Occlusion Flashcards

Question 1

Q

Parafunctional movement that results in excessive tooth grinding and jaw clenching outside of masticatory function is known as what?

Question 2

Q

What is the Bennett Angle?

Answer

A

The angle created in the sagittal plane of the non-working condyle during lateral movement. General values is 15 degrees

Question 3

Q

What would be the clinical signs of an Angle’s Class II Div II?

Answer

A

Maxillary anterior teeth are retroclined and a deep overbite exists

Question 4

Q

What would be the clinical signs of an Angle’s Class II Div I?

Answer

A

Maxillary anterior teeth are proclined and a large overjet

is present.

Question 5

Q

What is condylar guidance?

Answer

A

The horizontal path followed by the condyle when it is travelling the glenoid fossa during mandibular opening

Question 6

Q

Where are dentally relevant proprioceptors found?

Answer

A

PDL
Muscles of mastication
TMJ

Question 7

Q

What is cuspid protected occlusion?

Answer

A

If biting in max intercuspation, the teeth are guided laterally/protrusive from canines, provides disocclusion posteriorly

Question 8

Q

Is wear Pathological?

Answer

A

Not really since everyone has it

Question 9

Q

Should you do an Occlusal Equilibration?

Answer

A

No, it’s against MI to grind down cups to “ideal occlusion”

Question 10

Q

When is OVD first established?

Answer

A

During eruption of primary dentition

Question 11

Q

What is the role of diastemas in mixed dentition?

Answer

A

Space Maintenance: to make space for permanent arch to develop

Question 12

Q

What changes during very gradual tooth wear through life course?

Answer

A

Increased OVD via continual eruption

Question 13

Q

What happens during very rapid tooth wear?

Answer

A

Overruption can not compensate at same rate, so a decrease of OVD

Question 14

Q

What adaptive features occur with reduced cusp height in tooth wear

Answer

A

Alteration in mastication patterns

Remodelling of TMJ

Question 15

Q

Early eruption of secondary dentition can result in what sort of problems?

Answer

A

Likelihood to erupt forward, creating crowding and rotation

Question 16

Q

When does group function take place?

Answer

A

When canine guidance is gradually removed through wear of the canines, the 1st/2nd pre-molars come into lateral excursion

Question 17

Q

How does interproximal tooth wear occur?

Answer

A

Due to high occlusal load

Question 18

Q

What is the main limitations of a plane line articulator?

Answer

A

Simple hinge device that takes the average geometry that may not be suitable particularly for ethnic variation.

Also can’t take into account lateral movement

Question 19

Q

What does the facebow record?

Answer

A

Relationship of Maxillary Arch to the TMJ and Cranial Base

Question 20

Q

What is the importance of taking the bite record using a semi-adjustible articulator?

Answer

A

Gives the relationship between the Mx + Mn in maximum interdigitation.

The Mandibular arch can then be poured and placed against the bite record

Question 21

Q

What are 4 possible errors that can happen when taking a facebow record?

Answer

A

Not getting an even reading of the condyles
Bitefork can move after patient bites down
Facebow readings are bumped after reading - hang the facebow up
Weight of model against bitefork moves the reading

Question 22

Q

The combined readings of the facebow and bitefork give you what?

Answer

A

The angle of the maxillary arch in relation to the superior aspect of the maxilla itself (cranial base)

Question 23

Q

Why don’t we use fully adjustable articulators?

Answer

A

They are complicated AF

Question 24

Q

What does a protrusive (incisal edge-to-edge) bite record tell you?

Answer

A

The angle of the articular eminence
Condyle has moved down the eminence
Posterior Teeth have discluded: this is important in designing an appliance that can fit

Question 25

Q

Doing a canine-to-canine bite (lateral) record will give you what?

Answer

A

The bennett angle

Question 26

Q

When planning to build a partial denture for a partially edentulous patient what sort of record needs to be take?

Answer

A

Centric Relation record as it is not longer corresponding Centric Occlusion

Question 27

Q

What are 7 indications for a nightguard?

Answer

A

Protection from Attrition
Protection from Cusp Fracture (particularly from Amalgams, Ceramic crowns)
Protection from Enamel Flaking
Protection for new restorative Work (from Bruxer)
Protection against sports trauma
Relief of Pain from TMD
For remineralisation products (eg Tooth Mousse)

Question 28

Q

What is the purpose of pouring a duplicate cast when making a nightguard?

Answer

A

For the dentist and lab technician to be able to check the final product as the survey cast would have been modified to accommodate undercuts

Question 29

Q

What are the 2 types of coverage that are possible with a nightguard?

Answer

A

Full Occlusal Coverage

Anterior Coverage

Question 30

Q

What are the 3 textures possible with a nightguard?

Answer

A

Hard
Soft
Bilaminar

Question 31

Q

When constructing a nightguard, what 2 situations need to be tested to ensure bilateral disclusion?

Answer

A

Protrusive incisal-to-incisal bite

2. Maximum lateral mandibular movement

Question 32

Q

What is a ramp design for a nightguard?

Answer

A

Anterior portion of occlusion is higher, so that in eccentric occlusion there is disclusion in the posteriors

Question 33

Q

What is a flat design for a nightguard?

Answer

A

All teeth are in contact at the same time

Question 34

Q

Why might wearing a nightguard with just anterior coverage in the long term be a bad idea?

Answer

A

High loading on anteriors
Potential for orthodontic intrusion
Posterior eruption

Question 35

Q

Not taking a bite record when during the first appointment for a nightguard will result in what during the second appointment?

Answer

A

The dentist spending a lot of time adjusting the nightguard with an acrylic bur because it doesn’t fit and is correctly in occlusion

Question 36

Q

What 3 things need to be checked on the 2nd mouthguard appointment

Answer

A

Place in the mouth and check:

Fit
Thickness
Occlusion - Centric and Posterior Disclusion

Question 37

Q

What is interference on a mouthguard?

Answer

A

When there is contact on the posteriors when the mouthguard is fitted on the following scenarios:

Contact on non-working side during canine guidance (lateral movement)
Contact during protrusive guidance

Question 38

Q

How do you take a secondary impression?

Answer

A

Take a primary impression
Pour a cast
Then construct a special tray that fits around the cast
Take a secondary impression using the special tray

Result is more accurate as the special tray minimises alginate distortion

Question 39

Q

How is the thickness of the nightguard determined on a plane-line articulator?

Answer

A

Wax thickness determines nightguard thickness

Question 40

Q

How is the thickness of the nightguard determined on a semi-adjustable articulator?

Answer

A

The dentist determines the thickness by adjust the incisal pin

Question 41

Q

If you were to design a masticatory system, what 6 features would be ideal? (EXAM ALERT)

Answer

A

High Speed Movement
Minimal Friction
Congruency (matching shapes of fossa + condyle for function)
Stability in Centric Occlusion
Minimal Loading
Pressure Compensation

Question 42

Q

T/F: The movement path on mouth opening is sagittal in nature?

Question 43

Q

At the end of rotation, where is the posterior thick zone located in relation to the condyle?

Answer

A

12 O Clock

Question 44

Q

At the end of rotation, where is the anterior thick zone located in relation to the condyle?

Answer

A

9 O Clock

Question 45

Q

What is the role of the Temporomandibular Ligament (TML) in mastication?

Answer

A

These discal ligaments provide posterior restraint to prevent the disc from slipping backwards

Question 46

Q

What is the role of the retrodiscal tissue in mastication?

Answer

A

Prevents the “piston” suction effect to allow for highly efficient motion and return on closing

Question 47

Q

T/F: The Articular disc capsule is vascular in nature

Answer

A

False, it is reliant on synovial fluid for nutrition

Question 48

Q

T/F: The Articular disc is made up of fibrocartilage

Answer

A

False, unlike other joints it is made up of fibrous tissue

Question 49

Q

What are the main muscles used to enter into centric occlusion?

Answer

A

Masseter

Temporalis

Question 50

Q

T/F: The Superior Lateral Pterygoid Muscle is activated to stabilise during jaw closing

Answer

A

True: the superior head exerts forward traction on articular disk during closure, thus impedes return on disc to normal position. This helps to stabilise jaw closing

Question 51

Q

T/F: The Superior Lateral Pterygoid Muscle is deactivated on jaw opening

Question 52

Q

Describe the motion of the articular disc during translation

Answer

A

Articular Disc simultaneously

1) Rolls backwards onto the head of the condyle
2) Moves anteriorly along the articular eminence

Question 53

Q

T/F Discal ligaments are a common source of TMD pathology

Answer

A

False, it is one of the last tissues to degenerate. Most likely sources will be holes + fibrosis of the articular disc

Question 54

Q

Which direction does the condyle bend on clenching and which muscles assists to provide this motion?

Answer

A

Masseter pushes out laterally which bends the condyle laterally as well

Question 55

Q

T/F: The aetiology of TMD is the condyle pushing into auriculotemporal nerve causing pain

Answer

A

False, this was Costen’s theory in the 1930s but is now disproven

Question 56

Q

T/F: The majority of patients complaining of head / neck pain will be primarily muscular and skeletal in nature?

Answer

A

False, the majority will have transmission problems of peripheral nerves > spinal nerves but referring into the head/neck

Question 57

Q

What are the 7 main symptoms of TMD?

Answer

A

Jaw and face pain
Temporal headaches
Referred Ear Symptoms
Limited Opening
TMJ Clicking
Crepitus
Locking

Question 58

Q

Why is there a larger percentage of women who experience TMD?

Answer

A

Transmission of pain is heavily mediated by estrogen. Epidemiology of TMD is equal between sexes before 12, but higher in women after puberty

Question 59

Q

T/F: Trigeminal Neuralgia is a form of TMD

Answer

A

False - TMD only pertains to musculoskeletal disorders of the masticatory system

Question 60

Q

T/F: The Articular Eminence is present at birth?

Answer

A

False, it develops during adolescence

Question 61

Q

T/F: The maximum opening of the mouth in a child is the same as an adult

Answer

A

True, without the articular eminence, there is less restriction on range of motion, so the max opening will be similar (4.5cm) despite the jaw being smaller

Question 62

Q

Developmentally, when does the superior head of the Lateral Pterygoid muscle connect to the condyle

Answer

A

At adulthood

Question 63

Q

What key developmental features have occurred with the TMJ at adulthood?

Answer

A

1) Developed Articular Eminence
2) Disc has moved forward
3) Development of retrodiscal tissue
4) Superior head of the Lateral Pterygoid muscle becomes a muscle connected to the condyle

Question 64

Q

Embryologically at Week 9, there is condensed fibrous tissue that appears adjacent to the condyle. What does this become?

Answer

A

The Articular Disc

Answer 62

A

It is an embryological blueprint for the development of jaw and musculature

Answer 63

A

True. The articular eminence develops in adolescence and its absence allows for same 4.5cm max opening in children as in adults.

Answer 64

A

The Proliferative layer of mesenchymal cells. This typically exists to allow regeneration until around 50 years of age

Answer 65

A

Primary works as a stabiliser muscle to prevent excessive protrusion and keep the jaw in place during physical activity

Answer 66

A

When the hyoid bone is held in place by the infrahyoid muscles

Answer 67

A

Unloading reflex: when hard food in occlusion breaks

Guarding reflex: Digastric is activated at 10% even when individual is subconsciously aware that the food type is not stable even before hard closing (situational awareness)

Answer 68

A

Trigger for swallow reflex

Answer 69

A

To accommodate the size of the food bolus on the working side

Answer 70

A

Unilateral click on wide opening

Answer 71

A

Click that occurs during the middle 1/3 of both opening and closing

Answer 72

A

Click occuring twice during motion

Anywhere on opening: depends when the disc jumps back onto contact with condyle
Click occurs again in intercuspal at end of close - when the condyle falls off the disc

Answer 73

A

False

Clenching can occur for reasons other than stress

1) Exercise
2) Deep Concentration
3) Relaxing
4) Conditioned actions

Answer 74

A

1) Day/Night Function
2) Non Functional activities - finger nail biting, thumbsucking
3) Masticatory Muscle Activity

Answer 75

A

Sore masticatory muscles on waking

Answer 76

A

Sore masticatory muscles in the afternoon

Answer 77

A

1) Inflammation (Synovitis/Capsulitis)

2) Abnormal loading resulting in deviation in form (Thinning of condyle and perforation of articular disc)

Answer 78

A

Natural Anatomical Variation: Loose TML, slope of eminence
Macro/Microtrauma
Increased friction

Answer 79

A

False, With reduction is when the condyle can regain contact over the articular disc which has been displaced anteriorly.

Answer 80

A

True, the click occurs when the condyle and articular disc come back into contact

Answer 81

A

Cardiac
Smooth
Skeletal

Answer 82

A

When tension is applied via force/weight and the muscle changes in length, resulting in joint movement

Answer 83

A

When tension is applied but the muscle does not change in length

Answer 84

A

True

Isotonic occur when teeth are in contact
Isometric results in jaw opening/closing

Answer 85

A

Sustained muscle contraction when motor nerve that innervates muscles emits action potentials at a high rate. This is results in a muscle twitch.

Answer 86

A

Fatigue: the decrease in tetanic force under specified rates of stimulation.

When muscle movement is applied repeatedly, the ability for that muscle to repeatedly work at the same rate decreases and plateaus

Answer 87

A

Neuromuscular Junction is the synapse between motor axon and muscle fibres
Action Potential travelling down the motor axon results in vesicles of acetylcholine (Ach) to be released from the presynaptic endings of the motor axon
Ach diffuses across the synaptic clefts to receptors located on the membrane of the muscle fibres
Stimulation of receptors by Ach increases permeability of Sodium ions
Creates a Depolarisation of muscle cell membrane and Action Potential is initiated in the muscle fibre
Action Potential releases calcium in the sarcoplasmic reticulum, allowing the formation of the cross bridge between the actin + myosin fibres via the exposure of the troponin filaments and muscle contraction occurs. ATP is required to “recock” the cross-bridge in anticipation of the new contraction stroke

Answer 88

A

Origin: Medial Wall of Temporal Fossa / Superior Temporal Line

Insertion: Coronoid Process

Answer 89

A

Origin: Temporal Fascia

Insertion: Coronoid Notch as the Tendon of Temporalis

Answer 90

A

Elevates
Retrudes
Aids in lateral

Answer 91

A

Trigeminal >
Mandibular >
Anterior + Posterior Deep Temporal Branches

Answer 92

A

Origin: Medial Surface of the lateral pterygoid plate
Insertion: Medial Surface of the ramus

Answer 93

A

Origin: Maxillary Tuberosity / Pyramidal Process of the palatine bone
Insertion: Inner aspect of the angle of the mandible

Answer 94

A

Closes Jaw

- Parallels masseter muscle

Answer 95

A

Trigeminal >
Mandibular >
Medial Pterygoid Branch

Answer 96

A

Origin: Greater wing of sphenoid bone

Insertion: Anterior part of Articular Disc
TMJ Capsule

Answer 97

A

Origin: Lateral Surface of Lateral Pterygoid Plate

Insertion: Pterygoid Fovea on the neck of Condyle

Answer 98

A

Open Jaw

Lateral Excursion
Protrusion of Mandible
Active on Grinding: provides stability on centric

Answer 99

A

Trigeminal >
Mandibular >
Lateral Pterygoid Branch

Answer 100

A

Origin: Zygomatic Bone
- Inferior Border of the anterior ⅔

Insertion: Angle of the Mandible

Answer 101

A

Origin: Zygomatic Process of Temporal Bone

Medial Border
Inferior Border of Posterior ⅓

Insertion: Ramus + Coronoid Process

Answer 102

A

Elevates
Retrudes
Aids in Lateral

Answer 103

A

Trigeminal >
Mandibular >
Masseteric Branch

Answer 104

A

If hyoid bone is held in place (Open mouth) Elevates Jaw
Some Retrusion
Some Lateral

If mouth is closed, contraction lifts the hyoid bone for swallowing

Answer 105

A

Anterior Belly: Mandibular Nerve

Posterior Belly: Facial Nerve

Answer 106

A

Origin: Digastric Fossa of Mandible

Insertion: Tendon of Hyoid Bone

Answer 107

A

Origin: Tendon of Hyoid Bone

Insertion: Digastric Notch on inner aspect of the mastoid process

Answer 108

A

Origin: Outer Surfaces of the Alveolar Processes of Maxilla and Mandible

Insertion: External Oblique Ridge

Answer 109

A

Pulls back the angle of the mouth, pushing food to the posterior occlusal surfaces to assist mastication

Answer 110

A

Facial Nerve >

Buccal Branch

Answer 111

A

Trigeminal > Mandibular >

L Buccal

Answer 112

A

Growth: increase in size or number
Development: physical and physiological increase in complexity and degree of organisation of tissues

Answer 113

A

Deviation from normal (mean) for height and weight on a standard growth chart. Plotting individuals above and below the norm shows where they sit in regards to central tendency.

Answer 114

A

To know whether an individual has commenced/finished growth spurt early/late when compared to the mean.

Answer 115

A

Lymphoid tissues more active during childhood to aid immune response against primary infections in early life.

Answer 116

A

Development of neural networks to allow for motor skills (walking, handling objects), speech and cognitive behavioural development

Answer 117

A

D. Three-Dimensional Imaging

Allows for 3D spatial measurements
Can be taken cross sectionally or prospectively
Can account for hard and soft tissue

Answer 118

A

Increase in number of cells

Answer 119

A

Increase in size of cells

Answer 120

A

Growth of new tissue at the periphery of existing structures. Common in hard tissue structures such as a bone and teeth

Answer 121

A

Grown of tissue via increase in size by hyperplasia or hypertrophy within the interior of a part or structure that is already formed. Can only occur in non rigid tissues including cartilage. Eg chondrocytes growing new cartilage

Answer 122

A

Endochondral ossification involves the growth of cartilage matrix that is eventually calcified

Intramembranous ossification involves mesenchymal cells that differentiate into osteoblasts that forms a bone matrix and remodelling into compact bone

Answer 123

A

Hyaline Cartilage

Answer 124

A

Intramembranous Ossification - apposition of bone at the sutures between the maxilla, cranium + cranium base, followed by surface remodelling

Answer 125

A

Downwards and Outwards via surface remodelling around the sutures

Answer 126

A

Endochondral growth via cartilage model for the ramus at TMJ with surface remodelling
Intramembranous growth: Body of mandible via periosteal apposition on the posterior surface

Answer 127

A

Visibly, the jaw appears to be moving downwards and forwards, but the intramembranous growth is occuring superiorly and posteriorly

Answer 128

A

Long Bones

Answer 129

A

Intramembranous Ossification

Intramembranous ossification is the growth of bone by mineralisation of matrix that is secreted by osteoblasts. It typically growths to form “ice cream sandwich” plates of compact bone in areas such as the skull. The growth mechanisms occur by the following means:

1) Development of ossification centre from mesenchymal cells
2) Osteoid Bone Matrix forms
3) Woven Bone + Periosteum Form
4) Bony Collar of compact bone formed

Answer 130

A

MB cusp of upper 6 lined up with MB groove of lower six

Answer 131

A

Normal occlusion with crowding

Answer 132

A

MB cusp of upper 6 is anteriorly placed to the MB groove of the lower 6

Answer 133

A

MB cusp of upper 6 is posteriorly placed to the MB groove of the lower 6

Answer 134

A

MB cusp of upper 6 is anteriorly placed to the MB groove of the lower 6

Div 1 maxillary anterior teeth are proclined and a large overjet is present

Answer 135

A

MB cusp of upper 6 is anteriorly placed to the MB groove of the lower 6

Div 2 maxillary anterior teeth are retroclined and a deep overbite exists

Answer 136

A

Mesial incline of upper canine contacts the distal incline of the lower canine

Answer 137

A

Doesn’t tell us the relationship from the coronal plane e.g. midline,
If reference teeth are missing then it is hard to categorise/classify
Classifying all occlusion and malocclusion into 4 categories is oversimplistic

Answer 138

A

Movement of anterior teeth during jaw protrusion and lateral movements that aids posterior disclusion. In the movement, lower anterior teeth slide against the palatal surfaces of the upper anterior teeth which results in a guiding of the occlusal molar surfaces into disclusion. (This is to prevent off-centre force on the posteriors to which they are not well equipped against.)

Answer 139

A

The angle made by the intersection of the long axis of the maxillary central incisor with the mandibular central incisor.

Statistically, a normal angle is about 130-135°

Answer 140

A

Extent of contacts during movement

2. Static placement of occlusal contacts during articulation

Answer 141

A

Plane Line
Semi-Adjustable
Fully Adjustable

Answer 142

A

Mesial / Distal (side to side)
Facio / Lingual (forward / backwards)
Extrusion (vertical - over/under eruption)

Answer 143

A

It is the track the condyle moves along during mandibular movement

Answer 144

A

The side of the mandible which moves towards the median line in lateral excursion

Answer 145

A

The angle created in the sagittal plane of the non-working condyle during lateral movement. General values is 30 degrees

Answer 146

A

Edge to Edge
Maximum Protruded Contact
Retruded
Rest Position
Maximal Hinge Opening
Maximal Opening
Intercuspal Position
Maximum Lateral Excursion

Answer 147

A

Parafunctional movement that results in excessive tooth grinding and jaw clenching outside of masticatory function.

Answer 148

A

Premolars and Molars - used when referred to as a group (any teeth that have buccal rather than labial surfaces)

Answer 149

A

During lateral excursion of the mandible, the canines come into contact and guide the posterior to disclude. Overtime Canine Guidance is lost due to wear and this becomes group function.

Answer 150

A

The most superior and retruded relation of the Md to the Mx when the condyles are in the most posterior unstrained position in the glenoid fossae from which lateral movement can be made at any given degree of jaw separation.

This can correlate with intercuspal position, unless the patient has experienced significant tooth wear, erosion etc. that change the contact positions of the teeth.

Answer 151

A

Lingual cusps of maxillary posterior teeth
Buccal cusps of mandibular posterior teeth
Central pits and marginal ridges
Incisal edges of lower anterior teeth
Lingual sides of upper anterior teeth

Answer 152

A

Opening Phase
Closing Phase
Intercuspal Phase

Answer 153

A

Slow Opening

2. Fast Opening

Answer 154

A

Beginning: elevators show isotonic contraction

End: transition to isometric contraction

Answer 155

A

The horizontal path followed by the condyle when it is travelling the glenoid fossa during mandibular opening.

Answer 156

A

The angle of inclination of the condylar guidance to an accepted horizontal plane. Typical value is 30 degrees

Answer 157

A

Tooth contacts that prematurely interferes with normal mandibular closing path to centric occlusion
Need to check there are no interference after placing a restoration

Answer 158

A

When the incisal edges of the upper and lower incisors are in contact.

Answer 159

A

All possible movements of the mandible on an individual using the lower central incisors as a guide. These can be charted into a 3D shape known as the Envelope of Motion

Answer 160

A

A device that relates the maxillary arch to the intercondylar axis and the point orbitale. These measures can be translated to an articulator

Answer 161

A

Distance between the Rest Position and the Intercuspal Position.

Typically 2-4mm.

Interruption of freeway space will rapidly lead to TMD (inability to relax jaw muscles)

Answer 162

A

Simultaneous contact between multiple teeth on the working side during functional movement of the mandible. This is to distribute occlusal forces more evenly amongst the teeth.

Answer 163

A

When in occlusion the buccal cusps of Mx teeth / lingual cusps of Mn teeth have contact on the occlusal surfaces only

Answer 164

A

Distance between both condyles, measured from the centre of each condyle.

Radiographs or Facebow record can be used to obtain this measurement.

Answer 165

A

Intercuspal Occlusion

Answer 166

A

Both are when the teeth are in maximum contact

Intercuspal Position = position of the mandible

Intercuspal Occlusion = the contacts in max contact

Answer 167

A

Freeway Space

Answer 168

A

The difference in space between:

Primary C-E Teeth &
Permanent 3-5 Teeth

This space accommodates eruption of permanent teeth in a growing jaw

Answer 169

A

When centric relation and centric occlusion are not the same, long centric is the freedom of movement for the jaw to move from centric relation to central occlusion. This is important in maintaining when constructing new dentures.

Answer 170

A

Largest opening of the jaws involving only rotation of condyle in the glenoid fossa. It does not involve translatory movement.

Average max hinge opening is 3cm

Answer 171

A

MPD describes muscle pain that is believed to be of fascial origin. The exact mechanism of pathology is unknown.

Answer 172

A

The space in the oral cavity where the vector forces exerted by the tongue muscle is equal to the opposing forces exerted laterally by the buccinator muscles (cheeks) and anteriorly by the orbicularis oris muscle (lips).

Answer 173

A

OVD Is the facial measurement distance measured when the occluding rims or teeth are in contact. Measurement is typically taken from the nose to the chin

Answer 174

A

The horizontal distance between the upper incisors ahead of the lower incisors. Normal range is 2-3mm

Answer 175

A

Measurement of the vertical overlap between upper and lower incisors. Measured as a percentage

Answer 176

A

The position of the jaw when the muscles of mastication are in a relaxed state and maintained by the sustained contraction of the temporalis muscle. This is usually slightly off from intercuspal position.

Answer 177

A

Is the measurement between the chin and the nose when the patient is in the rest position.

Answer 178

A

The axis on which the condyle moves (rotates) in when the mouth is opening and the condyle movement is purely rotational

Answer 179

A

The guided occlusal relationship occurring at the most retruded position of the condyles in the join cavities. A position that may be more retruded than the centric relation position

Answer 180

A

When the maxillary posterior teeth occlude entirely on the buccal aspect of the mandibular posteriors.

Answer 181

A

The movement of jaw towards a particular direction away from the median during lateral excursion. If moving right laterally, the working side is on the right

Answer 182

A

Behaviours that have no functional purpose

Answer 183

A

Excessive Tooth Wear
Tooth Fracture
Severe Malocclusion
Degenerative Joint Conditions
Muscular Hypertrophy
Muscle Contraction Headache
Myofacial Pain
Muscular Pain
Joint Pain
TMJ Disc Derangement
Flattening/Wear of condylar articulating surfaces (Clicking)
Periodontal Tissue Injury
Alveolar Bone Loss
Destruction of prosthetics / restorative dentistry

Answer 184

A

In normal occlusion: usually Flattening of Canine Cusp Tips occurs first

Answer 185

A

Intense Rhythmic Grinding patterns + Periods of sustained forceful clenching

Can occur throughout the night - up to 90 minute intervals for 5 minutes per episode
Found through all stages of sleep
Mostly in Stage 2 sleep
Bruxism during REM sleep is often indicative of worse symptoms

Answer 186

A

Ask patient if they are aware of any repetitive behaviours (diurnal)
Determine patient occupation (divers, musicians)
Is the pain on waking (then nocturnal)
Pattern of wear - unilateral could identify external objects (diurnal) rather than opposing teeth

Answer 187

A

Strenuous Physical Activity
Leaning on mandible (phone, reading, driving)
Occupation (divers, musicians)
Superstitious Behaviours (pen biting)
Non-verbal communication (clenching when angry/stressed)

Answer 188

A

Dental Exam: Active Cusp Tip wear, muscle/joint pain, fatigue, when stiffness is identified (morning/evening), muscular hypertrophy
Provocation Test: lateral excursion of mandible to align facets with pain/stiffness locations
Pain Relief Test with analgesics
Sleep Tests
Grind Tests

Answer 189

A

Psychosocial: heightened stress, life factors
Drug Use (Meth)
Medications (Anti-Psychotics)

Answer 190

A

1) Only joint system with a rigid end point of closure
2) Bilateral movement due to contralateral joint
3) Complex articulation
4) Hybrid Hinge + Sliding Socket (rotate/translate)
5) Only joint that can “dislocated” internally without external forces acting upon it
6) Articular surface composed of Fibrous Tissue (Not Hyaline Cartilage)

Answer 191

A

Yes, they can be referred from masticatory sources - due to common sensory innervation

Answer 192

A

True - both are derived from Meckel’s Cartilage and differentiate after Meckel’s disappears at week 12 of embryonic growth

Answer 193

A

Firm, flexible structure that changes in shape to allow movement of the condyle in the glenoid fossa and articular eminence

Answer 194

A

Thick-Thin-Thick

Answer 195

A

Thin Central Zone

Answer 196

A

Lubricating to reduce friction of movement

- Nutrition of the articular disk since it is avascular

Answer 197

A

Superior Synovial Cavity: Along the mandibular fossa and articular eminence of the Temporal Bone
Inferior Synovial Cavity: Surrounding the head of the condyle

Answer 198

A

Temporomandibular Ligament

Answer 199

A

Limit the movement of the mandible to it’s most retruded position

Answer 200

A

TML : Passively resisted on the working side. Permitted by medial contour of non-working side
Lateral Pterygoid Muscle is activated on the non-working side
Working Condyle moves laterally (Bennett Movement)
Non-working Condyle moves anteriorly, inferiorly, mediall (Bennett Angle)

Moving Left: Working Side LHS, Non Working Side RHS

Answer 201

A

Articular Zone - Dense Fibrous CT (not Hyaline Cartilage)
Proliferation Zone - Mesenchymal Cells
Fibrocartilaginous Zone - 3D network of collagen fibres that offer compression/lateral resistance
Calcified Cartilage Zone: site for bone remodeling

Answer 202

A

False, this is provided by the muscles of mastication (CN V)

Answer 203

A

Auriculotemporal Nerve

Accessory Innervation:
Masseteric Nerve
Deep Temporal Nerve
Pterygoid Nerve

Answer 204

A

Via Retrodiscal Tissue
Deep Auricular (Maxillary Artery)
Superficial Temporal Artery (Terminal branch of External Carotid)
Anterior Tympanic (Maxillary Artery)

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