rot is only movement

Grade 3 Spondylolisthesis

50-75% slip

anterior rib 2 tenderpoint

6-8cm lat to sternum on rib 2 flex head, SB & Rot toward

Carpal bones

8 Scaphoid Lunate Triquetrum Pisiform Trapezium Trapezoid Capate Hamate

Common Compensatory pattern

80% OA rot L, CT rot R, TL rot L, and LD rot R

idiopathic scoliosis

80% cases fam hist

cranial blood drains into

85-95% into venous sinuses 5% into facial veins & ext jugular

when is resp fxn compromised in scoliosis

>50 deg

when is CV fxn compromised in scoliosis

>75 deg

Grade 4

>75% slip

Fryette's 1st law

Neutral, SBR, Opposite sides, group

Innominate inflares static findings

ASIS more medial ipsi--> distance btwn ASIS & umbilicus less than the contra side Ischial tuberosity more lat ipsi

posterior innominate rot static findings

ASIS sup ipsi PSIS inf ipsi short leg ipsi )or compensation for anatomic long leg)

1st cervical segment

AA

motion of shoulder

AB: 180 (120=GH, 60= scapulothoracic--> for every 3 of ab, GH moves 2 & ST moves 1)

inferior innominate shear static findings

ASIS & PSIS more inf ipsi pubic rami inf ipsi long leg ipsi

superior innominate shear static findings

ASIS & PSIS more sup ipsi pubic rami sup ipsi shorter leg ipsi

superior pubic shear static findings

ASIS appear level PSIS appear level pubic bone sup ipsi

Inferior pubic shears static findings

ASIS level PSIS level pubic bone inf ipsi

ant innominate rot static findings

ASIS more inf ipsi PSIS more sup ipsi longer leg ipsi (or comprensation for anatomically short leg)

Innominate outflare static findings

ASIS more lat ipsi--> distance btwn ASIS & umbilicus more than cont side Ischial tuberosity more med ipsi

digastric

Ant belly O: mandible I: hyoid Post belly O: mastoid (temporal bone) I: hyoid A:elevate hyoid, depress mandible

Iliacus tenderpoint

Approximately 7 cm medial to the ASIS Patient supine with the hip flexed and externally rotated

lumber facet orientation

BM backward, medial

thoracic facet orientation

BUL backward, up, lateral

Cervical facet orientation

BUM backward, up, medial

intrinsic forces that affect lymph

CM contraction interstitial fluid pressure

primary respiratory mechanism

CNS + CSF + Dural membranes + cranial bones + sacrum --> function together to control and regulate pulm respiration (secondary resp), circulation, digestion, & elimination

post neck triangle contents

CNXI, cervical plexus, trunks of brachial plexus, occipital a, phenic n, subclavian a&v, subscapular a, subclavian lns

Bracial plex made up of what cerv roots

C5-T1

brachial plex

C5-T1

moderate scoliosis

Cobb angle 20-45 deg

mild scoliosis

Cobb angle 5-15 deg

severe scoliosis

Cobb angle >50 deg resp fxn compromised

Zink

Compensatory patterns

Spurling Test

Compression test -patient seated, -extends and sidebends the C-spine to the side being tested, and pushes downward on the top of the patient's head. -positive if pain radiates into the ipsilateral arm--> distribution can help localize the affected nerve root that is being compressed (due to narrowing of neural foramina)

Chronic texture

Cool, dry, tension, flaccid, ropey, fibrotic

thoracic inlet release

Direct 1. Patient supine with arm abducted to 90°. 2. Physician seated at the side of the patient. 3. With one hand, place your fingers in the patient's supraclavicular fossa and apply traction towards the patient's wrist. 4. With the other hand, move the patient's wrist superiorly until tension develops in the supraclavicular fossa. Hold this until some relaxation is noted. 5. repead 2-3 times

gondads SNS level

T10-11 (same as kid & up ureter) btwn ligament of Treitz & splenic flex?

upper ureters SNS level

T10-11 via sup mes gang same as kid btwn ligament of Treitz & splenic flex?

Myofascial release

Counterstrain, facilitated positional release, unwinding, balanced ligamentous release, functional indirect release, direct fascial release, cranial osteopathy, and visceral manipulation

Kidneys SNS level

T10-11 via sup mes gang same as upper ureter btwn ligament of Treitz & splenic flex?

uterus & cervix SNS level

T10-L2 after ligament of Treitz & splenic flex?

techniques for chapman points

Decrease sympathetic tone, improve lymphatic return and increase myofascial motion associated with visceral dysfunction

signs & symp of patello-femoral synd

Deep knee pain, especially when climbing stairs. The physician may notice atrophy in the vastus medialis, and often the patient will have patella crepitus.

Chronic tenderness

Dull, achy, burning

legs SNS level

T11-L2

Acute texture

Edematous, erythematous, boggy, inc moisture, hypertonicity

sphenopalatine ganglion technique

Enhance para--> encourage thin watery secretions (indicated for thick nasal secretions) short intermittently manual finger pressure intraorally to the sphenopalatine ganglion

Patrick's test

FABERE Test assess pathology of the sacroiliac and hip joint, especially osteoarthritis of the hip -FABERE indicates the positioning of the hip being tested. Flexion, Abduction, External Rotation, then Extension--> hip is put into a figure-4 position -Any pain in or around the hip joint indicates general pathology of that hip joint -place one hand on the contralateral ASIS and the other hand on the knee of the testing leg. Pressure is placed downward on both points, the most important motion being the further extension of the hip. -Pain will be accentuated by any arthritic changes in the hip or sacroiliac join

Schiowitz

FPR

Fryette's 2nd law

Flex/Exend, RSB, same sides, single vert

major motion of lumbar spinw

Flex/Ext

Purpose of Lift technique

Frontal and parietal lifts are commonly used to aid in the balance of membranous tension.

indication for celiac gang, sup mes, inf mes releases

GI dys pelvic dys

0-25% slip

Grade 1 Spondylolisthesis

25-50% slip

Grade 2 Spondylolisthesis

50-75% slip

Grade 3 Spondylolisthesis

>75% slip

Grade 4

Lumbar roll

HVLA for T10-L5 Flexion, extension or neutral lesions can all be treated in the same lateral recumbent position. The physician may treat the patient with the posterior transverse up or the posterior transverse process down (LorR lat recumb) There is only one modification with the patient's position between the two treatments

Vault hold

Index finger - greater wing of the sphenoid Middle finger - temporal bone in front of the ear Ring finger - mastoid region of temporal bone Little finger - squamous portion of the occiput

Facilitated Positional Release D/I, A/

Indirect, Passive

technique for lower GI dys, GU dys, pelvic dys

Inferior Mesenteric Ganglion Release- Reduce sympathetic tone at T12 - L2

ASIS level PSIS level pubic bone inf ipsi pos standing flex ipsi ASIS restricted to compression ipsi

Inferior pubic shear

HVLA for R1 Inhalation dys

Inhalation dysfunctions of rib one cannot be treated using the Kirksville Krunch 1. The patient prone and the physician at the head of the table. 2. Sidebend the head and neck to the side of the dysfunctional rib. 3. Rotate the head and neck away. 4. Place the 1sl MCP on the tubercle of rib 1. 5. Have the patient take a deep breath in and exhale. 6. At end exhalation, apply a HVLA thrust through the thenar eminence. The direction of the thrust should be posterioanterior and caudad.

ASIS more medial ipsi--> distance btwn ASIS & umbilicus less than the contra side Ischial tuberosity more lat ipsi pos standing flex ipsi ASIS restricted to compression ipsi

Innominate inflares

ASIS more lat ipsi--> distance btwn ASIS & umbilicus more than cont side Ischial tuberosity more med ipsi pos standing flex ipsi ASIS restricted to compression ipsi

Innominate outflare

HVLA for R R5 inhale/exhale dys

Kirksville Krunch type for R2-10; can be used for inhal or exhale dys 1. The patient supine and the physician standing on the left side of the patient (stand on the opposite side of the dysfunctional rib). 2. Patient crosses arms opposite over adjacent. 3. Place the thenar eminence under the posterior rib angle of the "key" rib 4. With the other hand flex, the patient's torso and slightly sidebend away from the dysfunctional rib. 5. Have the patient take a deep breath in and exhale. 6. At end exhalation, apply a HVLA thrust straight down toward your fulcrum (thenar eminence).

who established that there is hypersympathetic activity in disease

Korr

unilateral sacral flexion on the right static findins

L sulcus deeper L ILA significantly inferior L ILA slightlt post

Right on right static findings

L sulcus deeper R ILA post and slightly inf Lumbar curve convex left

Unolateral sacral extension on the right static findings

L sulcus shallow L ILA dignificantly sup L ILA slightly ant

left on right static findings

L sulcus shallow R ILA ant and slightly sup Lumbar curve convex to L

at what level does spinal cord terminate

L1/2

psoas synd cause what spinal dys?

L11/2 flex, SB & rot to same side of iliopsoas contracture

level at umbilicus

L3/4 intervertebral disc

Sacral rotation on an oblique axis

L5 rotated to the same side as the sacrum no standardized treatment

Straight Leg Raise Test

Lasegue's test -used in the evaluation of sciatic nerve compression -patient supine -physician grasps the leg being tested under the heel with the hand, and to keep the knee extended, places the other hand on the anterior aspect of the knee -physician lifts the leg upward, flexing the hip -leg is lifted until the patient feels discomfort -Normally, the leg can be raised to about 70-80° of hip flexion. -->if pain, the cause most likely will be due to hamstring tightness or due to problems with the sciatic nerve. -If pain, physician lowers the leg just beyond where the pain was felt, and then dorsiflexes the foot (Braggard's Test) to stretch the sciatic nerve. -If no pain, tight hamstrings and the test is considered negative. -If pain is felt all the way down the leg, this indicates a sciatic origin, and the straight leg raising test is considered positive.

treatment for Right sided CHF Liver and splenic congestion Infection Parenchymal disease of the liver and/or spleen

Liver and Spleen Pumps- Augments pressure gradient to improve lymphatic movement thus, enhancing immune function and remove toxins contraindications; acute hepatitis, friable liver, trauma to liver or spleen

HVLA for L3 E RrSr with Post TP down

Lumbar roll 1. Patient in R lat recumb (post tp down). 2. Stand in front of patient. 3. Flex patient's legs until palpate motion at L3. 4. Straighten patient's inf leg. 5. Hook sup foot in lower leg's popliteal fossa. 6. Pull patient's inferior arm out (toward you) to rotate the torso and up (cephalad) to induce left sidebending down to the dysfunctional segment. 7. Place one arm in patient's axilla and other on patient's iliac crest. 8. patient take deep breath in and exhale. 9. At end exhalation, apply a HVLA thrust by rotating the patient's pelvis forward and toward the table. 10. Retest the range of motion. (Flexion/ext can also be added to further engage another barrier. With patient in the lat recumb, ant motion of torso will produce flex, post motion will produce ext)

HVLA for L3 E RrSr with post TP up

Lumbar roll 1. Patient in the left lateral recumbent position (posterior transverse process up). 2. Stand in front of the patient. 3. Flex the patient's legs until you palpate motion at L3 4. Straighten the patient's inferior leg. 5. Hook the superior foot in the lower legs popliteal fossa 6. Pull patient's inferior arm out (toward you) to rotate the torso and down (caudad) to induce left sidebending down to the dysfunctional segment. 7. Place one arm in the patient's axilla and the other on the patient's iliac crest. 8. Have the patient take a deep breath in and exhale. 9. At end exhalation, apply a HVLA thrust by rotating the patient's pelvis forward and toward the table. 10. Retest the range of motion. (Flexion/ext can also be added to further engage another barrier. With patient in the lat recumb, ant motion of torso will produce flex, post motion will produce ext)

imaging from herniated nucleus pulposus

MRI

Halstead Test

Military Posture Test Costoclavicular synd test =clavicle & 1st rib -examiner palpates the radial pulse while depressing and extending the shoulder. -positive with a severely decreased or absent radial pulse.

Described sacral motion in relation to L5

Mitchell

erectile tissue SNS level

T11-L2 (same as bladder) at/after splenic flex?

prevalence of patello-femoral synd

Mostly in women. A wider pelvis often results in a larger Q angle.

treatment of lateral epicondylitis

NSAIDs, rest, ice tennis elbow strap to prevent reoccurances OMT to correct cervical/upper thoracic dys, counterstrain to affected muscles (extensors), myofascial release to dec fascial restrictions

bladder SNS level

T11-L2 at/after splenic flex?

gold standard for the diagnosis of carpal tunnel syndrome

Nerve conduction studies will identify if there has been any damage to the myelin or axon of the median nerve. Electromyography will identify if this damage is severe enough to cause denervation of the distal muscles innervated by the median nerve

sacrotuberous lig

O: ILA I: ischial tuberosity can help diagnose dys of innominate or sacrum

serratus anterior

O: R1-9 I: med border of scapula on ant side A: draw scapula ant, rot sacp sup, inspiration

pectoralis minor

O: R3-5 I: coracoid proces of scapula A: draw scap ant, med, & inf, inspiration

latissimus dorsi

O: SP from T7 to sacrum, iliac cres, R 10-12 I: intertubercular groove A: extend arm and rotate arm medially, inspiration (one of primary extensors & adductors of shoulder)

iliolumbar lig

O: TP of L4/5 I: med side of iliac crest first lig to be painful in lumbosacral decompensaton

posterior cruciate lig

O: ant aspect of femur I: post aspect of tibia A: prevents post translation of the tibia on femut

vastus intermedius

O: anterior and lateral surface of the femur I: patella A: primary extensor of the knee

tensor fasciae latae

O: anterior part of the iliac crest, anterior superior iliac spine I: iliotibial tract A: flexes, abducts, and medially rotates the thigh

psoas major

O: bodies & TP of lumbar verts I: lesser trochanter via iliopsoas tendon A: flex thigh, flex and lat bend lumbar vert column

psoas minor

O: bodies of T12 & L1 vert I: iliopubic emanence A: flex and lat bend lumbar vert column

gluteus minimus

O: external surface of the ilium between the anterior and inferior gluteal lines I: greater trochanter of the femur A:abducts the femur; medially rotates the thigh

aortic hiatus level

T12

semitendinosus

O: lower, medial surface of ischial tuberosity (common tendon with biceps femoris m.) I: medial surface of tibia (via pes anserinus) A: extends the thigh, Primary knee flexor

mylohyoid

O: mandible I: hyoid bone A: elevate hyoid & tongue, depress mandible

sternothyroid

O: manubrium I: thyroid cartilage A: depress hyoid

sternohyoid

O: manubrium & sternum I: hyoid A: depress hyoid

vastus medialis

O: medial intermuscular septum, medial lip of the linea aspera I: patella and medial patellar retinaculum A: primary extensor of the knee

adductor longus

O: medial portion of the superior pubic ramus I: linea aspera of the femur A: adducts, flexes, and medially rotates the femur

obturator internus

O: obturator foramen I: greater trochanter A: lat rot & abduct thigh

anterior cruciate lig

O: post aspect of femus I: ant aspect of tibia A: prevents ant translation of tibia on femur

levator ani

O: post surface of body of pubis, ischial spine I:coccyx A: elevate pelvic floor

Gluteus max

O: posterior gluteal line, posterior surface of sacrum and coccyx, sacrotuberous ligament I: upper fibers: iliotibial tract; lowermost fibers: gluteal tuberosity of the femur A: primary extensor of the thigh; laterally rotates the femur

sacrospinous lig

O: sacrum I: ischial spines ***divides greater and lesser sciatic foramen***

rectus femoris

O: straight head: anterior inferior iliac spine; reflected head: above the superior rim of the acetabulum I: patella and tibial tuberosity (via the patellar ligament) A: primary extensor of the knee, flexes the thigh

semimembranosus

O: upper, outer surface of the ischial tuberosity I: medial condyle of the tibia A: extends the thigh, Primary knee flexor

diaphragm

O: xiphoid, costal margin, lat & med arcuate ligs, bodies L1-3 I: central tendon of the dia A: inspiration

deltoid

O:lateral one-third of the clavicle, acromion, the lower lip of the crest of the spine of the scapula I:deltoid tuberosity of the humerus A:abducts arm; anterior fibers flex & medially rotate the arm; posterior fibers extend & laterally rotate the arm; primary shoulder flexor, abductor, extensor N:axillary nerve (C5,6)

Pectoralis Major

O:medial 1/2 of the clavicle, manubrium & body of sternum, costal cartilages of ribs 2-6, sometimes from the rectus sheath of the upper abdominal wall I: crest of the greater tubercle of the humerus A: flexes and adducts the arm, medially rotates the arm; primary adductor of shoulder N:medial and lateral pectoral nerves (C5-T1)

SCM

O= mastoid process & lat 1/2 sup nuchal line I= med 1/3 clavicle & sternum SB & rotate to otherside individually & flex neck when together divides ant and post triangles restriction causes torticollis

extrinsic forces taht affect lymph

OMT exercise contraction of muscles pulsation of adjacent structures resp movement to inc - intrathoracic pressure

posterior lumbar tenderpoints

On either side of the spinous process or on the transverse process. L3 and L4 may be found on the iliac crest. Also, L5 may be found on the PSIS. patient prone, extended and sidebent away (rot either way) Maverick Pt lower pole L5 -caudad to PSIS as much as 1cm -pt prone, hip & knee flex, leg int rot & adducted

respiratory epithelium para/symp effects

Para: dec goblets--> thin secretions Symp: inc goblet--> thick secretion

treatment for Lymphatic congestion Works well in patients that cannot tolerate thoracic pump

Pectoral Tractio- Augments thoracic range of motion via pectoralis minor stretch, improving lymphatic return.

treatments for Same as abdominal pump. Better suited in patients that cannot tolerate thoracic pump

Pedal (Dalrymple) Pump- Augments thoracoabdominal pressure gradients improving lymphatic return. contraindications- DVT, recent abdominal surgery

ME for Forward sacral torsion

Positional Diagnosis: L on L Treatment Position: L Lat Sims Position (Forward torsion, pt Face down) 1. Patient lies axis side (L) down with torso rotated so that he is face down. 2. Flex patient's hips until motion is felt at the lumbosacral junction. 3. Drop the patient's legs off the table to induce left sidebending and engage a left sacral oblique axis. 4. Ask the patient to lift his legs toward the ceiling against your equal counterforce for 3-5 seconds. Monitor 5. Repeat for 3-5 times and then retest for symmetry

ME for backward sacral torsion

Positional Diagnosis: R on L Treatment Position: L Lat Recumbent with face up (Backward torsion, pt lie on Back) 1. Patient lies w/ axis side (L) down with torso rotated so face up. 2. Grasp patient's L arm and pull to Rot torso to the R. Flex patient's hips until motion is felt 3. Drop the patient's legs off the table to induce L SB and engage a L sacral oblique axis. 4. Ask the patient to lift legs toward the ceiling against your equal counterforce for 3-5 seconds. Monitor 5. Repeat for 3-5 times, each time re-engaging the new restrictive barrier, and retest for symmetry of motion.

ME for anterior Innominate

Positional Diagnosis: Right Ant Innominate Treatment Position: Supine 1. Flex patient's R hip and knee until resistance is felt. 2. Instruct patient to extend hip against your counterforce for 3- 5 seconds. 3. Wait a few seconds for the tissues to relax, then take up the slack to the new restrictive barrier. 4. Repeat until no restrictive barrier is felt (usually 3-5 times).

ME for inferior pubic shear

Positional Diagnosis: Right Inferior Pubic Shear Treatment Position: Supine 1. Flex and abduct patient's R hip and knee and until resistance is felt. Stabilize the patient's L ASIS with your right hand. 2. Instruct patient to push his R knee to his left foot (extension and adduction) against your counterforce for 3-5 seconds. 3. Repeat steps 3-4.

ME for posterior innominate

Positional Diagnosis: Right Post Innominate Treatment Position: Supine 1. Drop the patient's R leg off the table until resistance is felt. Stabilize the patient's L ASIS with your right hand. 2. Instruct patient to flex his hip against your counterforce for 3-5 seconds. 3. Repeat steps 3 and 4.

ME for superior pubic shear

Positional Diagnosis: Right Superior Pubic Shear Treatment Position: Supine 1. Drop the patient's R leg off the table and abduct until resistance is felt. Stabilize the patient's L ASIS with your right hand. 2. Instruct patient to bring his R knee to his L ASIS (flexion and adduction) against your counterforce for 3-5 seconds. 3. Repeat steps 3 and 4.

ME for unilateral sacral extension

Positional Diagnosis: Right USE Treatment Position: Prone 1. L hypothenar eminence on the patient's R sacral sulcus. 2. Ask the patient to exhale and hold his breath, while you push anterior and caudad on superior sulcus. Hold for 3-5 seconds. 3. Direct the patient to inhale while you resist any anterior superior movement of the sacrum. 4. Repeat steps two and three 3-5 times and retest.

ME for Unilateral Sacral Flex

Positional Diagnosis: Right USF Treatment Position: Prone 1. Place L hypothenar eminence on patient's R ILA. 2. Ask patient to inhale and hold breath, while you push anterior on the ILA. Hold for 3-5 seconds. 3. Direct the patient to exhale while you resist any posterior, inferior movement of the sacrum. 4. Repeat steps two and three 3-5 times and retest.

Chronic asymmetry

Present with conpensation in other areas

Fryette's 3rd law

Proposed by Nelson Motion at 1 in any plane of motion modifies the other planes of motion

Rib raising

Purpose #1: normalize symp -thoracic sympathetic ganglia lie anterior to their corresponding rib -target R2-7 for resp secretions to be less thick Purpose #2: improve lymph -there is symp to larger lymphatic vessels-->should improve lymphatic return & create pressure gradients directly affecting return -works best in pt with noncompliant chest wall Purpose #3: encourage max inhale & provoke more neg intrathoracic pressure

axillary n

R T D C B

dorsal scapular n

R T D C B

lat pectoral n

R T D C B

long thoracic n

R T D C B

lower subscapular n

R T D C B

medial antibrachial cutaneous n

R T D C B

medial brachial cutaneous n

R T D C B

medial pectoral n

R T D C B

median n

R T D C B

musculocutaneous n

R T D C B

radial n

R T D C B

suprascapular n

R T D C B

thoracodorsal n

R T D C B

ulnar n

R T D C B

upper subscapular n

R T D C B

Bilateral sacral flex static findings

R & L sulci deep ILA shallow b/l inc lumbar curve

Bilateral sacral extension static findings

R & L sulci shallow ILAs deep b/l dec lumbar curve

left on left static findings

R sulcus deeper L ILA post & slightly inf Lumbar curve convex to R

unilateral sacral flexion on the left static findings

R sulcus deeper R ILA significantly inferior R ILA slightlt post

right on left static findings

R sulcus shallow L ILA ant and slightly sup lumber curve convex to the R

unilateral sacral extension on the L static findings

R sulcus shallow R ILA dignificantly sup R ILA slightly ant

pump handle

R1-5 use primarily

true ribs

R1-7 attach to sternum

caliper

R11+12 use primarily

bucket handle

R6-10 use primarily

false ribs

R8-12

appendix SNS level

T12 after splenic flex?

Apley's scratch test

ROM shoulder -To test abduction and external rotation, ask the patient to reach behind the head and touch the opposite shoulder -To evaluate internal rotation and adduction, ask the patient to reach in front of the head and touch the opposite shoulder. -to further evaluate internal rotation and adduction, instruct the patient to reach behind the back and touch the inferior angle of the opposite scapula. -Another way to evaluate range of motion of both shoulders at once is to ask the patient to abduct the arms to 90°, then supinate the forearms and continue abduction until the hands touch overhead. -->compare bilateral abduction. -to test abduction and external rotation, ask the patient to interlock the hands behind the head and push the elbows posterior. -place the hands behind the back as high as possible as if to touch the ipsilateral inferior angle of the scapula

Somatic dysfunction

Restriction in in bones, joints, muscle, fascia; blood, lymph, & nerve may be altered

Prayer test

Reverse Phalen carpal tunnel -patient extend the wrist while gripping the physician's hand. -If after one minute, the same symptoms are seen as in Phalen's test, the reverse Phalen's test is positive.

L sulcus deeper R ILA post and slightly inf Lumbar curve convex left pos seated flex on L spring at L base present spring in R ILA restricted spring at poles of oblique axis restricted neg lumbosacral spring test L5 SB R, Rot L

Right on right

Really Thirsty? Drink Cold Beer!

Roots Trunks Divisions Cords Branches

Pelvic Splanchnic PNS

S2-4 low ureter bladder uterus prostate genitalia desc & sig colon (2nd 1/2 colon) rectum

Flex lesion of SBS

SBS deviated cephalad, dec ext of SBS

Ext lesion of SBS

SBS deviates caudad, dec amount of flexion at SBS

divides neck into ant and post triangles

SCM

ant triangle borders

SCM, mandible, midline of neck

post neck triangle borders

SCM, trap, clavicle

true pelvic ligs

SI ligs ant, post, interosseous SI ligs surround & stabilize

level of spine for inf angle of scap

SP T7

multifidus

SP-TP of vert 2-4 below action: extend & lat bend; rotate to opposite side

rotatores

SP-TP or vert 1-2 below, more lateral than multifidus A: rotate to opposite side

technique for Dysmenorrhea Diarrhea

Sacral Inhibition- Inhibit sacral motion, increasing parasympathetic activity to the left colon and pelvic organs. With patient in prone position apply deep direct pressure at the sacrum for 2 minutes.

treatment for Tight lumbosacral paraspinals

Sacral rocking- Relaxes the muscles of the lumbosacral junction With the patient in the prone position, apply gentle pressure at the sacrum with rocking motion. The rocking motion augments flexion and extension phases associated with respiration or with the cranial rhythmic impulse (CRI)

Mitchell's 3 sacral dys

Sacral torsions (rot on oblique axis) Sacral shears (unilat flet/ext) b/l sacral flex/ext

Some Lovers Try Positions That They Cant Handle

Scaphoid Lunate Triquetrum Pisiform Trapezium Trapezoid Capate Hamate

Middle GI SNS level

T10-11 via lesser splanchnic n & sup mes gang btwn lig of treitz & splenic flex (pt of pancreas & duo, jej, ilium, asc olon & prox 2/3 transverse)

developed FPR

Schiowitz

Acute tenderness

Severe, sharp

somato-visceral reflex

Somatic stimuli may produce patterns of reflex response in segmentally related visceral structures

technique to treat Thick secretions associated with an upper respiratory tract infection (URI)

Sphenopalatine Ganglion Treatment- Enhances parasympathetic activity which decreases goblet cells thus encourages thin watery secretions

Backward bending test

Sphinx test determines if the sacral base has moved posterior or anterior -positive if a part of the sacral base moves posterior -patient prone -physician places his thumbs on the superior sulci. -If asymmetry is present, one side of the sacrum is post, or the other side is ant -patient prop up on their elbows (sphinx position)--> extension. (--> causes sacrum to flex/go ant) -if thumbs become more symmetric with lumbar extension, part of the sacral base moved anterior. - If thumbs become more asymmetric with lumbar extension, part of the sacral base has moved posterior.

dermatome at umbilicus

T10

Describer of sacral movements

Strachan

Lasegue's test

Straight Leg Raise Test -used in the evaluation of sciatic nerve compression -patient supine -physician grasps the leg being tested under the heel with the hand, and to keep the knee extended, places the other hand on the anterior aspect of the knee -physician lifts the leg upward, flexing the hip -leg is lifted until the patient feels discomfort -Normally, the leg can be raised to about 70-80° of hip flexion. -->if pain, the cause most likely will be due to hamstring tightness or due to problems with the sciatic nerve. -If pain, physician lowers the leg just beyond where the pain was felt, and then dorsiflexes the foot (Braggard's Test) to stretch the sciatic nerve. -If no pain, tight hamstrings and the test is considered negative. -If pain is felt all the way down the leg, this indicates a sciatic origin, and the straight leg raising test is considered positive.

treatement of patello-femoral syndrome

Strengthen the vastus medialis muscle

serratus posterior

Superior O:SP C7-T3 I: R1-4 A: elevates upper ribs, inspiration Inferior O: SP T11-L2 I: R9-12 A: pulls down lower ribs, inspiration

technique for GI dys from jej to mid-transverse colon

Superior Mesenteric Ganglion Release- Reduce sympathetic tone at T10 - T i l

omohyoid

Superior belly O: intermediate tendon I: hyoid Inferior Belly O: scapula I: intermediate tendon A: depress hyoid

established the cranial field

Sutherland

head & neck SNS level

T1-4

Heart SNS level

T1-5

Adson's test

TOS test -ant & post scalens -While monitoring the patient's pulse, the arm is extended at the elbow, the shoulder is extended, externally rotated, and slightly abducted. -patient take a deep breath and turn his/her head toward the ipsilateral arm. -positive with a severely decreased or absent radial pulse

Lumbar roll for T2

TP up--> pull pt inf arm down TP down--> pull pt inf arm up

Lumber roll for T1

TP up--> pull pt inf arm up TP down--> pull pt inf arm down

TART

Tissue texture, asymmetry, restriction, tender

purpose of Vault hold

To address the strains at the SBS. The operator can use either a direct or indirect method of treatment. Most commonly, an indirect method is used to balance membranous tension

purpose of V spread

To separate restricted or impacted sutures. The principle can be applied to any suture.

ME for R anterior fibular head

Treatment Position: Prone 1. patient prone and knee flexed, place R hand on lateral side of the patient's foot, cupping the ankle. 2. Plantar-flex & invert patient's foot to resistance. 3. Externally rotate tibia. 4. Direct patient to dorsiflex against isometric counterforce for 3-5seconds. 5. Relax forces, plantar-flex, invert and externally rotate the tibia to the new barrier. Repeat steps 1 -4.

ME for T posterior fibular head

Treatment Position: Prone 1. prone & knee flexed, place R hand on lateral side of the patient's foot, cupping the ankle. 2. Plantar-flex & invert patient's foot to resistance. 3. Internally rotate the tibia 4. Direct patient to dorsiflex against counterforce for 3-5s 5. Relax, plantar-flex, invert and int rotate tibia to new barrier. Repeat steps 1 -4.

ME for T3 E SlRl

Treatment Position: Seated 1. In the upper thoracic spine, use the head and neck as lever to induce motion 2. With one hand monitor the posterior transverse process of T3. Engage the restrictive barrier by flexing, Rot & SB R until motion is felt 3. Direct the patient to use a small amount of force to straighten his head while you exert an equal amount of counterforce. 4. Maintain the forces for 3-5 seconds, have the patient relax, the physician relaxes, and re-engage the new restrictive barrier. 5. Repeat step four 3-5 times and then recheck for increased symmetry.

ME for T7 E RlSl

Treatment Position: Seated 1. Use your left hand to monitor the posterior transverse process of T7. 2. Instruct the patient to place his left hand behind his neck, and to grasp his left elbow with his right hand. 3. Reach across the patient's chest with your right arm, SB & Rot T7 R until motion is felt 4. Direct the patient to use a small amount of force to straighten his body while you exert an equal amount of counterforce. 5. Repeat step four 3-5 times and then recheck for increased symmetry.

ME for AA RotR

Treatment Position: Supine 1. Cradle the occiput in your hands and flex patient's cervical spine 45° 2. Rot L to the point of initial resistance. 3. Direct the patient to gently Rot R. Apply an equal counterforce 4. Maintain the forces for 3-5 seconds, repeat 3-5 times, each time re-engaging the new restrictive barrier. 5. Recheck for symmetry of motion

ME for OA E SlRr

Treatment Position: Supine 1. With the distal pad of one finger, monitor the OA joint, engage the restrictive barrier in all three planes by SB R, Rot L and flexing the patient's head until tension is felt (localization). Direct the patient to use a small amount of force to straighten his head while you exert an equal amount of counterforce. 2. Maintain for 3-5 seconds, repeat 3-5 times, each time re-engaging the new restrictive barrier. 3. Recheck for symmetry of motion.

ME for inhalation dys

Treatment Position: Supine Key Rib: Lowest in Group 1. patient supine, one hand on the anterior aspect of the key rib. Flex the patient for pump handle dysfunctions & SB the patient for bucket handle dysfunctions--> tension is taken off the dys rib 2. palpates the dys rib. 3. Patient inhales, then exhales deeply. For bucket handle dysfunctions, patient is instructed to reach for his knee on the affected side. 4. The patient is instructed to hold his breath at end- expiratory phase for 3-5 seconds. During this time, the physician adjusts flexion/sidebending to the new restrictive barrier. Physician follows rib shaft into exhalation with his hand during the expiratory phase. 5. On inhalation, the physician resists inhalation motion of the rib. 6. Repeat steps 3-5 a total of 3-5 times. Retest for symmetry of motion.

indications for lymph treatment

URI bronchitis, pneumonia, asthma, COPD, atelectasis post MI, CHF, heart infection mastitis, lymphedema GI disorder (hernia, chrons, colitis) cirrhosis, hepatitis, pancreatitis, nephrotic synd premenstrual synd, uterine fibroma, endometriosis, cystitis disorder of extremities: tendonitis, swell from trauma/infect, ezcema/psoriasis

Piriformis tenderpoint

Usually in the piriformis muscle 7 cm medial to and slightly cephalad to the greater trochanter Pt prone. Hip and knee flexed. Thigh abducted and externally rotated

Underberg's test

Variation of Wallenberg test perfomed with the neck backward bent and the head fully rotated to either side--> If patient develops vascular or neurologic symptoms, HVLA is contraindicated

Compensatory pattern

Zink Compensatory curves at: 1. Occipitoatlantaljunction 2. Cervicothoracic junction 3. Thoracolumbar junction 4. Lumbosacraljunction

adrenals chapman

ant: 2 inch sup & 1 inch lat to umbilicus post: btwn sp & tp of T11 & 12

ME types

active, direct (or indirect) postisometric relaxation (direct) reciprocal inhibition joint mobilization using muscle force oculocephalogyric reflex resp assistance crossed extensor reflex

absolute contraindications for cranial

acute intracranial bleed inc intracranial pressure skull fracture

AC joint stabilized by

acriomioclavicualr lig coracoacromial lig coracoclavicular lig

acromioclavicular joint

acromion of scapula--clavivle

deltoid lig

a Medial stabilizer of the ankle--> prevents excessive pronation Since the ankle is more stable in the pronation position and the deltoid ligament is very strong, pronation sprains are very uncommon. Excessive pronation usually results in a fracture of the medial malleolus rather than pure ligamentous injury

axis and plane for SB

aP & coronal

treatment for Upper and lower GI dysfunctions CHF COPD, asthma, URI Hiatial hernia Decreased motion of L-spine and thoracic cage

abdominal pump- Augments thoracoabdominal pressure gradients improving lymphatic return. Massages thoracic duct at cisterna chyli. contraindications- full stomach, disruption of liver/spleen

cubitus valgus

abduction of ulna if somatic dys present carry angle >15

postural motion of sacrum

about middle transverse axis at S2 as person bends foward, sacrum flexes at terminal flexion, sacrotuberous ligs become taut & sacrum will extend

respiratory motion of sacrum

about superior transverse axis at S2 during inhalation, sacrum extends (base move post)

S1 DTR

achilles reflex

treat cervical paraspinal symp gang

adjacent to the superior (C1 - C3), middle (C6 - C7), and inferior (C7 - T1) ganglia may influence sympathetic tone to the head and neck structures

Frequency of OMT

allow time for pt to respond to treatmen

anterior rib 3-6 tenderpoint

along mid-ax line on corresponding rib SB & Rot thorax toward, slight flexion

Substances found in the lymph

amino acids, glycerol and glucose; long chain fats, chylomicrons, and cholesterol; clotting factors; lymphocytes

When performing indirect myofascial release, which barrier is engaged?

anatomic

short leg syndrome

anatomicl or functional leg length discrepancy results in: 1) sacral base unleveling 2) vertebral SB & Rot 3) Innominate Rotation

Motor for L4

ankle dorsiflexors

Motor for S1

ankle plantar flexors

4 compartments in leg

ant lat deep post superficial post

ASIS more inf ipsi PSIS more sup ipsi longer leg ipsi (or comprensation for anatomically short leg) pos standing flex ipsi post innominate rot restricted ipsi ASIS restricted to compression ipsi

ant innominate rot

sacral promontory

ant portion of S1

pain from bicipital tenosynovitis

ant portion of the shoulder which may radiate to biceps tenderness over bicip groove pain aggrivated by resisted flex or supination of forearm

appendix chapman

ant: ***tip of R R12*** post: TP of T11 (moreso in acute)

kidney chapman

ant: 1 inch sup and 1 inch lat to umbilicus post: btwn sp & tp of T12-L1

Cranial rotation axis

around AP axis (normal SB)

Cranial Flex axis

around transverse axis (normal)

Cranial SB axis

around vert axis (normal is rotation)

cervical foraminal stenosis treatment

articularoty techniques, muscle energy, MFR, counterstrain, FPR

R1

articulate only with T1 no angle

R11 & 12

articulate only with vert at level & lack tubercles

R10

articulates only with T10

Trendelenberg's test

assess glut med muscle strength -physician stands behind the patient -patient pick one of legs up off the floor -Normally, the gluteus medius muscle should pull up the unsupported pelvis to keep it level. -A positive test occurs when the pelvis falls, which indicates weakness in the gluteus medius muscle

Ant & post drawer test

assess the anterior and posterior cruciate ligaments -patient supine with the hip flexed to 45° and knee flexed to 90° -physician sits on the patient's foot of the knee being tested, wraps both hands around behind the tibia -places one thumb on the medial joint line and one on the lateral joint line -tibia is then pulled anteriorly to test the ACL. -If the tibia slides out from under the femur, the test is positive for an ACL tear. -compare with other side -physician then pushes posteriorly on the tibia to check the PCL -test is positive if the tibia excessively moves backward under the femur

Anterior drawer test of ankle

assess the medial and lateral ligaments of the ankle, mainly the anterior talofibular ligament, but also the superficial and deep deltoid ligaments -patient supine -physician grasps the distal tibia/fibula with one hand, and pulls the foot forward with the other hand grasping the posterior aspect of the calcaneus. -The foot should be held in 20° of dorsiflexion the entire time. -If, after comparing both sides, excessive movement of the talus under the tibia/fibula occurs, then a bilateral injury has occurred to the mentioned ligaments. -If there is deviation to one side, then only the ligaments to the opposite side of the foot are damage

Valgus & Varus Stress Tests

assess the stability of the collateral ligaments -patient lying supine or sitting on the table -knee flexed just enough to unlock it from full extension -physician stabilizes the ankle with one hand while the other pushes against the knee, first medially then laterally. -Pushing the knee medial (with a Lateral force ) is the vaLgus stress test. -If there is gapping on the opposite side, then the medial collateral ligament is torn. -To test the lateral collateral ligament, the physician pushes the knee laterally (varus stress test). -positive If there is any gapping of the lateral joint line

Thomas test

assesses the possibility of a flexion contracture of the hip, usually of iliopsoas origin. -patient supine--> physician checks for exaggerated lumbar lordosis, common in hip flexion contractures. -physician flexes one hip so that knee and anterior thigh touches the patient's abdomen -If a flexion contracture is not present, the patient's opposite leg will remain flat on the table. -If present, a contracture of the iliopsoas will cause the opposite leg to lift off of the table.

Patellar Grind Test

assesses the posterior articular surfaces of the patella and the possibility of chondromalacia patellae, commonly seen with patello-femoral syndrome -patient supine with knees fully extended and relaxed. -physician pushes the patella distally, then instructs the patient to contract the quadriceps muscles. -Any roughness of the articular surfaces will grind, and be palpable and painful when the quadriceps contract and move the patella -positive if the patient feels pain with contraction of the patella

Lachman's test

assesses the stability of the ACL and is somewhat more accurate than the Draw tests. -patient supine -physician grasps proximal tibia with one hand and the distal femur with the other hand. -knee flexed to about 30° -tibia pulled forward by the grasping hands -Both sides are compared -test is positive if the tibia excessively moves out from under the femur.

posterior rib tenderpoints

associated with elevated ribs need extra time: 120s Location ange of corresponding rib treat position min flex, SB & Rot away

anterior rib tenderpoints

associated with depressed ribs need extra time: 120s Location R1: below med end of clavicle R2: 6-8cm lat to sternum on rib 2 R3-6 along mid-ax line on corresponding rib Treat R1&2: flex head, SB & Rot toward R3-6: SB & Rot thorax toward, slight flexion

treat TOS

at C2-T1, R1, thoracic inlet, clavicle, scalenes dys exercise to trap & levator scapula

cisterna chyli

at level of L2 18 inches from drainage point of thoracic duct innervated by T11

secondary pelvic muscles

attach to the true pelvis -iliopsoas -obturator internus -piriformis

flexor digitorum profundus

attaches to distal interphalangeal joint (DIP) Deep finger glexors attach to Dips

transverse lig

attaches to lateral masses of C1 weakened by Down's and RA--> atlanto-axial subluxation

flexor digitorum superficialis

attaches to proximal interphalangeal joint (PIP)

anterior rib 1 tenderpoint

below med end of clavicle flex head, SB & Rot toward

DTR for C5

biceps reflex

Speed's test

biceps tendon in bicipital groove -patient flexes the elbow to 90° while the physician grasps the elbow with one hand and the wrist with the other hand. -While pulling downward on the patient's elbow, the physician externally rotates the forearm as the patient resists this motion. -positive test results when pain is elicited as the biceps tendon pops out of the bicipital groove

supinators of forearm

biceps--musculocutaneous nerve supinator--radial nerve

R & L sulci shallow ILAs deep b/l dec lumbar curve false neg seated flexion tst spring at both sulci restricted spring at both ILAs present pos lumbosacral spring test

bilateral sacral extension

R & L sulci deep ILA shallow b/l inc lumbar curve false neg seated flex test spring at both sulcu present spring at both ILAs restricted nec lumbosacral spring test

bilateral sacral flex

Allen's test

blood via radial and ulnar as -pt open and close the hand being tested several times and then to make a tight fist. -physician occludes the radial and ulnar arteries at the wrist. -patient is then asked to open the hand; the palm should be pale. -physician releases one of the arteries and assesses the flushing of the hand. -If it flushes slowly, or not at all, then the released artery is not adequately supplying the hand. -procedure is repeated for the other artery

Myofascial release D/I, A/P

both, both

Cranial D/I, A/

both, passive

sacral apex

botton part which articulated with coccyx

DTR for C6

brachioradialis reflex

normal angle of femur

btween neck and shaft of femur 120-135

lateral longitudinal arch

calcaneus, cuboid, and 4th and 5th metatarsals

radio-opaque kid stone on X ray

calcium oxalate (80% of stones)

Phalen's test

carpal tunnel -physician maximally flexes the patient's wrist and holds this position for one minute. -If a "tingling" sensation is felt in the thumb, index finger, middle and lateral portion of the ring fingers, the test is positive

tinel test

carpal tunnel -physician taps over the volar aspect of the patient's transverse carpal ligament. -positive test will cause tingling or paresthesia into the thumb, index, middle and lateral half of the ring finger -may also be used in the diagnosis of other neuropathies, such as ulnar nerve entrapment at the elbow; peroneal compression at the fibular head and posterior tibial nerve entrapment at the ankle.

adduction of the ulna findings

carry angle dec (olecranon dev lat & distal ulna dev medially) olecranon process restricted in medial glide radial head may be distracted from lat humerl condyle distal ulna restricted in lat glide wrist/hand abduct & restrict in add

abduction of ulna findings

carry angle inc (olecranon dev med & distal ulna dev lat) olecranon process restricted in lat glide radial head compressed against lat humeral condyle distal ulna restricted in med glide wrist/hand adduct & restrict in abd

technique for upper GI dys

celiac gang release- dec symp tone at T5-9

treat lymph dys

chapmans thoracic pump pedal pump cranial ME/any treatment to thoracic inlet rib raising splenic/liver pump fascial sinus pressure/Galbreath ant cervical mobilization (gentle motion of hyoid, thyroid, cricoid, trachea) Extremity pump (wave motions in arms & legs)

CN III PNS

ciliary gang--> pupils (midbrain)

radiology of Spondylolisthesis

classified based on degree of slippage: Grade 1- 0-25% Grade 2- 25-50% Grade 3- 50-75% Grade 4- >75%

clavicle ant & sup findings

clavicle resist post & inf glide at sternum sup glide present with shoulder depression inf glide restricted with shoulder elevation ant glide present with shoulder retraction post glide restricted with shoulder protraction dec motion of clavicle around transverse axis

most common AC dys

clavicle sup & lat on acromion

somatic dys of iliopsoas

common caused by prolinged shortening pelvic side shift, pos thomas test, dys of upper lumbar susally associated

bilateral sacral flex epidemiology

common dys in post-partum pts

shoulder dislocation

common in athletes usually trauma humeral dislocation- ant & inf recurrent are common & req less force can injure axillary nerve

adhesive capsulitis/Frozen shoulder syndrome

comon, pain & restrict of shoulder motion that gets inc worse over course of year

3rd degree grade of sprains

complete tear resulting in no tensile strength with mild to moderate laxity may require surgery

thoracic oultet syndrome

compression of the neurovascular bundle (subclav a & v, & brachaial plex) as it exits thoracic outlet

alar ligamnet

connect dens to skull on both sides

neuromuscular scoliosis

due to musc weakness or spasticity -poliomyelitis, cerebral palsy, Duchenne's musc dys, meningomyelocele

treatment of moderate scoliosis

conservative management: PT, Konstancin exercises (series of exercises proven to improve pt with postural decompensation), OMT (not intended to completely straighten) improve flexibility & strengthen trunk & abs PLUS bracing with a spinal orthotic is often indicated

pathogenesis of supraspinatus tendinits

continuous impingement of greater tuberosity against acomion as the arm is flexed and internally rotated

Isolytic contraction

contract against resistance while forcing muscle to lengthen operator force> pt force

Bishops deformity

contracture of the last 2 digits with atrophy of hypothenar eminence due to ulnar nerve damage

sacral extension

counternutation

Jones

counterstrain tenderpoint

ulnar a

courses med aspect of forearm supplying blood to elbow, wrist, dorsal aspect of hand & eventually most of the superficial palmar arterial arch

radial a

courses the lat aspect of the forearm supplying blood to the elbow, wrist, dorsal aspect of the hand and eventually forming most of the deep palmar arteral arch

sciatic nerve

courses through greater sciatic foramen in 85% of pop, the sciatic nerve will be inferior to the piriformis 2 divisions: tibial & peroneal

what to treat first to make pt relax for treat in other areas

cranial

SBS goes down

cranial extension "looks like the sphenoid bone is extending bc the caudad pt (SBS) goes anterior ish"

SBS tips up

cranial flexion "looks like the sphenoid bone is flexing bc the caudad pt (SBS) goes posterior ish"

palpation of lateral SBS strain feels like what

cranium shaped like a parallelogram

dextroscoliosis

cruve SB L--> scoliosis (convexity) to R

levoscoliosis

curve SB R--> scoliosis (convexity) to L

genu varum

dec Q angle pt appear bowlegged

signs & symp of adhesive capsulitis/Frozen shoulder syndrome

dec ROM with active & passive movement, abduction, int & ext range of motion often effected extension preserved

treatment for spinal stenosis

dec restrictions & inc ROM--> PT, NSAIDs/low dose steroids; if doesnt work--> epidural--> laminectomy with decompression

misoprostol

dec serious GI comp by 40% use with NSAIDs

Treating Chapman's

dec symp tone to assoc visc tissue treated using soft, circular manipulation over the point itself. Posterior Chapman's points feel rubbery, similar to a classic viscerosomatic reflex

Motor for C8

deep finger and wrist flexors

CV4 Bulb decompression

done by first resisting the flexion phase and encouraging the extension phase of the C.R.I, until a "still point" is reached, then allowing restoration of normal flexion and extension to occur ***inc amplitude of CRI***, induce uterine contraction, help with fluid homeostasis

spina bifida

defect in closure of lamina of vert segment usually in lumbar spine 3 types: occulta, meningocele, meningomyelocele

Definition of cervical foraminal stenosis

degen in joint of Lushka, hyperT in facet joints, osteophytes that narrow foramina

pathogensis of spinal stenosis

degenertive changes in the lumbar spine can include 1) hpertrophy of the facet joints 2) Ca deposits within the ligamentum flavum and the post long lig 3) loss of intervertebral disc height

Heisey & Adams

demonsrated movement of cranial bone movement in animal models

exhalation dys findings for pump-handle rib

depressed antly ant part moves caudad on exp ant narrow of IC space below inf edge of post rib angle prominent tender & text change at costochoneal junction, chondrosternal junction, & post rib angles

exhalation dys findings for bucket-handle rib

depressed latly lat part (shaft) of rib moves down on exp lat narrowing of IC space below tender & text change at IC muscles on mid-axillary line, & post rib angles

Mitchell

described sacral motion in relation to L5

Strachan

describer of sacral movements: ant & post

Ober's test

detects a tight tensor fascia lata and iliotibial band -patient lies on the side opposite the iliotibial band being tested -physician stands behind the patient stabilizes the pelvis to keep the patient from rolling -phys flexes the knee on the side being tested to 90°, abducts the hip as far as possible, and slightly extends the hip. -Slight hip extension is necessary to ensure that the iliotibial band passes directly over the greater trochanter -physician slowly allows the thigh to fall to the table. -test is positive if the thigh remains in the abducted position--> indicate a tight iliotibial band.

McMurray's Test

detects tears in the posterior aspect of the menisci -to test the medial meniscus, the patient's knee is fully flexed -physician's fingers palpate the medial knee joint line -tibia is then externally rotated and a valgus stress is placed on the knee -knee is then slowly extended. -If a palpable or audible "click" is noticed, the test is positive for a posterior tear of the medial meniscus. -To test the lateral meniscus, the same procedure is used with internal rotation of the tibia and a varus stress on the knee

ASIS compression test

determine side of SI dys; helpful when the standing or seated flexion tests are equivocal -patient in the supine position -physician comes in contact with the ASIS's and applies a posterior compression to each ASIS while stabilizing the other -There is usually an ease of posterior compression (some authors describe this as a sense of "resiliency"). -If there is a resistance to compression (that side did not have "resiliency") then the test is considered positive on that side. -A positive test indicates dysfunction of the sacrum, innominate or pubic bones

Muscle Energy D/I, A/

direct, active

High Velocity, Low Amplitude D/I, A/

direct, passive

chapman's reflexes D/I, A/

direct, passive

lymphatic treatment D/I, A/

direct, passive

Slipped capital femoral epiphysis

displacement of the femoral head from the femoral neck due to a stress fracture through the femoral capital epiphyseal growth plate. It is classically seen in obese adolescent males. This would have been diagnosed by the X-ray of the hip treat with surg fixation

lig of treitz

divides duo & jejunum

brachial a

divides into ulnar & radial as under the bicipital aponeurosis

Sensation for L5

dorsal aspect of foot and big toe

Anterior postural deviation

entire body leans forward deviating anteriorly from plumb line patient's weight supported by metatarsals

carpal tunnel syndrome

entrapment of medial nerve at the wrist

Sutherland

established the crainial field

Apley's compression & distraction tests

evaluate the meniscus and ligamentous structures of the knee -patient prone and the knee is flexed to 90° -compression performed with the physician pressing straight down on heel, and internally and externally rotating the tibia in this position. -Pain indicates a meniscal tear. -physician pulls upward (the "distraction" part) on the foot, and internally and externally rotates the tibia. -Pain this time indicates ligamentous injury, usually the medial and/or lateral collateral ligaments

Bounce Home Test

evaluates problems with full knee extension, usually due to meniscal tears or joint effusions. The patient is supine and the physician grasps the heel. The knee is flexed completely. Then, the knee is allowed to drop into extension. Normally, the knee should "bounce home" into full extension to a sharp end-point, without restriction. The test is positive if extension is incomplete or there is a "rubbery" feel to end-point extension

how do lumbar nerves exist

exit sup aspect of corresponding intervertebral foramina, just above intervertebral disc

CN I

exits: Cribiform plate Som Dys: Sphenoid, frontal, ethmoid Symp: Altered sense of smell

CN VII

exits: Enters internal acoustic meatus and exits the stylomastoid foramen Som Dys: Sphenoid, temporal, occiput Symp: bell's palsy

CN XII

exits: Hypoglossal canal Som Dys: occiput Symp: Dysphagia ***compression can cause poor suckling in newborn***

most common congenital anomaly of lumbar spin

facet tropism- misaligned facets

segmental facilitation

facilitation occurs at an individual spinal level

lumbarization

failure of susion of S1 with other sacral segs less common than sacralization

post radial head etiology

fall foward on protonated forearm

ant radial head etiology

falling backward on supinated forearm

Bilateral sacral flexion dynamic findings

false neg seated flex test spring at both sulcu present spring at both ILAs restricted nec lumbosacral spring test

bilateral sacral extension dynamic findings

false neg seated flexion tst spring at both sulci restricted spring at both ILAs present pos lumbosacral spring test

morton's neruoma

fibroneuromatous reaction between the heads of the third and fourth metatarsals. Pain is present at the forefoot at the site of the neuroma it is often accompanied with dysesthesia or burning plantar pain

inferior lateral angles

inferor lateral part recorded as shallow/post, deep/ant, superior, or inferior in dys

Seated flexion test

for SI motion, eval som dys in pelvis -patient is seated with both feet flat on the floor. -physician locates the patient's PSIS's and places his thumbs on the inferior notch. -patient bend forward and the physician assesses the level of the PSIS's as this motion is completed. -positive test occurs when, at the termination of forward bending, the PSIS's are not level. Somatic dysfunction is present on the side of the superior PSIS.

scoliosis screening

for children age 10-15 1) examine lievels of occiput, shoulders, iliac crests, PSIS, & greater trochanters 2) bend at waist--> if rib hump, pos test 3) screen for lumbosacral dys that may give short leg--> treat & recheck for scoliosis--> if still there--> get x-ray

Standing flexion test

for iliosacral motion, eval som dys in leg or pelvis, more commonly in innominate -patient standing -physician locates the patient's PSIS's and places his thumbs on the inferior notch -patient bend forward and the physician assesses the level of the PSIS's as this motion is completed -positive test occurs when, at the termination of forward bending, the PSIS's are not level--> Somatic dysfunction is present on the side of the superior PSIS

Finkelstein's test

for tenosynovitis in the abductor pollicis longus and extensor pollicis brevis tendons at the wrist (De Quervain's disease) -patient makes a fist with the thumb tucked inside the fingers. -physician stabilizes the patient's forearm and deviates the wrist ulnarly. -positive test results when the patient feels pain over the tendons at the wrist

Foramen transversarium

foramina in the TP of C1-6 vert artery passes

Q angle

formed by intersection of a line from the ASIS through the middle of the patella and a line from the tibial tubercle through the middle of the patella normal= 10-12

carry angle

formed by intersection of longitudinal axis of humerus & distal radial/ulnajoint-proximal radial ulna joint men normal= 5deg women normal= 10-12 deg has direct effect on wrist position

acute causes low back pain

fracture, strain, disc herniation, infection, referred pain

condylar decompression

free parasympathetic responses to structures innervated by cranial nerves IX and X by freeing the passage through the jugular foramen (i.e.occipito-mastoid suture) ***-ex. after childbirth (compression) to help suckling***

axillary a

from subclav starts at lat border of first rib becomes brachial artery at the inf border of teres minor

Zollinger-Ellison syndrome

gastrin-secreting neuroendocrine tumors (gastrinomas), which result in hypergastrinemia and acid secretion. Over 90% of patients with this syndrome develop peptic ulcers. In most cases, the two conditions are indistinguishable and present as peptic ulcer disease

glenohumeral joint

glenoid fossa of scapula--humerus

radial head motion

glide ant & post with sup & pronation respectively of forearm

primary extensor of hip

gluteus max

medial epicondylitis

golfer's elbow strain of flexor muscles of the forearm near the medial epicondyle

sign & symp of supraspinatus tendinitis

gradual onset & may be preceded by strain pain exacerbated by abduction (esp 60-120= painful arc)

talocrural joint

hinge joint located between the talus and the medial malleolus of the tibia, and the lateral malleolus of the fibula

Motor for L1

hip flexors

Motor for L2

hip flexors & adductors

corns

hyperkeratotic lesions found between the toes, usually the fourth and fifth toes; they are extremely painful. Hard corns are associated with hammer or claw toe

treatment of compartment syndrome

ice & myofascial release--> inc venous and lymph return surgical fasciotomy if muscle necrosis develops (w/in 4-8 hrs)

Pelvic side shift test

if sacrum is midline -patient standing -physician stabilizes the shoulders with the right hand and pushes the pelvis to the right with the left hand. -hands are then switched and the pelvis is translated to the left. -positive on the side of freer translation -indicates that the pelvis is shifted to that side. -often seen in a flexion contracture of the iliopsoas (psoas syndrome). -flexion contacture of the right iliopsoas will cause a positive pelvic shift test to the left and vice versa

Hip joint ligaments

iliofemoral lig ischiofemoral lig pubofemoral lig capitis femoris

primary flexor of the hip

iliopsoas

innominate

ilium, ischium, pubis bones fuse at 20

patello-femoral syndrome pathophysiology

imbalance of the musculature of the quadriceps (strong vastus lateralis and weak vastus medialis) -->cause patella to deviate latly & lead to irregular or accelerated wearing on the post surface of the patella - thought to be related to a larger Q angle

Cranial manipulation purpose

improve para fxn in head structures innervated by CN III, VII, IX, X

when will lumbosacral spring test be positive

in all dys in which sacral base moves (is stuck) posterior (unilateral sacral extension, sacral margin posterior, sacral base posterior and when the sacrum rotates backward on an oblique axis)

genu valgum

inc Q angle pt appear knocked-kneed

CV4

inc amplitude of CRI

Factors that inc ECF-->lymph capillary

inc arterial cap pressure dec plasma colloidal osmotic pressure inc protein in interstitium inc cap perm Due to OMT: CT movement fluid fluctatations

isometric contraction

inc in tension, no "approximaion" origin & insert operator force = pt force

sign & symp for Psoas syndrome

inc pain when stand/walk, pos thomas test, tender poind med to ASIS, ***T2 dys of L1/2***, pos pelvic shift test to the contra side, sacral dys on oblique axis, contralateral piriformis spasm

cervical foraminal stenosis sign & symptoms

inc pain with extension, + Spurling, cervical tenderpoints

signs/symp of Spondylolisthesis

inc pain with extension-based activities tight hamstrings b/l stiffed-legged, short-stride, waddling type gait no neuro deficits pos vert step off sign

treatment for elderly

indirece, gentle direct (articulatory)

acute neck strain/sprain treatment

indirect

Treat first for acute injury to cervical spine

indirect fascial techniues or counterstrain

Facilitated Positional Release

indirect myofascial release treatment Schiowitz placed into a neutral position in all planes, activating force (compression or torsion) is added, takes 3-4 seconds to induce a release used to treat: 1. Superficial muscles 2. Deep intervertebral muscles to influence vertebral motion

counterstrain D/I, A/

indirect, passive

ASIS & PSIS more inf ipsi pubic rami inf ipsi long leg ipsi pos standing flex ipsi ASIS restricted to compression ipsi

inferior innominate shear

Pathogenesis of Bicipital tenosynovitis

inflammation of the tendon and its sheath of the long head of biceps usually due to overuse, combined with physiological wear & tear, leading to adhesions that bind tendon to bicipital groove ALso from subluxation of bicepital tendon out of bicip groove

muscles in thenar eminence

innervated by median nerve (except adductor pollicis brevis--ulnar)

muacles in the hypothenar eminence and interossi

innervated by ulnar n

Innominate outflare

innominate rotate laterally

Innominate inflares

innominate rotate medially

inferior transverse axis of sacrum

innominate rotation, duing walking cycle, also where ant/post somatic dys happens

ant neck triangle contents

internal jugular, carotid & branches, ansa cervicalis, thyroid, CNX-XII, submandibular gland, facial & lingual a&v, nerve to myelohyoid, submental lns

lumbosacral angle

intersection of horizontal line & line of inclination of sacrum =25-35 decrees inc cause stress--> low back pain

Type I supination sprain

involves the anterior talofibular ligament

Type II supination sprain

involves the anterior talofibular ligament and the calcaneofibular ligament

Type III supination sprain

involves the anterior talofibular ligament, calcaneofibular ligament and the posterior talofibular ligament

Joints of Lushka

joint where uncinate processes (edges of vert body that are tiped up; on C3-7) meets sup vert body limit SB degeneration cuases intervertebral foramina stenosis--> most common cause of cervical nerve root compression

Legg-Calve-Perthes disease

juvenile idiopathic avascular necrosis of the femoral head. The onset is insidious taking weeks to months, which does not fit the case history.

Motor for L3

knee extensors

Sensation for C8

little finger and middle forearm

majority of lymph produced by

liver & intestines

contraindication for sacral inhibition

local infections or incisions

viscero-somatic reflex

localized visceral stimuli produce patterns of reflex response, in segmentally relatedsomaticstructures

lower back & lower leg

location of pain from herniated nucleus pulposus

anterior thoracic tenderpoints

location: T1-6 midline sternum at corresponding rib attachment T7-12 in rectus abdominis 1in lateral to midline R/L treatment: flex & SB&Rot away

anterior cervical tenderpoints

location: ant to lateral masses treatment position: SB & rot pt head away Maverick Point: 7th cervical -location 2-3cm lat to med end of clavicle at lat attachment of SCM -treat: flex, SB toward, Rot away

posterior thoracic tenderpoints

location: either side of sp or on tp treat: extend, rot away, SB away

Posterior cervical tenderpoints

location: tip of sp or lateral sides of sp treat: extend, SB, rot away Maverick Point: Inion -location: at inion or just below -treat: flexion

Indications for articularoty techniques

loss of motion need to inc frequency or amplitude of a motion (breathig) need to normalize sympathetics

pain for Psoas syndrome

low back sometimes radiating to groin ache, muscle spasm

pain from spinal stenosis

low back to low leg (s) ache, shooting pain or paresthesias

pain in Spondylolisthesis

low back, buttock, & post thigh ache

cauda equina syndrome pain

low back, sharp

contraindications for ME

low vitality pt who can be compromised by active muscle exertion (post surgical pt, ICU pt)

location of pain from herniated nucleus pulposus

lower back & lower leg

key rib in inhale dys

lowest one in group

facet trophism

lumbar facet joints more closely aligned to coronal plane than saggital most common anomaly in lumbar spine may predispose to early degenerative disease

what to treat first for psoas syndrome

lumbar spine or thoraco-lumbar spine

Ferguson's angle

lumbosacral angle

sibson's fascia

made up of CT of scalenes & longus colli muscles traversed by lymphatic ducts

facilitation

maintenance of a pool of neurons in a state of partial or sub-threshold excitation--> less stimulation is required to trigger the discharge of impulses

primary pelvic muscles

make up pelvic diaphragm -levator ani -coccygeous muscles

congenital scoliosis

malformation of vert progressive

treat vagus

manipulation OA, AA, or C2--> para--> vagus

sternoclavicular joint

manubrium--clavicle

ME for R10-12 exhalation dys

many variations Treatment Position: Supine Key Rib: Top Rib in Group Target muscle: 10-11: latissimus dorsi & 12: quadratus lumborum 1. The patient is instructed to place the hand on forehead on affected side with the palm up. 2. The physician grasps the key rib posteriorly at the rib angle. 3. The patient is instructed to inhale deeply while the physician applies an inferior traction on the rib angle. 4. The patient is instructed to hold his breath at full inhalation while adducting arm for 3-5 seconds. 5. Repeat step 4 a total of 3-5 times and then retest.

ME for R1 exhalation dys

many variations Treatment Position: Supine Key Rib: Top Rib in Group Target muscle: ant & mid scalenes 1. The patient is instructed to place the hand on forehead on affected side with the palm up. 2. The physician grasps the key rib posteriorly at the rib angle. 3. The patient is instructed to inhale deeply while the physician applies an inferior traction on the rib angle. 4. The patient is instructed to hold his breath at full inhalation while raising head directly toward ceiling for 3-5 seconds 5. Repeat step 4 a total of 3-5 times and then retest.

ME for R3-5 exhalation dys

many variations Treatment Position: Supine Key Rib: Top Rib in Group Target muscle: pectoralis 1. The patient is instructed to place the hand on forehead on affected side with the palm up. 2. The physician grasps the key rib posteriorly at the rib angle. 3. The patient is instructed to inhale deeply while the physician applies an inferior traction on the rib angle. 4. The patient is instructed to hold his breath at full inhalation while pushing elbow of affected side toward the opposite ASIS for 3-5 seconds 5. Repeat step 4 a total of 3-5 times and then retest.

ME for R2 exhalation dys

many variations Treatment Position: Supine Key Rib: Top Rib in Group Target muscle: post scalene 1. The patient is instructed to place the hand on forehead on affected side with the palm up. 2. The physician grasps the key rib posteriorly at the rib angle. 3. The patient is instructed to inhale deeply while the physician applies an inferior traction on the rib angle. 4. The patient is instructed to hold his breath at full inhalation while turning head 30 degrees away from dysfunctional side and lifting head toward ceiling for 3-5 seconds 5. Repeat step 4 a total of 3-5 times and then retest.

ME for R6-9 exhalation dys

many variations Treatment Position: Supine Key Rib: Top Rib in Group Target muscle: serratus anterior 1. The patient is instructed to place the hand on forehead on affected side with the palm up. 2. The physician grasps the key rib posteriorly at the rib angle. 3. The patient is instructed to inhale deeply while the physician applies an inferior traction on the rib angle. 4. The patient is instructed to hold his breath at full inhalation while Pushing arm anterior for 3-5 seconds 5. Repeat step 4 a total of 3-5 times and then retest.

Cobb method

measure scoliosis 1)draw horizontal line from vert body of extreme ends 2) draw perpendiculat lines from these & measure angle (Cobb's)

Cuboid som dys of transverse arch

medial edge will glide toward the plantar surface

Sensation for T1

medial elbow and medial arm

Sensation for L4

medial malleolus

anterior L1 tenderpoint

medial to ASIS patient supine, knees and hips flexed and markedly rotated away

Sensation for L2

middle and anterior thigh

Sensation for C7

middle finger

Cranial Flexion

midline boes of cranium (sphenoid, occiput, ethmoid, vomer) flex & paired bones ext rotate fl EX ion = EXternal rotation cause dura pulled cephalad--> sacral base posterior (ext)= counternutation will widen head & dec AP diameter

Cranial Extension

midline bones (sphenoid, occiput, ethmoid, vomer) ext & paired bones int rotate dura fall caudad--> sacral base anterior (flex)= nutation will narrow head & inc AP diameter

chronic causes low back pain

more common congenital, metabolic, neoplastic, degenerative, mechanical, cauda equina syndrome

anatomical leg length discrepancy

most common cause is hip replacement

Radial nerve injury

most common nerve injured in UE due to direct trauma

Sternoclavicular joint

most common som dys= clavicle ant & sup

dynamic motion of the sacrum

motion that occurs during ambulation engages 2 oblique axes weight bearing on left leg (stepping foward with right leg) cause left sacral axis to be engaged

tibial nerve

motor: hamstrings except short head of biceps femoris, most plantar flexors, and toe flexors sensory: lower leg & plantar aspect of foot

femoral nerve

motor: quads, iliacus, sartorius, pectineus sensory: ant thigh and med leg

pathogenesis of herniated nucleus pulposus

narrow of post long lig posteriolateral herniation of intervertebral disc is common problem 98% herniations occur btwn L4&5 or L5&S1 Exerts pressure on nerve root of vert below

lumbar more disc herniations bc

narrowing of post longitudinal lig--> weaken posteriolat aspect of the intervertebral disc

spinal stenosis

narrowing of spinal canal or intervertebral foramina usually due to degenerative changes, causing pressure on nerve roots

transverse arch

navicular, cuneiforms, and cuboid where som dys usually happen--> nav, cub, or cun displace--> pain (long distance runners)

pain for TOS

neck pain or pain radiating to arm ache or paresthesias

cervical foraminal stenosis pain

neck pain radiating to upper extremitiy dull ache, shooting pain/pareshesias

diagnosis of carpal tunnel

nerve conduction studies/electromyography

brachial plex injuries

nerves of brachial plex suceptible to traction injury esp in childbirth

spina bifida occulta

no herniation only sign is patch of hair

C1

no spinous process no vertebral body

1st degree grade of sprains

no tear resulting in good tensile strength and no laxity

Nutation

nod/foward

celiac gang, sup mes, inf mes releases

normalize symp Midline abdominal pressure over the celiac, superior mesenteric, and/or inferior mesenteric ganglia will reduce hypersympathetic activity. Pressure is applied until a fascial release is palpable

Soft tissue paraspinal inhibition

normalize symp (prevent ileus) direct paraspinai pressure ontheerectorspinaemassproducesthesameautonomiceffectsasribraising

L3-5 SNS

nothing

quality of pain from herniated nucleus pulposus

numbness/tingling accompanied by sharp, burning, shooting pain radiating down leg worsen with flex of lumbar spine

sacral flexion

nutation

OA motion

occipital condyles of skull -- atlaas 50% of neck flex/ext Like T1 in Flex/Ext

anterior L2-4 tenderpoint

on AIIS patient supine, knees and hips flexed and markedly rotated away

colon chapman

on lat thigh in IT band from greater trochanter to just above knee

sacralization

one or both of TP of L5 are long and articulate with sacrum 3.5% of people may lead to early disc degeneration

course of R thoracic duct

only traverses the thoracic inlet once usually drains into the right brachiocephalic vein or the junction of the right internal jugular and subclavian veins

venous sinus technique

operator gently, but directly spreads apart the sutures of the cranium that overly the occipital, transverse and sagittal sinuses. supposed to inc venous flow

extensors of wrist & hand

originate at lateral epicondyle of humerus innervated by radial nerve

flexors of wrist & hand

originate on med epicondyle of humerus innervated by median nerve (except flexor carpi ulnaris--ulnar)

contraindications for lymph treatment

osseous fractures bact infect with temp > 102 abscess or localized infect stages of carcinoma

Korr

osteopathic researcher established there is hypersymp activity in disease process

Contra for HVLA

ostroporosis/met cancer--> fracture

CN IX PNS

otic gang--> parotid gland (medulla)

dura mater

outermost, thick, inelastic forms falx and tentorium projects caudally down cord with firm attachement to foramen magnum, C2, C3, & S2

pain in lateral epicondylitis

over lat epicondyle that worsend with wrist exension against resistance may radiate to lat aspect of aarm & forearm

pathogenesis of medial epicondylitis

overuse of forearm flexors and protonators

Treatment of acute congestive heart failure

oxygen and IV furosemide. Nitroglycerine, which also can be used, is a venodilator that can potentiate the effect of furosemide. Other agents include morphine (reduces anxiety and dilates pulmonary and systemic veins 34p,2°) and nitroprusside (a useful adjunct in the treatment of CHF due to acute valvular regurgitation or hypertension).

low back sometimes radiating to groin ache, muscle spasm

pain for Psoas syndrome

low back to low leg (s) ache, shooting pain or paresthesias

pain from spinal stenosis

low back, buttock, & post thigh ache

pain in Spondylolisthesis

pain for adhesive capsulitis/Frozen shoulder syndrome

pain present at end of ROM ant pt of shoulder

technique to treat sympathetic tone associated with an ileus

paraspinal inhibition at L1/2

pain in carpa tunnel synd

paresthsias on thumb and first 2.5 digits

2nd degree grade of sprains

partial tear resulting in a decreased tensile strength with mild to moderate laxity

subclavian v

pass ant to ant sclene--> contract of scalene doesnt compromise becomes axillary a

subclavian a

pass btwn ant & middle scalenes --> contraction of scalenes can cause compromise

inferior innominate shear dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

counterstrain

passive indirect tissue positioned at point of ease for 90 seconds Jones

HVLA Mechanism

passive, direct technique Theory #1 - forcefully stretch a contracted muscle producing a barrage of afferent impulses from the muscle spindles to the CNS--> reflexively sends inhibitory impulses to the muscle spindle to relax Theory #2 -forcefully stretch the contracted muscle pulling on it's tendon activiating the Golgi tendon receptors and reflexively relaxing the muscle

L4 DTR

patella reflex

Ped vs geriatric treatment frequency

ped more frequnt, geri longer time to respond

bladder chapman

periumbilical region

main motions of the ankle

plantar flexion and dorsiflexion

supination of ankle

plantarflexion, inversion, & adduction***

Normal posture

plum line: post to apex through ext aud meat through cerv through shoulder through lumber post to hip axis ant to knee axis ant to lat mall

Right on right dynamic findings

pos seated flex on L spring at L base present spring in R ILA restricted spring at poles of oblique axis restricted neg lumbosacral spring test L5 SB R, Rot L

unilateral sacral extension on the R dynamic findings

pos seated flex on L spring at L sulcus restricted spring at L ILA present pos lumbosacral spring pos backward bending test

unilateral sacral extension on the L dynamic findings

pos seated flex on R spring at R sulcus restricted spring at R ILA present pos lumbosacral spring pos backward bending test

left on left dynamic findings

pos seated flex on R spring of R base present spring of L ILA restricted spring at poles of L oblique restricted neg lumbosacral spring test L5 SB L Rot R

unilateral sacral flexion on the right dynamic findings

pos seated flex test on L spring at L sulcus present spring at L ILA restricted

left on right dynamic findings

pos seated flex test on L sspring at the L base restricted spring at R ILA is present spring at poles of R oblique axis is restricted pos lumbosacral spring test' pos backward bending test L5 flex/ext, SB R Rot R

right on left dynamic findins

pos seated flex test on R spring at R base restricted spring at L ILA present spring at poles of left oblique axis restricted pos lumbosacral spring test pos backward bending test L5 will be flexed or extended (noneutral), SB L, Rot L

unilateral sacral flexion on the left dynamic findings

pos seated flex test on R spring at R sulcus present spring at R ILA restricted

Inferior pubic shear dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

Innominate inflares dynamic finding

pos standing flex ipsi ASIS restricted to compression ipsi

Innominate outflare dynamic findings

pos standing flex ipsi ASIS restricted to compression ipsi

cauda equina syndrome

pressure on nerve roots of cauda equina usually due to massive central disc herniation

lateral stabilizers of the ankle

prevent excessive supination ant talofibular lig calcaneofibular lig post talofibular lig

treatment for adhesive capsulitis/Frozen shoulder syndrme

prevention early mobilization following shoulder injury essential, injection steroids & NSAIDs OMT, esp spencer techniques Also GH & upper thoracic

etiology of adhesive capsulitis/Frozen shoulder syndrome

prolonged immobility of shoulder

Pathogenesis of Psoas syndrome

prolonged position that shortend Organic causes from viscero-somaic/somato-somatic reflexes: appendicitis, sigmoid colon dys, ureteral calculi, ureter dys, met carcinoma of prostate, salpingitis

protonators of forearm

protonator teres & protonator quadratus median nerve

anterior fibular head dys

prox fibular head resists posterior spring distal fibula may be posterior talus externally rotated causing foot to evert & dorsiflex

posterior fibular head dys

proximal fibular head resists ant spring distal fibula may be ant and resist post spring talus int rotated causing foot to invert & plantarflex

hammer toes

proximal interphalangeal (PIP) joint is hyperflexed. Typically there is an obvious deformity and the patient may have pain at the PIP when wearing shoes

epidemioloy of adhesive capsulitis/Frozen shoulder syndrome

pt over 40

primary extensor of the knee

quadriceps

numbness/tingling accompanied by sharp, burning, shooting pain radiating down leg worsen with flex of lumbar spine

quality of pain from herniated nucleus pulposus

Drop-wrist deformity

radial nerve damage--> paralysis of extensor muscles

humeral fractures

radial nerve injured as it travels within the spinal groove typically result in wrist drop & triceps weakness (depending on location of injury)

saturday night palsy

radial nerve injury caused by compression of the nerve against the humerus ad teh arm is draped over the back of a chair during intoxication or deep sleep

crutch palsy

radial nerve injury in axilla from direct pressure, caused by improper use of crutches

treatment for Decreased diaphragmatic excursion Lymphatic congestion

redome dia- Increase thoracoabdominal diaphragm excursion improving respiration and improve lymph return. Pelvic Diaphragm Release- Improve pelvic diaphragm excursion and improve lymph return

stuctural scoliosis

relatively fixed inflexible will not correct w SB in opposite direction assoc w vert wedging and shortened ligs & muscles on concave side

contraindications to articulatory techniques

repeaded hyper-rotation of upper cer spine when positioned in extension can cause damage to vert a acute inflam joint esp where cause of inflam may be from infection or fracuteq

4 types of sacral motion

respiratory inherent (craniosacral) postural dynamic

superior transverse axis of sacrum

respiratory & inherent (craniosacral) motion

treatment for bicipital tenosynovitis

rest & ice for acute for severe: injection with lidocaine or stroids OMT free up restrictions in GH area & myofascial release

treatment for supraspinatus tendinitis

rest, ice, NSAIDs for acute for severe: sling & injection with lidocaine or steroids OMT to shoulder, upper thoracic, & ribs--> inc motion, loosen fascia--> expidate healing

treatment of rotator cuff tear

rest, ice, NSAIDs for minor acute OMT free restrictions of GH, clavicle, upper thoracic, & ribs surgery req for complete avulsion

Goal of myofascial release

restore tissue balance improve lymph flow

what to treat first for cervical spine

ribs and upper thoracic spine

R UE lymph drains into

right (minor) duct

R sulcus shallow L ILA ant and slightly sup lumber curve convex to the R pos seated flex test on R spring at R base restricted spring at L ILA present spring at poles of left oblique axis restricted pos lumbosacral spring test pos backward bending test L5 will be flexed or extended (noneutral), SB L, Rot L

right on left

Backward sacral torsion

right on left left on right

drain into R lymphatic duct

right upper extremity, the right hemicranium (including the head and face), and the heart and the lobes of the lung (except the left upper lobe)

scoliosis

rotoscoliosis any SB induces rot appreciable deviation from normal vert line

atlanto-axial subluvation

rupture of transverse lig--> neuro damage (death) more likely with Down's and RA

counternutation

sacral extension

sacral torsion

sacral rotation about oblique axis along with somatic dys at L5

accessory pelvic ligs

sacrotuberous lig sacrospinous lig Iliolumbar lig

signs & symp of cauda equina syndrome

saddle anesthesi, dec deep tendon reflexes, dec rectal sphincter tone, loss of bowel & bladder control

pain, signs, & treatment from medial epicondylitis

same for tennis elbow but directed at the med epicondyle

ME for L3 E RSr

same steps as lower thoracic (osteo salute)

most common complication

soreness vertebral artery injury low back: cauda equina synd

Compression of SBS

sphen & occip pushed together--> ***dec in amplitude of flex & ext of CRI can obliterate the CRI due to trauma to back of head***

Torsion of SBS

sphenoid & ant cranium rotate ("rotate" on coronal plane... so actually SB) in one direction on AP axis occiput & post cranium rot in opposite direction named for greater wing of sphenoid that is more superior (so "L rotation" = is really R SB when viewing cranium postly)

Vertical strain of SBS

sphenoid dev cephalad or caudad flex/ext about 2 transverse axes (one in center of sphenoid & other superior to occiput) in opposite directions (one is stuck up)

Lateral strain of SBS

sphenoid dev laterally in relation to cciput Rot around 2 vertical axes (one through center of sphenoid and other through foramen magnum) sphen dev L= L lat strain--> if sphen rots one way, occip will rot other way (unlike a SB/Rot dys)

CN VII PNS

sphenopalatine gang--> lacrimal & nasal glands submandibular gang--> submandibular & sublingual glands (pons)

erector spinae group

spinalis, longissimus, iliocostalis

what to treat first for extremities

spine, sacrum, & ribs/askial skeleton

treatment of carpal tunnel synd

splints, NSAIDs, steroid inject surgery indicated if tretmetn fails OMT: rib & upper thorax to des symp tone; treat cervical dys & myofascial restrictions to enhance brachial plex fxn; direct release technique to inc space in tunnel

treatment of trigger point

spray and stretch using vapocoolant spray injection with local anesthetic ME, MFR, recip inhib

palpatory model for sacral torsions

spring test spring restricted over poles of oblique axis pos for post

clavicle sup & lat on acromion findings

step off at AC clavicle resist inf glide at AC tenderness over AC

factors that dec CRI

stress depression chronic fatigue chronic infections

2 types of scoliosis

structural & functional

clavicle

strut for upper limb to allow max freedom of motion as well as transmit forces from UE to ax skeleton only bone connecting the UE to ax spine

Sensation for C4

superior aspect of shoulder

ASIS & PSIS more sup ipsi pubic rami sup ipsi shorter leg ipsi pos standing flex ipsi ASIS restricted to compression ipsi

superior innominate shear

sacral sulci

superior lateral part of sacrum recorded as post/shallow or ant/deep in dys

ASIS appear level PSIS appear level pubic bone sup ipsi pos standing flex ipsi ASIS restricted to compression ipsi

superior pubic shear

Sensation for C3

supraclavicular fossa

sign & symp of rotator cuff tear

supraspinatus tears, weakness in active abduction is often present alsong with a pos drop arm test atrophy common

treatment of severe scoliosis

surgery often indicated if resp conpromise or if progess quickly despite conservative management

tibiofibular joint

synovial composed of the lateral aspect of the prox tibia and prox fibular head movement occurs with protonation & supination of foot

factors that inc interstitial pressure above 0mmHg

systemic HTN cirrhosis (dec plasma protein synthesis) hypoalbuminemia assoc with starvation toxins such as rattlesnake poisoin

medial longitudinal arch

talus, navicular, cuneiforms, 1st to 3rd metatarsals.

rotator cuff tear

tear at insertion of one of rotator cuff tendons, usually supraspinatus Minor tears of cuff common complete tear can occur resulting in retraction of the affected muscle and sharp shoulder pain

Sensation for C2

temple and occipital area

signs & symp of lateral epicondylitis

tenderness at lat epicondyle or just distal, worsens with activity

pain from rotator cuff tear

tenderness just below tip acromion transient, sharp pain in shoulder followed by steady aceh that may last for days often pt will have pain for months, esp at night

compression fracture findings

tenderness to percussion on SP & confirmed on Xray

pain supraspinatus tendinitis

tenderness, esp at tip of acromion gradual onset & may be preceded by strain pain exacerbated by abduction (esp 60-120= painful arc) chronic tendinits may lead to calcification of tendon

Travell's myofascial trigger points

tenderpoint that can give rise to referred pain a trigger point represents the somatic manifestation of a viscero-somatic, somato-visceral or somato-somatic reflex

lateral epicondylitis

tennis elbow strain of extensor muscles of forearm near lateral epicondyle

diaphragms of body

tentorium cerebelli thoracic inlet ab dia pelvic dia

Kirksville crunch

thoracic HVLA corrective thrust is directed at the vertebrae below the dysfunctional segment thrust is aimed 45° cephalad. neutral lesion is treated the same way as a flexed dysfunction, however SB the patient away from you. A purely flexed or extended lesion (no rotation or sidebending) is treated using roughly the same position, except the physician will use a bilateral fulcrum (thenar eminence under one transverse process and a flexed MCP under the other transverse process). Ribs 2-10 can also be treated using the Kirksville Krunch. The difference is that the physician's thenar eminence is under the posterior rib angle of the "key" rib.

treatment for Lymphatic congestion Chest congestion Fever Infection

thoracic pump- Augment thoracic range of motion and affect intrathoracic pressure gradients, improving lymphatic return contra: osteoporosis

what to treat first for rib dys

thoractic spine

lymphoid tissue not connected to lymphatics

thyroid, esophagus and the coronary and triangular ligaments of the liver bypass lymphoid tissue and drain directly into the thoracic duct

posterior innominate rot etiology

tight hamstrings

ant innominate rot etiology

tight quads

Drop arm test

to detect tear in rotator cuff -abduct the shoulder to 90°, and then to slowly lower the arm. -positive test results if the patient cannot lower the arm smoothly, or if the arm drops to the side from 90°

Motor for L5

toe extensors

sacral base

top part of sacrum In somatic dys, can be recorded as shallow/post or deep/ant

Axis and plane for flex/ext

transverse sagittal

etiology of rotator cuff tear

trauma

Inferior pubic shear etiology

trauma or tight adductors

superior pubic shear etiology

trauma or tight rectus ab muscle

course of L thoracic duct

traverses Sibson's fascia of the thoracic-inlet up to the level of C7 before turning around and emptying drains into the junction of the left internal jugular and subclavian veins

what to treat first for acute somatic dys

treat peripheral areas (allow access to acute area

dec restrictions & inc ROM--> PT, NSAIDs/low dose steroids; if doesnt work--> epidural--> laminectomy with decompression

treatment for spinal stenosis

DTR for C7

triceps reflex

Crossed extensor reflex

uses the crossed extensor reflex to achieve muscle relaxation typically used in extremities that are so severely injured or not accessable that direct manipulation is impossible. (contraction of the right biceps produces relaxation of the left biceps and contraction of the left triceps)

Respiratory assistance

uses the patient's voluntary respiratory motion to restore normal motion. Most inhalation rib dysfunctions are treated in this fashion.

Cuneiforms som dys of transverse arch

usually caused by the second cuneiform gliding directly downward, toward the plantar surface

compartment syndrome

usually from trauma or vigorous overuse--> inc in intracompartmental pressure--> will compromise circulation within that compartment

OA, AA, & C2 dys can cause

vagal somatic dys

Sensation for C1

vertex of skull

axis and plane for rotation

vertical and transverse

Measuring scoliosis

via x-ray with Cobb method

factors that inc CRI

vigorous physical exercise systemic fever after OMT to cranial sacral mechanism

Indications for rib raising

visceral dys dec rib excursion lymph congest fever paraspinal muscle spasm

signs & symp from herniated nucleus pulposus

weakness & dec reflexes associated with affected nerve root sensory deficit over corresponding dermatome pos straight leg raise test

signs & symp of carpal tunnel synd

weakness and atrophy usually appear late on exam, symp reproduced by tinel's, phalen, & prayer tests

winging of scapula

weakness of ant serratus muscle due to long thoracic nerve injury evident if scapula protrudes postly while pt pushing on wall

coxa vara

when angle of head of femur is <120

coxa valga

when angle of head of femur is >135


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