Cavity Preparation*

Question 1

Advantages and disadvantages to direct and indirect restorations?

Answer 1

Direct:
- quick
- one operator
- simpler
- cheaper
Indirect:
- increased fit
- better margins
- less shrinkage
- better aesthetically

Question 2

Main reasons for teeth restoration?

Answer 2

Caries
Non-carious tooth substance loss
Failed restorations
Aesthetics

Question 3

Aims of restorations - step 1/2?

Answer 3

Step 1: remove diseased tissues

Step 2: restore integrity, function and appearance of tooth

Question 4

Describe the restorative cycle?

Answer 4

A cycle which indicates the possible outcome for teeth

Question 5

Main reasons for dental caries?

Answer 5

Plaque - from digestion of glucose to produce acid

Diet - affects pH

Question 6

Caries - minimal intervention technique - definition?

Answer 6

The aim of restorations are to be minimally invasive and mainly preventative rather than reactionary.

Also, to identify and control aetiological factors and stabilise.

Question 7

Types of non-carious tooth substance loss?

Answer 7

Attrition - tooth on tooth
Abrasion - wear
Erosion - chemical
Abfraction - functional (V/C shaped)

Question 8

Main aim for cavity preparation?

Answer 8

Removal of infected dentine

Sealing dentinal tubules

Question 9

Micro-preparation technique - what is involved?

Answer 9

Reduced size of instruments and size

Magnification necessary

Question 10

Atraumatic restorative treatment technique - what is involved?

Answer 10

Hand excavation then restored with adhesive material
Nervous patients
Doesn’t removal all caries

Question 11

The stages of treatment - Identify? Prevent? Restore? Maintenance?

Answer 11

Identify:
- history, examination, detection, radiographs and aetiological factors
Prevent:
- lesion type, patient susceptibility and proposed action
Restore:
- decide on productive treatment
Maintenance:
- susceptibility related and recall variable

Question 12

Advantages of minimally invasive technique?

Answer 12

Less unexpected exposure of the pulp
Less pulp stress
Also, repair and refurbish where possible

Question 13

Repair and refurbish technique - dependent upon? what is involved?

Answer 13

Depend:
Patient wish
History
Caries risk
Marginal defects existing
Involved:
- polishing, recontouring margin, or small replacement

Question 14

Factors which affect the life of a restoration?

Answer 14

Caries risk
Cavity size
Cavity Ste
Operator skill
Trauma
Lifestyle

Question 15

Factors for failure of restorations?

Answer 15

Secondary caries
Tooth wear
Pulpal problems
Trauma
Fracture
Ditching
Defective contact
Defective margins
Aesthetics
Lack retention

Question 16

Secondary caries - cause failure?

Answer 16

Caries at margin

Gap left in restoration allowing food and bacteria to accumulate, and no cleaning potential leading to caries

Question 17

Tooth wear - cause failure?

Answer 17

From attrition or erosion

Lose attachment

Question 18

Pulpal problems - cause failure?

Answer 18

Causes pain
Direct or infection
Needs RCT or extraction

Question 19

Trauma - cause failure?

Answer 19

Loss of restoration through force

Question 20

Fracture - cause failure?

Answer 20

Incorrect placement
Material too thin
Tooth sections too thin
Occlusion

Question 21

Ditching - cause failure?

Answer 21

At tooth-amalgam interface
Due to creep or corrosion
Plaque retentive -> 2nd caries

Question 22

Defective contact - cause failure?

Answer 22

Food packing

Recurrent caries

Question 23

Aesthetics - cause failure?

Answer 23

Look bad, replaced

Question 24

Poor margins - cause failure?

Answer 24

Plaque retention, food trapping, recurrent caries and perio disease

Question 25

Lack retention - cause failure?

Answer 25

Nothing to attach to

Break off

Question 26

During cavity prep - what happens to the dentinal tubules?

Answer 26

Insult the pulp leads to increased inflamm cell infiltrate

Prep leads to smear layer which occludes dentinal tubules with bacteria, collagen slurry and hydroxyapatite

Question 27

Pulpal chemical attacks - sources?

Answer 27

From restorative material such as acrylic resin and acids in dentine bonding agents
or residue acid from bacteria

Question 28

Pulpal galvanic shock - what causes it?

Answer 28

2 different adjacent material restorations such as silver and gold can form a electrolyte cell with the saliva causing pain

Question 29

Pulpitis - definition? causes? symptoms?

Answer 29

Pulpitis is the inflammation of the dental pulp
Causes:
- carious progression into dentine
- tooth has multiple procedures
- trauma to lymphatics or blood supply
Symptoms:
- increased response to hold and cold stimuli

Question 30

Reversible pulpitis - definition? causes? symptoms?

Answer 30

Reversibility damaged but can recover
Mainly due to bacterial invasion into dentine
Symptoms:
Transient pain to hot, cold, sweet, water and touch
Lasts seconds
Pulp still vital
Can return to healthy state
Referred pain

Question 31

Irreversible pulpitis - definition? causes? symptoms?

Answer 31

Irreversible damage
Mainly due to bacterial invasion of the pulp
Symptoms:
Dull aching from hot or cold
Lasts hours
Constant
Spontaneous
Sleep loss
CS: more painful to heat

Question 32

Reasons not to restore cavities?

Answer 32

Patient access to lesion is good
No active cavies
Possibility of remineralisation

Question 33

What does minimally invasive mean and involve?

Answer 33

Remove unrepairable diseased enamel and dentine only
Physically and chemically modify the remaining cavity
Restore cavities with suitable material which supports and strengthens the structure, promotes remineral and seal of any remaining bacteria from nutrition arresting the carious process

Question 34

Black’s classification of cavities? I - VI?

Answer 34

I: occlusal surfaces of molar and premolars, buccal pits of molars and palatal pits of anteriors
II: interproximal surfaces of posteriors
III: interproximal surfaces and anteriors
IV: incisal edges of anteriors
V: cervical margins
VI: cusp tips of posteriors and canines

Question 35

Classification of caries - anatomical sites? overall type? speed?

Answer 35

Site:
Pit or fissures
Smooth surfaces
Enamel
Root
Overall:
Primary - on unrestored surfaces
Secondary - develop adj to restoration
Residual - demineral left before filling tooth
Speed:
Active
Rampant - multiple lesion on uncommon sites
Early childhood
Arrested

Question 36

Levels of disease (depth - D)? treatment response?

Answer 36

D1 - enamel lesions with intact surface
D2 - limited to enamel
D3 - in dentine
D4 - in pulp

D1/2 - preventative measures
D3/4 - restorative treatment

Question 37

Black’s I - treatments? how to identify? what to do? maintenance? outdated?

Answer 37

Fissure sealants:
RA
BW radiographs (not good)
Clean, wash and dry then transilluminate
No sharp probes
Preventive resin restoration:
investigate minimal caries
resin into cavity, then seal
routinely checked
Amalgam is outdated - removal of more tissues to create retention

Question 38

Black’s II - how to identify? site? cavity access? amalgam vs composite?

Answer 38

Interproximal areas are stagnation areas where plaque can form
Found on BW radiographs:
- confined to enamel allows encourage to arrest via fluoride application
- visible in dentine needs restorative treat
Restored with amalgam or composite
Accessed via marginal ridge, with matrix band
Needs undercuts to facilitate retention of amalgam
Composite can shrink and the bonding agent is humidity sensitive (need rubber dam)

Question 39

Black’s III - treatment material? how to identify? access cavity?

Answer 39

Difficult to spot
Access from palatal
Restored with composite

Question 40

Black’s IV - treatment material? occlusion?

Answer 40

Involve anterior guidance

Composite/Glass ionomer

Question 41

Black’s V - treatment material? site?

Answer 41

Composite

At the cervical margin

Question 42

Basics of cavity preparation? (5p)

Answer 42

Access caries via outline form
Small as possible
Remove caries (mechanical and chem)
Complete prep (fill, function, tidy and clean)
Restore and maintain

Question 43

Correcting enamel margins - why they are a problem? solution?

Answer 43

Unsupported enamel is weak and can fracture
Thin restorations can fracture
Bevel to increase SA for bonding

Question 44

Cavity preparation - enamel, dentine and restoration? (what to do during each stage)

Answer 44

Enamel:
- gain access ‘outline form’
- remove unsupported prims and demineralised margins
- high speed with TC/diamond bur
Dentine:
- remove soft wet caries dentine
- identify peripheries
- excavate peripherally then towards pulp
- hand excavator and slow speed TC/steel rosehead
What material to use and if there is any further carious dentine remaining

Question 45

Angles formed for cavity preparation?

Answer 45

Line angle where 2 lines meet
Cavosurface angle where cavity wall meets tooth surface should be between 90-110
Point angle where 3 or more lines meet

Question 46

Cavo-surface angles - difference between amalgam and composite?

Answer 46

Amalgam:
- ideally 90
Composite:
- less than 90 with bevel

Question 47

Cavity modification once the carious lesion has been removed - what to think about?

Answer 47

Improve retention
Cavity support
Improve material function

Question 48

Retention techniques of cavity preparation - types? how they’re formed?

Answer 48

Physical:
- make small grooves so restorative material is added and locks into place
Chemical:
- acid etch and bond

Question 49

Cavity structural terms to know - occlusal floor, gingival floor, isthmus, proximal box and pulpo-axial wall

Answer 49

Occlusal floor - base of cavity
Gingival floor - floor of cavity near gingiva
Isthmus - connecting piece of cavity from one area to another, needs to be narrow to keep strong
Proximal box - box prepared for access to caries interproximally
Pulpo-axial wall - side wall of cavity that runs along the pulpal wall

Question 50

Internal cavity preparation features - what to avoid and what to aim for?

Answer 50

Avoid sharp line angles
Aim for rounded angles to reduce stresses
Minimally invasive technique

Question 51

Key structural components to preserve when cutting cavities?

Answer 51

Preserve oblique ridges (transverse ridge joining the BD triangular ridge and the distal cusp ridge of the ML cusp) in max molars
Marginal ridges in anterior and premolar teeth

Question 52

Restorational failure - new disease? trauma? technical failure?

Answer 52

New disease:
- secondary caries (poor margins)
- heavily restored can lead to pulpal inflamm
- pulpal necrosis
Trauma:
- contact sport
Technical failure:
- fractured restorations (2nd caries or fault in prep)
- tooth fracture (weakened tooth or poor margins)
- appearance (wrong shade, shape, aesthetic and staining)

Question 53

Cervical caries - where are they? why they occur? treatment? risk? when to intervene? cavity design? clinical technique for placement (process and problems assoc)?

Answer 53

Where:
- top of the teeth right at the gingival margin
Why:
- missed by brushing and a plaque retentive factor
Treatment:
- high caries risk and treated accordingly (OHI)
Intervene:
- painful, pulp threatened, poor aesthetics and hinder plaque control
Design:
- limited to carious tissue (no extra retention needed)
Tech:
- rubber dam for retraction and isolation
- remove caries minimal
- etch, prime and bind then place composite
- problems such as access, moisture control and use of composite for morphology

Question 54

Root surface caries - common with? why form? rate? primary? secondary formation (cause)? risk factors? treatment (OH and restorations)? rehydration tips (examples of products)?

Answer 54

Common:
- with older generation
Why:
- gingival recession
Rate:
- spread into dentine
Primary:
- lesion on root surface (no enamel involvement)
Secondary:
- due to an existing restoration
Risk:
- xerostomia
- repeated carbs
- partial denture
- poor OH
- high caries experience
- high bacteria
Treatment:
- OHI, F therapy (higher PPM, gel and varnishes) dietary advice and regular appointments
- shallow; if cleansable can be left
- deeper; remove caries restore with GIC for fluoride (moisture control) (hand excavate)
Rehydration:
- vaseline
- atomisers
- biotene
- gum
- sip water

Question 55

Cervical caries - location? age group? cause?

Answer 55

Location:
- closest to the gingival margin
Age group:
- younger patients
- elderly (following root)
Causes:
- Poor OH
- orthodontic treatment

Question 56

Root caries - located? caused by? increase in prevalence why? treatment (silver diamine F - contraindications, MoA?)

Answer 56

Located:
- caries on the root surface below ACJ
Caused:
- due to root surface exposure following perio support loss
Increase:
- ageing
- retaining teeth
Treatment:
- silver diamine fluoride; stops cavity development, more effective than F varnish
- stains black
- contraindicated with silver allergy, exposed pulp, oral ulcer, sores or advanced perio
- MoA: antibacterial, preserve collagen degrad and reacts with Ca2 and PO4 to produce FHA

Question 57

Root caries treatment - biotene? Arg-based paste? ACP-CCP (adv and MoA)?

Answer 57

Biotene:
- toothpaste, gel and spray
Arg-based paste:
- most toothpastes
ACP CCP:
- good for remineral and sensitivity
- MoA: supply Ca, PO4 and F to drive diffusion of ions into tooth
- formation of hydroxyapatite

Question 58

Non-carious tooth surface loss - definition? types of loss?

Answer 58

Definition:
- irreversible loss of hard tooth structure caused by factors other than those responsible for dental caries 
Types:
- erosion
- abfraction 
- abrasion
- attrition

Question 59

Erosion - clinical appearance? common imperfections? causes? intrinsic acid (examples and conditions)? extrinsic acid (examples and conditions)? common surface? Bulimia (CS?) management of erosion?

Answer 59

Appearance:
- any surface, smooth and polished
- shallow depression can occur
Common:
- chipping of incisal edges
- cupping of lower molar cusps
Causes:
- substances which dissolve teeth (lower than 5.5pH)
Intrinsic:
- acid from within the body
- reflux: alcohol, stress reflux and gastric ulcer
- vomiting: bulimia, drugs, preg and rumination
Surface:
- palatally of upper and occlusal of lower molars
Bulimia: CS
- teeth marks on fingers
- malnutrition and dehydration
- lesions on palate
Extrinsic acid:
- acid external to the body
- chlorinated water 
Management:
- basic erosion wear examination (4 point scale - 0 - non, 1 - initial loss of surface texture, 2 - distinct loss <50% and 3 - >50% tissue loss)
- cumulative score across all sextants (none 0-2, low 3-8, med 9-13 and high 14)
- prevent further with fluoride

Question 60

Abrasion - definition? cervical? habitual? iatrogenic (abrasiveness)?

Answer 60

Definition:
- process of scraping or wearing something away
- an abnormal wearing away of the tooth substance by causes other than mastication
Cervical:
- horizontal brushing
- hard toothpaste and brush
Habitual:
- pipe, wind instruments, pins and grips
Iatrogenic:
- dental treatment
- abrasive dental materials (most porcelain and least is resin)

Question 61

Attrition - definition? physiological (surfaces?) pathological (differences? cause?) bruxism - definition? assoc signs, symptoms and management?

Answer 61

Definition:
- loss of tooth substance or of a restoration as a result of mastication or of occlusal or proximal contact between teeth
Physiological:
- increases with ageing
- affects occlusal surfaces or incisal edges
- also proximal surfaces due to mastication
Pathological:
- loss at a greater rate than with ageing
- caused by parafunction, malalignment or premature loss of teeth
Bruxism:
- involved in grinding and clenching teeth
- stress
- signs: TMJ pain, muscle tenderness and hypertrophy of masticatory muscles
- management: manage cause and teeth shield

Question 62

Trauma - enamel fracture? dentine fracture?

Answer 62

Enamel fracture:
- loss of enamel
- radiographic evidence
- restoration
Enamel dentine fracture:
- loss of enamel and dentine
- TTP
- radiographic evidence
- close to pulp give it a base CaOH
- restoration

Question 63

Abfraction - definition?

Answer 63

Definition:

• pathological loss of hard tooth substance caused by biomechanical loading forces
• such loss is thought to be due to flexure and chemical fatigue degrad of enamel and dentine at some location distant from the actual point of loading

Question 64

Clinical examination - patient complaint (identify injury? pain information? appearance? dental? medical? social history?) dietary analysis?

Answer 64

Identify:
- when, what, where, why and how
Pain:
- site, onset, character, radiates, assoc symptoms, timeline, exacerbating or relieving factors and severity
Appearance:
- discoloured
Dental:
- brushing habit, brush type, paste, freq and treatment
Medical:
- reflux or sick
Social:
- alcohol, drug, sport and stress
Diet:
- identify acidic foods

Question 65

Refurbish and repair - why can it be better than replacement? definitions of review? refurb? reseal? repair? replace? clinical indications for repair?

Answer 65

Better:
- tooth weakening
- repeated insult to pulp
- pulp death
- time/cost and tolerance
Review:
- minor defects only if not plaque retentive
Refurb:
- small defects
Reseal:
- using flowable
- seal defects
Repair:
- addition to a restoration removal or mod of part of the restoration
Replace:
- complete removal and replacement 
Clinical indications:
- secondary caries
- marginal defects
- colour corrections
- bulk fracture
- adj tooth fracture
- wear

Question 66

Repair - secondary caries treatment? staining treatment? contraindications for repair?

Answer 66

Treat as new lesion
Secondary:
- minimally invasive coupled with partial replacement
- remove any part of restoration that is undermined or hindered
- leave sound restoration
Staining:
- polishing and refinishing
- resurface with different shade
Contraindications:
- high caries risk
- history of failure
- patient reluctance 
- irregular attender
- caries that undermines most of the restoration