Occlusion Test 1
Crossover displays extended lateral movements that smoothly transfer occlusal contact from the ______ to the ______
Canine to incisors
Central Pain
Caused by tumor/CNS disturbance Pain felt in peripheral structures w/ systemic conditions (nausea, balance disorders)
Ideal tooth contact results in a resultant vector of force that is received by which muscles?
Temporalis masseter medial pterygoid
orofacial pain -list the acute types -list the chronic types
acute -protective co-contraction -local muscle soreness -myospasm -myofacial pain chronic -myofacial pain -centrally mediated myalgia -fibromyalgia
Posterior digastric fxn
depresses Mn
Suffering
how individuals react to the perception of pain
Describe the Manipulation of the Superior Lateral Pterygoid M
pt bites on tongue blade bilaterally overstretches m fibers painful if muscle soreness
Central excitatory effect -clinical manifestation if afferent neurons are involved
*referred pain reported* stimulating site of pain --> no effect stimulating source of pain --> ↑pain LA block at source --> eliminates pain at site + source
Projected Pain
Neurologic disturbance --> pain to peripheral distribution of same nerve (Nerve entrapment)
5 major factors of TMD etiology
Occlusal Emotional stress Deep pain Parafunction Trauma pt ADAPTABILITY = key
Describe the Manipulation of the inferior Lateral pterygoid
Pt protrudes against resistance - pain/burning = muscle fatigue
Temporalis fxn
elevation + Retraction
Meniscus
fibrocartilage crescent wedge attached to 1 side of the articular capsule + unattached on the other
Protective Co-Contracting
normal CNS response to injury --> alters fxn to protect injured area LA block at *source* --> removes pain at site/source
Fxn of masseter
slight protrusion + elevation deep fibers stabilize the condyle against the articular eminence
Fibromyalgia
widespread musculoskeletal pain w/ tenderness in 11/18 specific tender point sites throughout the body pain in 3/4 quadrants of the body lasts >3mon
left lateral movement -working side -balancing/non-working side
working = left side of arch balancing/non-working = right side
partially stretched muscle spindles results in
↓stretch needed to elicit a reflex action ↑muscle tonicity ↑muscle fatigue ↑tonicity - ↑inter-articular P of TMJ
Sleep cycle
4 stages non-REM --> REM non-REM -stage 1 = α wave -stage 2 = α wave -stage 3 = Δ wave -stage 4 = Δ wave
Normal sleep cycle is _______ min Most pts average ________ sleep cycles/night
60-90min 4-6 sleep cycles/night
TMJ Innervation
75% = auriculotemporal additional = deep temporal + masseteric (V3 branches)
Group function articulation
>/= 1 posterior teeth + some anterior teeth, are in some contact during the complete extent of lateral movement Secondary occlusal scheme/most practical approach More common in older pts
Ideal occlusion is when ____ + ____ occur smultaneously
CR + MI
The _________ ligament allows anterior/posterior movement of the condyle + rotation of the disc in the condyle
Collateral discal ligaments
the _______ ligament is responsible for hinge opening of the TMJ b/w condyle + disc the position of the ______ ligament limits pure hinge axis rotation
Collateral discal ligaments TM ligament
Temporomandibular ligament -inner horizontal portion fxn -outer oblique portion fxn
IHP = limits condyle + disc posterior movement OOP = limits rotational opening
Collateral Discal ligaments -list -characteristics
Medial discal ligament + lateral discal ligament True ligaments - collagenous CT doesn't stretch vascular + N supply
The myotactic jaw reflex (myotactic stretch reflex) maintains
Muscle tone + resting position of the jaw
The bite plane of the deprogrammer must be positioned
Perpendicular to the long axis of Mn teeth
TMJ Vascular supply
Posterior = superficial temporal A Anteriorly = middle meningeal A Inferiorly = internal maxillary A Other = deep auricular, anterior tympanic + ascending pharyngeal A
mutually protected occlusion
Posteriors accept heavy forces through their long axis (vertical force) closer to fulcrum -protects anteriors (labial inclination) during closure anteriors favor eccentric Mn excursions -protects posteriors by guiding Mn in excursions receiving lateral forces
List the muscle of mastication elevators
Pterygomasseteric sling masseter medial pterygoid
80% pts awakened during ______ will remember dreams
REM
Capsular ligament limits what movement?
Rotation translation posterior movement
80% of Lateral pterygoid muscle fibers are?
Slow Twitch Type 1 Muscle Fibers
TMD Predisposition regarding -steepness of articular eminence -condyle fossa morphology -joint laxity
Steeper eminence = more rotation = ↑ risk of ligament elongation flat condyles = more vulnerable joint laxity (↑ Estrogen) = ↑TMJ clicking
List the accessory ligaments supporting the TMJ + Mn. What is their fxn?
Stylomandibular ligament - limits excessive Mn protrusion sphenomandibular ligament - slightly limits lateral Mn movement
The TMJ is divided into what 2 systems? What is their fxn?
Superior = Condyle disc complex functioning against the Mn fossa -fxn = *Translation* (free sliding movement) Inferior = Condyle disc complex -fxn = *Rotation*
Central excitatory effect -clinical manifestation if autonomic neurons are involved
Variations of BF blanching reddening of tissue puffy/dry eyelids stuffy/runny nose
Ideal tooth contact relationships requires what? What is the resultant vector of force/most efficient direction of power stroke
adequate Mx overlap w/ Mn occlusal forces exerted down the long axis of posterior teeth All Mx/Mn teeth w/ simultaneous contact -posteriors dominate over anteriors -anteriors have "passive" contact
What causes referred ear pain w/ inflammation of the retrodiscal tissue
anterior wall of bony portion of ear canal = thin
The ________ guides all Mn movement
articular eminence angle (steep/flat)
List the types of heterotopic pain
central pain projected pain referred pain
Capsular ligament
contains the condyle + synovial fluid in the glenoid fossa OOP + IHP reinforces the lateral aspect
List the types of macrotrauma
direct trauma -open mouth -closed mouth indirect trauma -whiplash
Lateral pterygoid - superior head fxn
eccentric contraction w/ closing progressively active w/ Mn closing
Macrotrauma to TMJ -indirect (whiplash)
eccentric m contraction --> sudden/forced m lengthening --> condyles forced excessively forward
Signs of bruxism
excessive tooth wear, mobility, + fracture scalloped tongue/ridge mucosa masseter + temporalis hypertrophy wide PDL
Crossover
extreme Mn lateral movement when the Mn Cn's cusp tip "crosses over" Mx Cn's cusp tip while maintaining tooth contact b/w the Mx + Mn arch outside normal envelope of fxn critical to success of anterior restorations
The medial pole of the Mn fossa serves as a stop for?
force of elevator muscles (especially medial force of medial pterygoid)
In microtrauma - small, excessive loading forces --> ______ + _____
fragmentation of collagen fibers + chondromalacia
Functional forces v parafunctional forces regarding -influence of protective reflexes -pathologic effects
functional -protective reflexes present -unlikely pathologic effects parafunctional -obtunded protective reflexes -pathologic effects likely
Functional activity v parafunctional activity regarding -direction of force -Mn position -Type of muscle contraction
functional -vertical force -Centric occlusion -Isotonic Parafunctional -horizontal force -eccentric movements -Isometric
The _____, _____, + _____ are primarily responsible for a pt's emotional stage
hypothalamus reticular system limbic system
Pain behavior
individual's audible + visible actions to communicate his/her suffering to others
Most Mn movement occurs in the temporomandibular's disc _______ + _______ region
intermediate zone (thinnest) + anterior region
Myospasm (Tonic contraction myalgia)
involuntary CNS induced tonic muscle contraction - sudden shortening of a muscle
Chronic pain
lasts longer than healing + has no protective value!! destructive to the human spirit + quality of Life
Slow Twitch Type 1 Muscle Fibers
light resistance work aimed at muscular endurance ↑mitochondrial + vascular content + ↑[myoglobin] Resistant to fatigue May brace the condyle for long period of time w/o difficulty
______ is the most common muscle pain seen by dentists
local muscle soreness
Trigger point
localized area in m tissue/tendinous attachment felt as painful taut bands
Masticatory system -major fxns -secondary fxns
major -mastication -swallowing -speech secondary -aids respiration -aids emotion expression
Macrotrauma to TMJ -direct closed mouth
may cause adhesions due to altered articular surfaces
medial discal ligament v lateral discal ligament
medial = attaches medial edge of disc w/ medial pole lateral = attaches lateral edge of disc to lateral pole
Medial pole of the fossa allows ______ The lateral pole of the fossa must ________
medial pole = rotation in a fixed axis while not being parallel lateral pole = translates while the medial pole rotates
articular disc v meniscus
meniscus -extends freely into joint spaces -does NOT divide a joint cavity - isolating the synovial fluid -*passive fxn* to facilitate movement b/w bony parts -does NOT serve as a determinant of joint movement
Descending inhibitory system
modulates impulses (pain) to the cortex by assisting the brainstem in suppressing this input (5HT) important mechanisms for pain modulation
Polysomnogram
monitors brain activity, skeletal muscle activation, eye movement and heart rhythm during sleep
Macrotrauma to TMJ -Direct open mouth
most dangerous condyle suddenly displaced from fossa
Centric Relation
most orthopedically stable TMJ position = condyles in the articular fossa are in their most superior anterior position w/ disc properly interposed
Local Muscle Soreness (non-inflammatory myalgia)
muscle's 1st response to continued protective Co-contraction represents a change in local m environment due to excessive muscle use/direct tissue damage by IA block
Central excitatory effect
neurons carrying nociceptive input to CNS --> stimulates other interneurons either by.... -NT accumulation + spillage to other neurons -convergence of neurons on 1 synapse - can't localize pain continuous deep pain --> excites unassociated neurons
Central Pattern Generator
neurons controlling rhythmic m activity (breathing/walking/chewing) precise timing b/w antagonistic m feedback from PDL, tongue, lips, + teeth
Leaf gauge
occlusal stop in anterior section to give a fulcrum effect removed until 1st contact obtained
Heterotopic pain
occurs in an abnormal anatomic position (source = deep structures, not skin/gingiva)
Myotactic Jaw Reflect (myotactic stretch reflex)
only monosynaptic jaw reflex maintains m tone + resting jaw position protects masticatory system from sudden m stretching maintains stability of musculoskeletal system w/ muscle tonicity SoRTS
Myospasm -clinical characteristics
pain at rest increased pain w/ fxn tenderness to palpation muscle tightness structural dysfxn in occlusion
The articular surface of the _____ condyle is > ______ condyle. The _________ condylar head has most of the articulation b/w the condylar head, articular disc, + fossa
posterior condyle > anterior condyle anterior condylar head
The ______ border of the articular disc is thicker v the ______ border
posterior is thicker
TMJ's nociceptive reflex
protective Polysynaptic reflex to noxious stimuli (*sudden + heavy functional forces*) sudden tooth overload --> antagonistic inhibition
Central excitatory effect -clinical manifestation if efferent neurons are involved
protective co-contraction reported
Acute pain
provides protection from environment (nociceptive reflex) basic to survival!!!
What happens when CR does not coincide w/ MI/ICP/CO
pts have a slide MI = endpoint of the slide 1st occlusal contact in CR (>/= 2 posterior teeth) --> continued closure --> slides on posterior's inclines condyles are more anterior, superior, + lateral than ideal
Clinical rules for referred pain in H+N
rarely crosses the midline (unless origin is in the midline) lamination (M to M, incisors to incisors)
Myofacial Pain (Trigger point myalgia)
regional myalgic pain local areas of firm, hypersensitive bands of m tissue (Trigger points)
Anterior deprogrammer
relaxes muscles to capture the best CR record inhibits posterior tooth contact elevator muscles guide condyles to CR
Muscle contractile activity is controlled by what?
release + rapid Ca absorption stored in the SR AP --> CA release damage to SR w/ CA spillage --> sustained contraction as long as ATP is available
Non-REM fxn
restores body system fxns (RNA, proteins, NT, vital macromolecules) Physical rest
REM fxn
restores fxn in brainstem + cerebral cortex emotions are dealt + smoothed out Psychic rest
Protective Co-Contracting -clinical manifestations
restricted Mn movement secondary to pain Range of motion = almost normal, slow opening No pain at rest muscle weakness - tire quickly w/ chewing
Bruxism in children
self-limiting not associated to ↑bruxism risk in adulthood
Referred Pain
sensations felt not w/ involved nerve but in other branches/different nerve
Suggested cause of trigger points
sensitization of N endings by algogenic substances
Chondromalacia
softening of the articular surface
Source of pain v site of pain
source = actual origin site = where pt feels pain
Primary pain
source = site ex = toothache
Central excitatory effect -key symptoms
symptoms = unilateral (dry eye on 1 side)
Medial pterygoid fxn
unilateral contraction mediotrusive action + protrusion
Pain
unpleasant sensory + emotional experience associated w/ actual/potential tissue damage
CR axial loading occurs when?
when cusp tip to flat surface (fossa/marginal ridge) = perpendicular to long axis OR when cusp tip contacts 3 points in opposing fossa
