Dental Materials

Question 1

What is a dental impression used for?

Answer 1

Recording the intra-oral structures

Question 2

What information do we receive from the dental impression?

Answer 2

Negative imprint of the oral structures from which a positive reproduction can be formed

Question 3

What is the process of a conventional impression?

Answer 3

1. Material is mixed
2. Loaded into impressions tray
3. Inserted into mouth
4. Allowed to set
5. Remove from mouth
6. Permits a cast to be made
7. Device is made of this cast

Question 4

What are the 2 main uses for dental impressions?

Answer 4

Study casts and construction of dental appliances

Question 5

Name some forms of dental applicances?

Answer 5

• Orthodontic appliances
• Removable dentures
• Mouth guards and bleaching trays
• Inlays and onlays
• Crowns
• Bridges

Question 6

What are the requirements for an impressions tray?

Answer 6

• Rigid and non-flexible under load
• Extend sufficiently to support the impression material
• Fit loosely around dental arch avoiding soft tissues
• Adequate means of retention of impression material in tray
• A handle
• Decontaminated

Question 7

Name the 2 main material types of trays?

Answer 7

Plastic and Metal

Question 8

Problems caused by a non-rigid impressions tray?

Answer 8

• Tray shape is altered intra-orally
• Distorts the impression material
• Cast inaccurate

Question 9

Name the 2 main ways impression trays ensure the impression material stays in the tray?

Answer 9

Trat design:
- perforations
- rim-lock
Tray adhesives:
- types
- usage

Question 10

How do perforations ensure retention?

Answer 10

Material extruded through holes retaining the material to tray mechanically

Question 11

How does rim-lock ensure retention?

Answer 11

Retentive feature around extent of tray

Question 12

What are tray waves and how do they improve retention?

Answer 12

• Periphery waves

- Helps to contain the fluid impression material in stock impression trays

Question 13

What is greenstick and how does it improve retention?

Answer 13

• Rigid impression material

- Contains the fluid impression material in impression tray

Question 14

What are the chemical constituents and purposes of the constituents of greenstick?

Answer 14

• Resin and waves for consistency control
• Stearic acid as a plasticiser
• CaCO3 as a filler, colouring agent and controlling rigidity

Question 15

How is greenstick prepared?

Answer 15

• Transition temp at 55-60C

- Softened by hot water or flame

Question 16

What is the typical tray adhesive used with alginate?

Answer 16

10-12% toluene in 45-50% isopropanol

Question 17

What is the mechanism of action of a tray adhesive?

Answer 17

• Based on contact technology

Question 18

What is the process of tray adhesive use? but, when should they never be used with?

Answer 18

• Applied to tray and allow to dry
• used sparingly
• Periphery covered
  Never on metal trays

Question 19

Name the 2 main presentations of tray adhesive?

Answer 19

Spray and paint on

Question 20

What are the benefits of special trays?

Answer 20

• Permits equal thickness of impression material

- Dimensional change of impression material theoretically the same in all dimensions

Question 21

What are special trays made from?

Answer 21

Polymethylmethacrylate or Shellac

Question 22

What are the specific spacing of the perforations according to material used?

Answer 22

3mm - alginate
2mm - C-silicone
1mm - impression paste

Question 23

Name the 10 most important properties of impression materials?

Answer 23

1. easy to handle
2. compatible with oral fluids
3. reproduce detail accurately
4. good tear resistance
5. no adverse effects
6. pleasant taste
7. easily removable
8. easy decontamination
9. remain dimensionally table
10. compatible with all model construction materials

Question 24

What is the process of impression decontamination?

Answer 24

1. Immediately after removal rinsed under cold running water
2. Tray and material immersed in water-based disinfection solution (MFI)
3. Impression then rinsed gently with tap water (over-disinfection can lead to changes)
4. impression placed in sealed polythene bag and sent to lab

Question 25

What is alginate chemcially?

Answer 25

Irreversible hydrocolloid

Question 26

What is a colloid?

Answer 26

A substance which is distributed evenly through a material

Question 27

What 2 phases can alginate be in?

Answer 27

Dispersed and continuous

Question 28

What is the chemical equation for alginate?

Answer 28

Sodium and potassium salts + alginic acid forms alginate

Question 29

What are the chemical constituents of alginate and their function? ***

Answer 29

• K/Na alginate - dissolves in water to form a hydrogel with Ca
• CaSO4 dihydrate - reacts with soluble Na alginate to form insoluble Ca alginate
• Borate - reduces inhibition of setting of plaster
• Silicate powder - filler controls consistency and flexibility
• NaPO4 act as a retarder by reacting with Ca
• Na silicofluoride - controls pH
• Glycols - reduces powder dustiness
• Peppermint - taste

Question 30

What is the process of alginate setting reaction?

Answer 30

• Potassium (sodium) alginate + calcium sulphate dihydrate + water → calcium alginate + potassium (sodium) sulphate
• NaPO4 retards setting
• Set after PO4 runs out

Question 31

What is the mixing, working and setting times of alginate?

Answer 31

Mixing: 45-60s
Working: 45s (fast) 75s (reg)
Setting: 1-4.5 mins

Question 32

How to reduce permanent deformation when using alginate?

Answer 32

• Reducing amount of compression
• Reducing time the impression is under compression
• Allowing time for recovery before pouring model

Question 33

How to improve dimensional stability with alginate?

Answer 33

• Allow the alginate to heal over bench
• Control relative humidity
• Proper storage
• Syneresis (contracts on standing)
• Imbibition (wrap in damot tissue and place in bag)

Question 34

What are the 3 factors which affect the strength of alginate?

Answer 34

• P/L ratio = weaker
• insufficient spatulation (improper dissolving)
• over speculation (disrupts formation of Ca alginate gel)

Question 35

What are the advantages and disadvantages of alginate as an impressions material?

Answer 35

Adv:
- easy slow
- reproduce detail
- fast set
- minimal tissue displacement
- cheap
- tolerable
Dis:
- poor dimensional stability
- poor tear strength
- distorts if unsupported
0 3mm thickness required
- easy to include air in bag

Question 36

What are the indications of use for alginate?

Answer 36

Less accuracy and detail is required:

• study cast
• denture construction
• removable ortho
• teeth opposing an indirect cast restoration

Question 37

How to properly prepare the alginate mixture?

Answer 37

• shake container
• dispense metered volumes
• use correct bowl and spatula
• add powder to water
• mix in a 8-figure motion
• swipe material against bowl side to reduce air incorporation

Question 38

What are some useful clinical tips fr alginate use?

Answer 38

• ensure smooth impression surface
• smear into fissures
• place some on palate
• evert lips and retract cheeks
• ensure centrality
• hold still
• ensure full set
• remove quickly from mouth

Question 39

What are the common failures of poor alginate mixtures?

Answer 39

• Grainy
• Treating
• Bubbles
• Chalky model
• Distortion

Question 40

What is the reason for a grainy alginate?

Answer 40

• inadequate or prolonged mixing

- ratio too low

Question 41

What is the reason for alginate tearing?

Answer 41

• Inadequate bulk

- premature removal

Question 42

What is the reason for external bubbles on alginate?

Answer 42

Air incorparation

Question 43

What is the reason for a chalky alginate?

Answer 43

• Inadequate cleaning
• Excess water in impression
• Premature removal

Question 44

What is the reason for a distorted alginate?

Answer 44

• Delayed pouring of impression
• Tray movement
• Premature removal

Question 45

Name a commercially available alginate product?

Answer 45

Tropicalgin by Zhermack

Question 46

How can gypsum improve the quality of an alginate impression? but what is necessary to remember?

Answer 46

• Good surface quality and detail gain
• Avoid water interaction with gypsum
• Set gypsum not in contact with alginate for periods of serval hours

Question 47

What is the defintion of a dental cast?

Answer 47

Replica of the structures in the oral cavity

Question 48

What are dental plasters and dental stones based on?

Answer 48

Gypsum
CaSO4 dihydrate
Crystalline in form

Question 49

Explain the process of production for Plaster of Paris?

Answer 49

Heating crystalline gypsum to between 110-130 in open vessel
Forms Beta-Ca sulphate hemihydrate
Add water reverting back to dihydrate
Highly exothermic reaction

Question 50

Describe the appearance of beta-Ca sulphate hemihydrate?

Answer 50

Porous powder
Irregular shaped particles
Not closely packed together

Question 51

How does the the crystalline hemihydrate from impact the plaster?

Answer 51

Determines the precise type of plaster produced

Question 52

Explain the process of dental stone?

Answer 52

Dihydrate is heated to 125C under pressure in presence of water vapour

Question 53

Describe the appearance of alpha-Ca sulphate hemihydrate

Answer 53

Unformorm shaped particles

Reduced porosity

Question 54

What are the 5 chemical constituents for dental stone?

Answer 54

CaSO4 hemihydrate
Water
KSO4
Borax
NaCl

Question 55

What is the function of KSO4 in the dental stone mixture?

Answer 55

2%
Accelerates setting time by half
Crystallises quickly
Encourages further crystal growth
4% decreases expansion

Question 56

What is the function of Borax in the dental stone mixture?

Answer 56

2%
Retards the set
Leads to formation of Ca salts of the borate
Deposited on the dihydrate crystals preventing further crystal growth

Question 57

What is the function of NaCl in the dental stone mixture?

Answer 57

Reduces expansion
Extra sites for crystal growth
Keeps crystals closer together

Question 58

What is the function of CaSO4 dihydrate in the dentals tone mixture?

Answer 58

0.5-1%
Provides nuclei of crystallisation
Acts as an accelerator

Question 59

Explain the dental stone setting process?

Answer 59

Water is added to hemihydrate poder
Converted to dehydrate
As solubility of dihydrate is low a supersaturated solution rapidly forms
Stability of this solution is low, the dihydrate crystals start to precipitate out
Process continues as more hemihydrate is dissolved in water

Question 60

What are the compressive strength properties of dental stone?

Answer 60

12-45 MPa Compressive strength
Greater porosity - Low CS
B-hemihydrate - Low CS
Further water lost to atmosphere over time
After 7% water lost - 60 MPa gained

Question 61

What are the surface hardness and abrasion properties for dental stone?

Answer 61

Higher hardness values assoc with higher compressive strength
With water loss to atmosphere hardness also increases
Open crystal structure is stable once set but is porous permitting water up take
Leads to surface degradation of the model

Question 62

Describe how you could increases the abrasion resistance of a dental stone cast?

Answer 62

Impregnation:
Epoxy resin
Methylmethacrylate
Glycerin
Haderning solutions containing 30% colloidal silica (increases hardness)

Question 63

What are the reproduction of detail properties for dental stone?

Answer 63

Not ideal for very fine detail
ISo requires 0.05mm line using a specific consistency of mixed materials
But considered sufficient for most dental applications

Question 64

What are the hygroscopic expansion properties for dental stone?

Answer 64

Stone is immersed in water during set
Crystals can grow more freely
Degree of expansion is greater
Affect relatively insignificant

Question 65

What are the volumetric change on setting properties fro dental stone?

Answer 65

Theoretically expected
Slight setting expansions is always observed
Expansion is due to crystal growth of dihydrate and the set materials having micro porosities
Models will be fractionally oversized and prosthesis too big

Question 66

What is the difference in setting expansion between plaster and stone?

Answer 66

Plaster:
- 0.3-0.4%
Stone:
- 0.05-0.3%

Question 67

What are the working and setting time properties for dental stone?

Answer 67

2-3 minute working time

2-3 minute setting time

Question 68

What is the definition of working time?

Answer 68

The point at which the material can be manipulated into the impression satisfactorily

Question 69

How can the manufacture manipulate the setting time for htypsum?

Answer 69

KSO4
Borax
NaCl
CASO4 dihydrate

Question 70

Indications for dental stone (gypsum)?

Answer 70

Study casts for general diagnosis
Working casts:
- denture full and partial
- ortho appliances

Question 71

What is the definition of a working cast?

Answer 71

Cast onto which the restoration is constructed in the lab

Question 72

What is the definition of a study cast?

Answer 72

Cast is intended to be used for treatment planning purposes

Question 73

How compatible is a gypsum-based material?

Answer 73

Compatible with all commonly used impression materials

Question 74

How can you adjust the behaviour of the dental stone material?

Answer 74

P:L ratio
Water temperature
Degree of spatulation of the mixture

Question 75

What adverse reactions to the dental stone will excess water procedures?

Answer 75

Aid mixing
Slow setting time
Weakened plaster

Question 76

What occurs if you increases the temp of the water added to the mixture for gypsum-based impression materials?

Answer 76

Solubility of the hemihydrate and dihydrate increases
Mobility of the Ca and SO4 ions increases so set is accelerated
Results in combo of both small accelerate in rate of reaction and a reduction in setting time

Question 77

What are the adverse reactions of changing spatulation speed and time for dental stone?

Answer 77

Particles are wetted thoroughly so a smooth mix forms
Increasing speed or time of spatulation reduces setting time, as crystal nuclei are disrupted forming more crystal sites and more rapid precip of dihydrate
Greater setting expansion

Question 78

What is the definition of a silicone impression material?

Answer 78

Elastomeric impression material
Condensation reaction with ethyl alcohol given off
Hydrophobic

Question 79

Name the 5 constituents of silicone impression material?

Answer 79

Dimethyl siloxane
Colloidal silica or CuCO3
Stannous octoate
Alkyl silicate
Colloidal silica

Question 80

What is the function of dimethyl siloxane in silicone impression material?

Answer 80

low Mr silicone which has reactive terminal hydroxyl end groups

Question 81

What is the function of CuCO3/Colloidal silica in silicone impression material?

Answer 81

Filler, as silicone polymer is liquid

FIller particles between 5-10 um

Question 82

What is the function of Stannous octoate in silicone impression material?

Answer 82

Accelerator

Question 83

What is the function of Alkyl silicate in silicone impression material?

Answer 83

Accelerator

Question 84

What is the function of Colloidal silica in silicone impression material?

Answer 84

Thickening agent

Question 85

Explain the reaction for condensation silicones?

Answer 85

Condensation reaction with ethyl alcohol given off
3D silicone matrix is formed on setting
Marked shrinkage on polymerisation
Not as accurate as addition silicones due to setting reaction
Slight exothermic
Poured ASAP
Accurate proportioning difficult leads to variability

Question 86

What is the function of alkyl silicate in the silicone material and what occurs if the amount is reduced?

Answer 86

Creates cross linking
Reduced amount causes:
- weaker material
- decreased tear resistance
- increased permanent set
Moisture sensitive (setting inhibited)

Question 87

Why does stannous octoate has a limited shelf-life? (silicone)

Answer 87

Oxidises
Alkyl silicate not stable in presence of tin ester
Minimal shrinkage as bulk of material is filler

Question 88

How much does silicone shrink?

Answer 88

Proportional to the amount of polysiloxane present

Question 89

Name the 3 presentation of condensation silicones?

Answer 89

Putty
Putty and light body
Paste/Paste

Question 90

Explain the mixing technique for condensation silicone?

Answer 90

Mixed with low viscosity paste accelerator

Kneaded into mass of putty

Question 91

Give 1 trade name for condensation silicones?

Answer 91

Lab Putty (Coltene Whaledent)

Question 92

What are the indications for condensation silicone?

Answer 92

Where dimensional stability is not crucial:
- fixed prosthodontics (putty and light body)
- removable prosthodontics (putty) (reline and rebase)
Produce wax replicas of denture

Question 93

Name the 2 types of impression composition materials?

Answer 93

Greenstick

Red cake

Question 94

Give a description of greenstick?

Answer 94

Rigind non-elastic impression material
Used for border moulding of impression trays especially the post dam
Mucocompressive

Question 95

When to avoid greenstick?

Answer 95

Allergy to colophony (asthma)

Question 96

Give a description of red cake?

Answer 96

Thermoplastic
Impression Compound (Trade name)
Sheets or sticks
Indicated for first impression of the edentulous arch

Question 97

What are the chemical constituents and purposes of the constituents of red cake?

Answer 97

• Resin and waves for consistency control
• Stearic acid as a plasticiser
• CaCO3 as a filler, colouring agent and controlling rigidity

Question 98

What are the properties for red cake?

Answer 98

Transition temp between 55-60C
Hot water both or over naked flame
Overheating can create volatile compounds
Or leaching from overheating  
Full softening is essential
Mucocompression gained
Highly viscous
Dimensional stability poor 1/5%

Question 99

Explain the process of how to use red cake chairside?

Answer 99

Boiling water
Line dish with gause
Leave for 1 min to soften
Place into impression tray
Place back in bath to soften
Bit back
Check to see if safe for intra-oral
Place
Take impression
Cool impression to keep dimension

Question 100

Why do we need to use occlusal registration?

Answer 100

Not possible to relate the dental arches to each other due to lack of index teeth
Casts can’t be related to each other

Question 101

What is the aim of occulsa registratyion?

Answer 101

Records the relationship of the dental arches to each other intraorally which can then be used to relate the casts extraorally

Question 102

Name 3 types of occlusal registration materials?

Answer 102

A-silicones/polyether
Higher methacrylates
Waxes

Question 103

Give a description of a-silicones/polyether bite reg pastes?

Answer 103

Easy to manipulate and move
May ‘bounce’
usually syringed in a gun and allowed to set

Question 104

Give 2 names of bite reg paste commercial products?

Answer 104

Jet Bite Blue, Coltene Whaledent, Silicone

Memosil 2, Heraeus Kulzer, Silicone

Question 105

Give a description of higher methacrylates?

Answer 105

Based on (poly)methylmethacrylate
Fluid/dough form
Sets to a solid
Rigid 
Highly accurate
Can get into undercuts
Used as a dough or coping + dough

Question 106

What is the definition of coping?

Answer 106

Thin layer of material which covers the preparation to the margins

Question 107

How to use higher methacrylates in bite registration?

Answer 107

Mix dough, place on coping, patient bites
Removed when material set
Can be replaced on model to indicate occlusal relationship

Question 108

Give 1 example of a commercial name for a higher methacrylate?

Answer 108

DuraLay II (Reliance)

Question 109

What can higher methacrylates show?

Answer 109

Dough, removed and measured

Indicates amount of interocclusal clearance

Question 110

What is the definition of an addition silicone impression material

Answer 110

Elastomeric impression material
Termed after setting reaction addition polymerisation reaction
Hydrophobic

Question 111

Name the 6 constituents for addition silicone impression materials and their functions?

Answer 111

Polymethyl hydrogen siloxane - polymer
Siloxane prepolymers - cross linking polymer
Quartz - filler
Divinyl polydimethylsiloxane - polymer
Chloroplatinic salt - catalyst
Surfactant and retards - reg of setting and aids to wetting of hydrophobic silicone

Question 112

How can the amount of filler change the category of the addition silicone impression material?

Answer 112

Heavy
Universal
Light-body

Question 113

What 2 pastes are needed to form an addition silicone impression material?

Answer 113

Base paste

Catalyst paste

Question 114

What must both pastes share for an addition silicone impression material?

Answer 114

The same consistency to facilitate mixing

Question 115

What is the function of surfactants for an addition silicone impression material?

Answer 115

Address the hydrophobicity of the polysiloxanes
Facilitates wetting of the surface of the preparation and the soft tissues
Aids pouring of the model as wet stone has an affinity for the hydrophilic surface of the impression

Question 116

What reaction will occur if the mixture has moisture contamination for an addition silicone impression material?

Answer 116

Rolled edge of preparation margins

Question 117

Describe the setting reaction for an addition silicone impression material?

Answer 117

Polymethyl hydrogen siloxane in one paste + vinyl-terminated polysiloxane on the other paste
Addition polymerisation reaction

Question 118

Explain the setting reaction chemistry for an addition silicone impression material?

Answer 118

Hydrogen from the hydrogen siloxane backbone links with the vinyl group on the other siloxane chain
Forming cross-link polymer
No byproducts

Question 119

What type of catalyst is present for an addition silicone impression material and what must you avoid interacting with it?

Answer 119

Platinum
Sulphur containing materials such as latex gloves
Results in weakened material
Latex-free gloves

Question 120

Describe the good properties of an addition silicone impression material?

Answer 120

Highly hydrophobic
V good dimensional stability (best)
Many models can be poured

Question 121

Describe the bad properties for the use of an addition silicone impression material?

Answer 121

Too accurate and not compensated for during the investment and casting process
Too small a die producing a small cast

Question 122

When will the addition silicone impression material increase in stiffness and why?

Answer 122

After 2-3 hrs due to further crosslinking

Question 123

How to mitigate the poor tear resistance of an addition silicone impression material?

Answer 123

Leave in the mouth for longer

Question 124

How to mitigate the bad interaction of the addition silicone impression material to the oxygen inhibition layer of resin-based composite materials?

Answer 124

Apply a layers of separator on recently placed resin-based composite materials

Question 125

Name 3 advantages and disadvantages for an addition silicone impression material?

Answer 125

Adv:
- good detail reproduced
- excellent dimensional stability
- high patient acceptance
Dis:
- hydrophobic
- too accurate
- tear resistance poor
- expensive

Question 126

Name the 2 indications for an addition silicone impression material?

Answer 126

Fixed and removable cast restorations
Good if distance between lap and surgery is far
Suitable for the same indications as alginate
More surface detail and long term dimensional stability

Question 127

Name the 5 types of presentation for addition silicone impression materials?

Answer 127

Putty
Heavy-bodied
Universal bodied
Light-bodied
Extra light-bodied pastes

Question 128

Give 1 example of a commercially available addition silicone impression material?

Answer 128

Affinis Coltene Whaledent

Question 129

What is the effect to a model if addition silicones release hydrogen gas as a by product?

Answer 129

Porosity on the die material

Question 130

What can be used to absorb the hydrogen for an addition silicone impression material?

Answer 130

Palladium

Question 131

How to pour a cast for a gypsum based material or epoxy?

Answer 131

Leave for 30 mins before pouring cast

And leave overnight if epoxy is to be sued to make the die

Question 132

What are the 2 main constituents of an impression paste?

Answer 132

Zinc oxide

Eugenol-based impression

Question 133

Name the 2 main indications for an impression paste?

Answer 133

Making working impression of edentulous arches

Denture relining material

Question 134

What spacing does impression paste need in a special tray?

Answer 134

1mm

Used in thin sections

Question 135

Name the 2 pastes used in an impression paste?

Answer 135

Base

Catalyst

Question 136

Name the constituents for the base paste of an impression paste and their function?

Answer 136

Base:

• Zinc oxide - reactive component
• Inert oils - plasticiser and reduced irritation of eugenol
• Zinc acetate - acclerator

Question 137

Name the constituents for the catalyst paste of an impression paste and their function?

Answer 137

Catalyst:

• eugenol - reactive component
• Mg/CaCl - accelerator
• Talc/Kaolin or silica - inert fillers
• Gum rosin - binder (50%)
• Lanolin/resinous balsam - viscosity and flow regulator

Question 138

What is the function of gum rosin of an impression paste?

Answer 138

Binder
Gives the paste body
Reduces the risk of separation of the components
Thermoplastic and so can be softened in hot water aiding is removal from the plaster model

Question 139

What catalyses the setting reaction for an impression paste?

Answer 139

Water

Question 140

Describe the setting reaction of impression paste?

Answer 140

Similar to ZOE

Question 141

Describe the process of the setting reaction of the impression paste?

Answer 141

Sets slowly passing through a thickening phase after which it is hard to manipulate
Further phases of hardening occur before the impression should be removed
Setting reaction accelerates with the increases in oral temp and humidity
Check for set on mixing pad

Question 142

Name 3 good properties of the impression paste?

Answer 142

Rigid impression produced
Good fine detail reproduced
Mucostatic impression

Question 143

Name 3 bad properties of the impression paste?

Answer 143

Lacks elasticity leading to breakage or distortion when removed from undercuts
Adheres to dry surfaces
Small dimensional change (0.15% shrinkage)

Question 144

Describe the process of mixing impression paste?

Answer 144

By hand
Using paper pad
Clarident spatula
Paste/paste system
Each paste a different colour
Ensures mixed thoroughly

Question 145

Describe the best practice to remove the impression paste from the spatula to the tray?

Answer 145

Warm spatula above temp rosin soften and wipe

Question 146

What strange sensations can impression paste give to a paitient?

Answer 146

Tingling or mild burning sensation intra-orally

Question 147

How to avoid the impression paste sticking to the patients extraoral tissues?

Answer 147

Apply petroleum jelly to extraoral features

A lot

Question 148

Give 1 example of a commercially available impression paste?

Answer 148

Impression paste by SS White

Question 149

What material can be sued to make a working model?

Answer 149

Gypsum-based

Question 150

How long will a gypsum-based material cast take to set?

Answer 150

At least 1 hr

Question 151

How to remove the impression paste from the gypsum-based model?

Answer 151

Immersed in warm water to remove the impression

Question 152

What type of cast can an impression paste only be sued with?

Answer 152

Gypsum-based model

No separating medium is required

Question 153

What are the indications for impression plaster?

Answer 153

USed to record endentulous ridges

Question 154

Name 5 good properties for impression plaster?

Answer 154

Good surface detail
Tolerated by patient
Small setting expansion
Good dimensional stability
Hydrophilic

Question 155

Name 3 bad properties for impression plaster?

Answer 155

Sets ridigly and is very brittle
Must be fractured to release it from undercuts
Pieced back together so that the cast may be poured (no recovery from deformation)

Question 156

Describe the setting reaction and constituents for impression plaster?

Answer 156

Similar to plaster of PAris with the beta-CaSO4 hemihydrate
More KSO4 included to control expansion
Borax is needed to retard the set
KSO4 also acts as accelerator
Requires a higher water to powder ratio when used as an impression material
Runnier mix if compared to pouring a model
Setting is exothermic

Question 157

Name 2 disadvantages of impression plaster?

Answer 157

Salivate excessively and can damage surface detail

Hard to tolerate the upper impression as material flows quite readily during early setting reaction

Question 158

Describe the mxijgn process for impression plaster?

Answer 158

Hand
Correct P:L
Powder sifted into water and left for short time before mixing
Powder particles fully wetted

Question 159

How must the powder for an impression paste be stored?

Answer 159

Airtight tin to stop water entering the tin

Question 160

What sized spacing is needed for impression plaster in a special tray?

Answer 160

1mm

Question 161

How long is the working time for impression plaster?

Answer 161

2-3 mins

Question 162

How do you insert the tray with impression plaster as the impression material?

Answer 162

Tray moved side to side on insertion so material can flow

Question 163

How to decontaminate impression plaster?

Answer 163

Decontamination procedure follow manufacturer’s instructions

Question 164

When casting impression plaster what should you use as a separator?

Answer 164

A separating medium
Solution of Na alginate painted onto impression used
Prevents plaster used for model adhering to the impression plaster

Question 165

What is the definition of a wax?

Answer 165

Type of lipid
Insoluble in water
Soluble in non-polar solvents
Melt above 45C
Plastic at ambient temps

Question 166

Name the 5 bases to make a wax?

Answer 166

Animal/vegetable fat
Gums
FAs
Oils
Resins

Question 167

What is the melting point, hardness and role in dental wax for Carnauba?

Answer 167

Organic
84-91
High
Increases melting range and hardness

Question 168

What is the melting point, hardness and role in dental wax for Ouricury?

Answer 168

Organic
79-84
High
Increases melting range and hardness

Question 169

What is the melting point, hardness and role in dental wax for Candelilla?

Answer 169

Organic
68-75
High
Increases hardness of paraffin wax

Question 170

What is the melting point, hardness and role in dental wax for Beeswax?

Answer 170

Organic
62-68
Medium
Common base for many waxes

Question 171

What is the melting point, hardness and role in dental wax for Japan Wax?

Answer 171

Organic
53
Medium/low
May be substituited for beeswax

Question 172

What is the melting point, hardness and role in dental wax for Paraffin?

Answer 172

Synthetic
40-51
Medium
Common base wax

Question 173

What is the melting point, hardness and role in dental wax for Ozokerite

Answer 173

65-69
Medium/high
Great affinity for oils and raises melting temp

Question 174

What is the melting point, hardness and role in dental wax for Ceresin?

Answer 174

77-93
Medium/High
Increases melting range

Question 175

What is the melting point, hardness and role in dental wax for Montan?

Answer 175

72-90
Medium/high
Increases melting range

Question 176

What is the melting point, hardness and role in dental wax for Barnsdahl?

Answer 176

70-74
Medium/High
Increases melting range and hardness and reduces paraffin wax flow

Question 177

Origin of the Carnauba wax?

Answer 177

Copernicia palm

Question 178

Origin of Ouricury wax?

Answer 178

Feather palm

Question 179

Origin of the Candelilla wax?

Answer 179

Euphorbia antisyphilitica

Question 180

Origin of the Japan wax?

Answer 180

Really a fat containing glycerides of palmitic and stearic acid
From sumac tree
Lacquer

Question 181

What is the definition of a lacquer?

Answer 181

Clear or coloured varnish that dries by solvent evaop to produce a hard and durable finish

Question 182

Origin of Spermaceti wax?

Answer 182

Sperm whale

Question 183

Origin of bees wax?

Answer 183

Bees

Question 184

Why can natural waxes have very varying properties within the same wax?

Answer 184

Source difference

Time obtained

Question 185

What is the definition of mineral waxes?

Answer 185

Derived from refining petroleum products
Available as paraffin wax
Show volumetric contraction (10-16%) during cooling and solidification

Question 186

What is the defintion of microcrystalline waxes?

Answer 186

Derived from heavier oil fractions produced during petroleum distillation
Higher MP
Less volumetric contraction
Tougher
Formed into plates
Oil reduces hardness

Question 187

Give 4 examples of microcrystalline waxes?

Answer 187

Ceresin
Ozokerite
Montan
Barnsdahl

Question 188

Which substances can you later to alter the overall properties of a wax?

Answer 188

Gums
Fats
Resins

Question 189

Why do dental waxes have a melting range?

Answer 189

As there are many different constituents on the eax which melt at different temps

Question 190

What is a key property a dental wax must have?

Answer 190

Change rapidly from solid to liquid

Question 191

What to consider when mixing a dental wax?

Answer 191

Amount and mode of thermal expansion

Ensure the properties of the wax blended is suitable for each application

Question 192

What are the physical properties of waxes?

Answer 192

Compressive strength and elastic moduli are relatively low

Beeswax weakest and carnauba wax strongest and most elastic

Question 193

How can flow of wax be adjusted?

Answer 193

Change in temperature below MP

Flow controlled by composition

Question 194

How long should be left between completion of wax pattern and investment?

Answer 194

Short as possible as, wax shouldn’t be left to stress relieve
Wax can rebound and loss its shape

Question 195

What are the indications for baseplate and modelling wax?

Answer 195

Base of denture
Bite blocks (occlusal rim)

Question 196

Name the 5 constitients of baseplate wax?

Answer 196

Paraffin waxes (ceresin + beeswax and some carnauba was as hardener)
Al/Cu particles as strengtheners
Resins
Oils
Colouring agents

Question 197

What are the properties of baseplate wax?

Answer 197

FLow determined by climate present in
DImensional stability not crucial
Beeswax permits surface to be smoothed and contoured
MP < 100
Residue wax on teeth can interfere with bonding and interlocking of resin with artificial teeth

Question 198

What is the only successful application of wax?

Answer 198

Bite rims to record jaw relationship

Question 199

What is the definition of shellac?

Answer 199

Derived from insects
Thermoplastic
Rigid when solid
Waxes can be added
More stable at mouth temps

Question 200

What are the properties of an acrylic base plate?

Answer 200

More rigid
Better retention
More expesnive

Question 201

Indication for acrylic base plate?

Answer 201

Fit and retention of prototype and therefore final denture

Question 202

What is a clinical tip for using wax bite black?

Answer 202

Pass wax through cold water between spells in mouth
Reduces expansion
Returns to original size and shape

Question 203

What is the definition of Moyco beauty wax?

Answer 203

Record occlusal relationships
Strengthened to overcome distortion
Brittle

Question 204

What is the definition of sticky wax?

Answer 204

Beeswax mixed with natural resins (dammar)
Firm and brittle once cet
fracture > flex
FLows when melted
Hold casts together with metal prior to mounting

Question 205

Name 4 denture base materials?

Answer 205

Wax
Shellac
Acrylic
Metal

Question 206

Name 4 types of cast metal used for denture base?

Answer 206

Cobalt-Chromium
Nickel-Chromium
Pure titanium
Titanium

Question 207

Name 3 materials denture teeth can be constructed from?

Answer 207

PMMA (polymethylmethacrylate)
Bis-GMA
Ceramic

Question 208

What are the good properties of PMMA denture teeth?

Answer 208

Highly cross-linked resin
Good hardness and wear resistance
Resists crazing
Good abrasion resistance

Question 209

What are the optical considerations for denture teeth choice?

Answer 209

Aesthetics are key
Need to be translucent and opalescent
Shade guide
Denture teeth should fluoresce like natural teeth under UV light
Different shapes and sizes

Question 210

Name the 2 types of construction methods for PMMA denture teeth?

Answer 210

Inject into mould

Built up in layers

Question 211

Explain the process of inject into mould construction method for PMMA denture teeth?

Answer 211

Injected into a mould (acrylic powder is softened by heating and forced into the mould under pressure
further divided into dough and injection moulded

Question 212

Explain the built up in layers construction method for PMMA denture teeth?

Answer 212

Best aesthetics

Question 213

What are the good properties of ceramic denture teeth?

Answer 213

Excellent aesthetics

Good wear resistance

Question 214

What are the bad properties of cermaic denture teeth?

Answer 214

Hard so can’t be adjusted easily
If adjusted lose surface glaze
Glaze can’t be replaced
Brittle
Unnatural chattering and clicking on contact
Retention to denture base via diatoric hole on undersurface of teeth (mechanical)
PMMA is forced into retention holes
No chemical bond between teeth and denture allowing teeth to detach during lifetime
Silane can be used to create chemical union but is unreliable

Question 215

What are the contraindications for ceramic teeth?

Answer 215

Reduced ridge support as more force is transmitted to the ridge
Need sufficient bulk for strength contraindicated where little interocclusal clearance is present

Question 216

What occurs if the denture teeth are poorly bonded to the denture base?

Answer 216

Stress concentrations
Debonding of the tooth
Better quality teeth (highly corss-linked) have a decreased ability to bond

Question 217

How can highly cross-linked teeth achieve a better bond to the denture base?

Answer 217

Build the tooth with less crosslinking in the bonding area

Question 218

How to enhance chemical adhesion for a denture tooth?

Answer 218

Resin at base of tooth can be softened with a monomer

chemicals must be compatible

Question 219

How can micromechanical retention be achieved for a denture tooth?

Answer 219

Roughening

Question 220

Which curing method is better for union between denture tooth and base

Answer 220

Heat is better

Cold is other option

Question 221

What can you treat denture teeth to enhance bond strength?

Answer 221

4-META

Question 222

What properties must the denture teeth and base share to enable compatibility?

Answer 222

Modulus of elasticity
Coefficient of thermal expansion
This prevents crazing and cracking around the base

Question 223

Explain the process of processing of a denture?

Answer 223

Convert the wax prototype into finished acrylic appliance
Invested
Boiled out
Acrylic placed into plask
Cured
Flash removed
Polished

Question 224

How to flask acrylic?

Answer 224

Gypsum bonded investment material used such as binder is beta Ca SO4
Low temp

Question 225

Explain the process of flasking during the denture processing process?

Answer 225

Waxed up denture is sealed onto a master model
Invested in plaster of PAris in a splint metal flask
Plaster has set the flask is open end and boiling water is used to remove the wax
Done thoroughly to remove all traces of wax
Wax will act as a separator and stop bonding between denture teeth and denture base

Question 226

When flasking what is essential to take care with?

Answer 226

Not to disturb any teeth or clasps

Only held by mechanical interlocking or undercuts

Question 227

Why is a separator applied during the flasking stage?

Answer 227

Prevents the resin dough impregnating the gypsum which would create a rough surface
Reduces water ingress into acrylic, which would lead to crazing

Question 228

Name an example of a separator and its function?

Answer 228

Na alginate
K alginate
NH3 alginate
Forms an insoluble Ca alginate coating on surface of plaster
Eliminates water ingress

Question 229

What is the definition of a denture adhesive?

Answer 229

It is a glue that stick the prosthesis to the supporting oral mucosa
Attempts to improve the retention and function

Question 230

Name the 3 main materials in a denture adhesive?

Answer 230

Gelatin
Pectin
Gum

Question 231

How are denture adhesives thickened?

Answer 231

With cellulose or a filler such as MgO2

Question 232

What materials can be added to a denture adhesives to give antibacterial properties and reduce surface tension?

Answer 232

Hexachlorophene

Na lauryl sulphate

Question 233

Name the 3 presentations of denture adhesives?

Answer 233

Paste from tube
Powder
Pads

Question 234

Name 2 commercially available denture adhesives?

Answer 234

Fixodent by P&G Oral Health

Poligrip by GSK

Question 235

Why is good denture hygiene important?

Answer 235

Bacteria and fungi may colonise the surfaces of a denture

Can cause infection of the soft tissues/damage

Question 236

Name the 3 main materials for a denture cleanser?

Answer 236

Na hypochlorite (kill bacteria and fungi)
Citric acid (breakdown biofilm)
Na perborate (forms an alkaline peroxide solution when in contact with water)

Question 237

What is the function of a dental cleanser?

Answer 237

Bactericidal

Fungicidal

Question 238

Name the 3 types of presentations for denture cleansers?

Answer 238

Paste
Tablet
Powder

Question 239

What are the side effects of Na hypochlorite on the denture?

Answer 239

Bleach denture white

Question 240

Na hypochlorite ratio for denture cleansing?

Answer 240

1 tsp to a tumbler of water for 20 mins

Do not use with metal dentures

Question 241

Explain the process of cleaning a denture?

Answer 241

To remove food debris and plaque
Soft brush with cold water
No toothpaste as abrasive
Fill sink with water to reduce risk of shattering
Toilet soap as preference

Question 242

Name 1 commercially available denture cleanser?

Answer 242

Milton Sterilising fluid by Milton

Question 243

Name the 8 requirements of a denture base resin for a dentist?

Answer 243

Adequate strength to withstand occlusal loading
Easy to manipulate and process
No toxic fumes or dust during processing
Remain unstained and unaffected by fluids and temperature changes in the oral cavity
Simple to repair
Maintain its shape, form and aesthetics in normal function
Biocompatible
Radiopaque

Question 244

Name the 6 requirements of a denture base resin for patients?

Answer 244

Fit well and be comfortable in use
Not traumatise the tissues
Easy to clean
Aesthetically pleasing both immediately on placement
and in the longer term
Allow good heat diffusion to retain normal perception
of thermal stimuli
Permit food to be tasted normally so that food can
remain appealing

Question 245

What is the GS denture base material?

Answer 245

PMMA

Polymethymethacrylate

Question 246

Name the 4 formulations of PMMA?

Answer 246

Gel
Sheet
Blank
P:L

Question 247

How is PMMA formed?

Answer 247

Polymer formed from the addition reaction of monomer methylmethacrylate

Question 248

What advantages does PMMA have in a powder and granule formulation?

Answer 248

Increases SA:V enabling more mixing

150um

Question 249

Name the 6 chemical constituents of PMMA and their functions?

Answer 249

(Poly)methylmethacrylate (principal component)
Benzoyl peroxide (initiator)
Ti/Zn oxide (increases opacity)
Inorganic pigments
Mercuric sulphide
Cadmium sulphide
Ferric oxide
(varies colour, respectively:
Red, Yellow. Brown)
Dibutyl phthalate (plasticiser)
Dyed synthetic fibres –
nylon or acrylic
(simulate anatomical
structures such as
capillaries within the
denture base material)

Question 250

What is the alternative to dibutyl phthalate and why is it needed?

Answer 250

Potential carcinogen

Citrates or benzoate esters

Question 251

What must you ensure not to happen with the PMMA powder?

Answer 251

Not contaminated as a small amount will activate the reaction

Question 252

What is MMA?

Answer 252

Liquid monomer
100.3C BP
Toxic if inhaled for long time
Flammable
Well-ventilated room

Question 253

What are the 4 chemical constituents of MMA and their function?

Answer 253

Methylmethacrylate (monomer)
Hydroquinone (inhibitor – prevents monomer polymerising during storage
Ethylene glycol dimethacrylate
(substituted for the main
monomeric component)
(cross-linking agent)
Dibutyl phthalate, butyl
and octyl methacrylate
(plasticizer)

Question 254

What chemical can be added to MMA to act as an accelerator?

Answer 254

N,N dimethyl p-toluidine
N,N-dihydroxyethyl-p- toluidine
Undergo cold curing polymerisation

Question 255

What can methylmethacrylate be substituted for to remove irritation?

Answer 255

Ethyl and butylmethacrylate

Question 256

What is the function of hydroquinone?

Answer 256

React with any random free radicals to prevent premature reaction from UV or free radicals
Produces stabilised free radicals

Question 257

How to improve the wear, fracture resistance, cracking and crazing of PMMA?

Answer 257

By adding cross-linking polymers such as diethylene glycol dimethacrylate
Different monomer units can react with another growing chain, therefore linking the chains

Question 258

What are the role of plasticisers in the PMMA/MMA mixture?

Answer 258

Vary mechanical properties
Prevent interaction between polymer molecules
Causes problems when plasticiser runs out the denture becomes harder and can migrate into oral fluid

Question 259

What are the biocompatibility of phthalates?

Answer 259

Poor
Carcinogenic
Look for alternative plasticisers such as esters octyl or butyl methacrylate
Methacrylates less likely to leach, but failure of polymerisation will causes leaching and hardening of denture base

Question 260

How should PMMA sheets be stored?

Answer 260

sheets are stored in the refrigerator in

the dark before heat processing in the normal way

Question 261

Name the 3 types of PMMA acrylic polymerisation methods?

Answer 261

Cold
Chemical
Self-cure

Question 262

Explain the setting reaction of a PMMA acrylic resin?

Answer 262

Initiated by an organic peroxide such as benzoyl
peroxide
Free radicals produced either by heating or reacting with a chemical accelerator such as
an organic amine
Highly exothermic reaction
Heat is slow to dissipate as processing is carried out in a plaster mould

Question 263

What causes gaseous porosity of PMMA acrylic resin?

Answer 263

Temperature must be
carefully controlled as the
volatile monomer may
vaporise during
processing
Gas bubbles may be
produced and can
become entrapped in the
denture base resin

Question 264

How much polymerisation shrinkage occurs for PMMA acrylic?

Answer 264

Shrinkage equates to 6% for the recommended 3:1
polymer:monomer mix
Dimensional change must be compensated for during the manufacturing process otherwise the final denture or appliance will not fit
Internal strains are set up within the material as a result

Question 265

What are the mechanical properties of PMMA?

Answer 265

Low tensile strength
Low elastic modulus
Flexes in use (fracture overtime, due to cyclic loading - fatigue fracture)

Question 266

What does cross-linking ensure for the structure of PMMA?

Answer 266

Cross-linking agents help to ensure that there is a
network of molecules rather than long chains or
branched chains that reduce the strength of the final material

Question 267

What is the fracture toughness of PMMA acrylic?

Answer 267

Low

Brittle on impact

Question 268

What are the thermal properties of PMMA?

Answer 268

High coefficient of thermal expansion
Low glass transition temp
Low thermal conductivity
Low thermal diffusivity

Question 269

Why can low glass transition temp be problematic with ceramic teeth?

Answer 269

Due to the difference in coefficient of thermal expansion

Ceramic teeth may be lost due to variations in contraction and expansion of the materials during thermal cycling

Question 270

What consequences do low heat diffusivity and gaseous porosity cause to the patient?

Answer 270

Hot food sensation reduced

Oral mucosa become less keratinised (unprotected)

Question 271

Describe the dimensional stability of PMMA?

Answer 271

PMMA absorbs fluid, causing expansion by 2%
Polymer shrinkage compensated for expansion
Keep denture wet as drying out can cause shrinkage and crazing
Water sorption cause discolour and stain
Colour stability is good

Question 272

What is the GS P:L ratio for PMMA acrylic?

Answer 272

Heat-cured process, powder:monomer ratio should be about 3

or 3.5:1 by volume or 2.5:1 by weight

Question 273

What occurs if the polymer to monomer ratio is too high for PMMA?

Answer 273

insufficient monomer

to wet the polymer a granular resin structure results

Question 274

What occurs if the monomer ratio is too high for PMMA?

Answer 274

Increased shrinkage

Question 275

What problems arise from residual monomer presence?

Answer 275

Irritant to oral soft tissues

Acts as a plasticiser softening the polymer

Question 276

What problems are caused by the plasticisier softening the denture polymer?

Answer 276

Denture base weaker and more flexible
Fracture may result
Polymer may creep under load over the long term and
deform the denture base
More marked with cold-cure acrylics and can create greater problems
Crosslinking agents may be added in an attempt to minimize this effect
Loss of material due to water solubility is low.
Presence of organic solvents such as alcohols and chloroform has an adverse effect on methacrylates

Question 277

What is the definition of crazing and what causes it?

Answer 277

Fine cracks on the surface of the acrylic
Localised areas of plastic deformation of the polymer
caused by stress relief of internal strain

Question 278

What is the definition of crack and what causes it?

Answer 278

Crack is formed as a result of brittle fracture as the walls of voids in the region are thin in the region of the fracture
Crack grows under externally applied load eventually leading to a
continuous crack
Areas filled with microscopic voids and a crack may result if the crazed area can no longer support stress

Question 279

What do tensile stresses cause in PMMA dentures?

Answer 279

Tensile stresses will also cause rupture of the polymer chains leading to a weakened denture

Question 280

What are the 4 causes of crazing?

Answer 280

Heat
Action of organic solvents
Differences in coefficients of thermal expansion around (dissimilar) inclusions that form stress concentrations
Loss of moisture (contract and expand during dry at wet cycle - reduced by crosslinking)

Question 281

Name 3 ways to prevent crazing of PMMA dentures?

Answer 281

Not allowed to dry out
Finished denture always supplied in water
Patient advised to store in water

Question 282

How are small BVs mimicked in a denture base?

Answer 282

Small fibres of red acrylic

Question 283

What shades are denture bases?

Answer 283

Mucosa-coloured

Question 284

How to increase wettability of the denture base?

Answer 284

Triethoxysilane

Question 285

When would clear acrylic be used for a denture?

Answer 285

Improved appearance for more discerning patient

Processed in 2 stages

Question 286

How is radiodensity created in a PMMA denture?

Answer 286

Originally radiolucent

Achieved by addition of 10-15% bismuth or uranyl salts

Question 287

What are the detrimental effects of increasing radiopacity?

Answer 287

Increasing transverse deflection
Increasing water sorption
Handling of the unset polymer more difficult

Question 288

What are the 6 other properties of PMMA?

Answer 288

Low density
Light weight
Easier to wear
No taste or smell
Cheap
Easy to process

Question 289

Name the 5 types of acrylic (based on means of curing)?

Answer 289

Heat cured
Cold cured
Light cured
Injection technique
High impact

Question 290

Explain the process of formation of heat cured acrylic?

Answer 290

Polymer and monomer are mixed to form a sand like mixture initially
Becomes tacky as polymer starts to dissolve
Left in container until dough stage is reached

Question 291

What is the dough stage for heat cured acrylic?

Answer 291

Does not stick and snaps when pulled apart

Failure to pack the mixture into the mould at the dough stage will result in the material becoming too ribbery and stiff

Question 292

What factors affect the time to achieve dough time?

Answer 292

Particle size of the polymer - smaller the bead diameter, the more rapidly the dissolution of the bead in the monomer, reaction
therefore proceeds more quickly
Molecular weight of the polymer - lower molecular weight, faster the reaction will proceed
Higher temperature produces a quicker reaction
Presence of a plasticiser - reduces the dough time
Polymer/monomer ratio - higher ratio, shorter the dough time
Type of polymer – permeation of the monomer is greater with a
granular polymer, dissolves more readily and reaction time is quicker

Question 293

How to add colour to the acrylic?

Answer 293

Added colouring agent
Can be added to polymer beads or powder
Little needed as intense
If colour agent on polymer bead surface add slowly to the monomer
Can lead to streaking

Question 294

Explain the process of processing of heat cured acrylics?

Answer 294

Excess of acrylic
dough is placed into
the part of the flask
containing the teeth
Flask is closed and
placed into a press
Pressure applied so
that the dough is
forced into all parts of
the mould
Excess is expressed
out of the press

Question 295

How to avoid shrinkage porosity?

Answer 295

Excess of acrylic dough is required otherwise
shrinkage porosity will result
Placed into the flask with a thin polythene sheet
Flask is opened and the excess removed
Known as trial packing
May be repeated several times until no excess is
expressed
At last closure the polythene sheet is removed with any residual excess

Question 296

Explain the process of heat-cured processing?

Answer 296

Essential that sufficient acrylic dough is tamped
into place and remains under pressure during
the processing
Otherwise any air voids incorporated during the
packing will not collapse
Leads to a source of porosity and weakness
Flask is finally closed and placed under pressure
in a water bath most commonly 73°C for 8 hours
or longer
Normally carried out in the laboratory overnight
for convenience
Temperature of the water bath is slowly raised to reduce the risk of the monomer vaporising otherwise gaseous
porosity may occur
Near complete conversion of the monomer results with a minimum amount of unreacted monomer remaining
When polymerisation cycle is complete, flask is removed from the water bath and allowed to cool slowly at room
temperature before being opened
Slow cooling prevents stresses forming by plastic
deformation within the polymer as there is a difference of
contraction between the gypsum and acrylic
Also allows some stress-relieving flow of the material
Higher the curing temperature the acrylic is more likely to
distort due to more residual stress

Question 297

What temperature is necessary for processing of heat-cured acrylic?

Answer 297

Monomer heated will become vapourised
Polymerisation is exothermic so flask hotter than water bath
Slow processing to allow dissipation
Gypsum absorbs heat
Follow manufacturer’s processing instructions

Question 298

Explain the process of divestment of the PMMA denture?

Answer 298

Denture carefully removed from the gypsum model avoiding flexure and breakage
Acrylic flash removed and non-tissue bearing surfaces are polished

Question 299

Explain the process of polishing the PMMA denture?

Answer 299

Soft brown rubber points used
Kept moving to stop heat burning or distorting the denture
Fibres removed using sharp scalpel blade
Stain resistance can be problematic
Heat can cause denture to melt, can change properties

Question 300

Explain what you would use to finish the PMMA denture?

Answer 300

Finish with rubber points and wheels or
sandpaper
Pumice slurry:
- crushed porous volcanic stone that is a
highly siliceous glass
- slurry should be made up with water to a thin
paste
- moved quickly over the surface at high speed
to prevent the build up of heat

Question 301

Explain what you would use to polish the PMMA denture?

Answer 301

Tripoli
Calcium carbonate (whiting or precipitated
chalk) used in suspension with water

Question 302

What other dental appliances are constructed with acrylic?

Answer 302

Occlusal splints

Question 303

Explain the injection technique for denture formation?

Answer 303

Designed to maintain pressure on the
acrylic as it cures in an attempt to overcome the large volumetric shrinkage of PMMA
Wax sprue which is added to the denture
Denture is flasked and the wax boiled out
High pressure injection cylinder is connected to the flask
Acrylic is mixed and placed into the cylinder.
Injected into the mould under pressure when at the
desired consistency
High pressure is maintained during the polymerisation
reaction so more material is pushed into the flask to
compensate for the polymerisation shrinkage

Question 304

Give an example of an commercially available injection moulding system?

Answer 304

Ivoclar vivadent

Question 305

What is added to PMMA to create a high-impact acrylic?

Answer 305

Butadiene-styrene rubber (reinforcing agent) is
added to confer some resistance to fracture
Rubber particles are grafted onto the MMA to
become incorporated into the acrylic matrix
Powder liquid presentation
Processed like hear cured
Longer lifespan and performance
More expensive

Question 306

What is the initiator for a cold-cured acrylic?

Answer 306

Tertiary amine

Question 307

What is the catalyst for a cold-cured acrylic?

Answer 307

N,N dimethyl-p-toluidine

Sulphinic acid are

Question 308

What is present in TII cold cure resin powder and liquid?

Answer 308

Powder:
- polymethylmethacrylate
- benzoyl peroxide
- Pigments 
Liquid:
- methylmethacrylate
- di-n-butylphthalate
- amine

Question 309

What is present in TII cold cure resin powder and liquid?

Answer 309

Powder:
- polyethyl methacrylate
- benzoyl peroxide
- pigments
Liquid:
- butyl methacrylate
- amine

Question 310

Indications for TII cold-cured acrylic?

Answer 310

MMA hypersensitive patients

Question 311

What is difference between TII and TI cold cured acrylic?

Answer 311

Less irritant to soft tissues
Softening temp is lower to 67C rather than 90
Greater risk of distortion

Question 312

Describe the polymerisation efficiency of TII cold cured acrylic and what does this cause?

Answer 312

Residual monomer remains
(3–5%) as polymerisation process is less efficient than heat-curing
Due to the lower molecular weight
of the polymer chains and the lack of
propagation of the chain during the polymerisation process
Residual monomer acts as a plasticiser
which softens the material
Inferior mechanical properties result
Eventually properties achieve same level as heat after all leached out
Leaching on oral mucosa is a cause of irritation
Polymer beads smaller to facilitate the monomer dissolving the polymer

Question 313

Why does TII cold cured acrylic have problems with porosity and how to minimise it?

Answer 313

Due to air dissolved in the monomer which is not
soluble in the polymer at room temperature
May be reduced by polymerising the material
under pressure
Need excess material within the mould to ensure
that the prosthesis will remain under pressure
during the curing process and ensure that porosity is minimised

Question 314

What are the mechanical properties of cold cured acrylics?

Answer 314

Cold cured acrylics are not as strong as those
that are heat cured (c80%)
Due to lower molecular weight of the formed
polymer so less conversion of the monomer to
polymer occurs
More initial deformation and creep
Slower recovery seen
Less build up of internal strain occurs as no
external heat source is used

Question 315

Describe the stability of cold-cured acrylics?

Answer 315

Poorer long-term colour stability due to presence
of tertiary amine
Only 0.1% dimensional change seen on
polymerisation
Due to the reduced level of conversion of the
monomer
Greater exothermic reaction than heat-cured
materials due to an excess of initiator
Initiator which contributes most significantly to
the exothermic reaction

Question 316

What are the indications for cold cured acrylics?

Answer 316

Removable orthodontic appliances
Minor denture repairs or relines (laboratory)
Chairside relines

Question 317

Describe light-cured acrylic presentation and constituents?

Answer 317

Cured by the application of visible light energy
Presented as a prefabricated sheet of material
which can be adapted to the surface of a model
Urethane dimethacrylate and high molecular
weight acrylic resin monomers are blended with an organic filler of acrylic beads

Question 318

How to improve handling for light cured acrylics?

Answer 318

Microfine silica is added to optimise handling
Forms an interpenetrating polymer network when
cured

Question 319

Explain the setting reaction for light cured acrylics?

Answer 319

Camphorquinone, accelerator (amines) and
pigments are also required
Supplied fully compounded in a light tight package
Technician lays down the material on the model or
denture being constructed or modified, moulding it
into the desired shape
Placed into a light box and cured for c5–10 minutes
Surface of the material must be treated with a
barrier chemical such as carboxymethylcellulose to
prevent oxygen inhibition of the polymerization
reaction as process is carried out in air

Question 320

Indications for light cured acrylics?

Answer 320

Baseplates of the denture on which a
conventional PMMA suprastructure is added
Orthodontic appliances
“Gum work” portion of metal-based partial
dentures
Repair of fractured acrylic dentures
Hard relines
Construction of special (impression) trays

Question 321

What is a flexible denture?

Answer 321

Biocompatible nylon
thermoplastic
Claimed to be flexible and
unbreakable

Question 322

Name 2 commercially available flexible dentures?

Answer 322

Sunflex partials

Valplast flexible partials

Question 323

Indications for flexible dentures?

Answer 323

Allergic to MMA

Question 324

Explain the process of formation of a flexible denture?

Answer 324

Denture is placed in very hot water for a minute prior to placement to fit the denture initially or if clasp adjustments are required
Thermoplastic material so will soften and on cooling gain its new shape
Nylon material is microscopically porous so aesthetic issues arise in
use as the denture base is more difficult to adjust and polish

Question 325

What problems can occur when using dental stone casts and an articulator?

Answer 325

Continuous expansion
Lose accuracy
Add something to stop it AE8

Question 326

Which materials to use when flasking a CD?

Answer 326

Plaster of Paris for the base
Na alginate as the separator
Dental stone as the topper

Question 327

What is the ideal space between the tray and the dental arch?

Answer 327

5-7mm

Question 328

Name 3 things metal files aim to remove?

Answer 328

Necrotic material from lumen of canals
Hard tissue from canal walls
Microorganisms that have penetrated dentinal tubules

Question 329

Name 3 barriers to fully cleaning the root canal system?

Answer 329

Complex anatomy
Biofilm
Smear layer

Question 330

What makes complex root canal anatomy hard to clean?

Answer 330

Many connection

Complex at apical 1/3

Question 331

What is the definition of biofilm?

Answer 331

Dense aggregate of cocci, rod and filamentous forms embedded in an ECM on the root canal walls
Can colonise:
- necrotic material in lumen of RC
- in dentinal tubules

Question 332

How to remove biofilm before RCT?

Answer 332

Mechanical removal via instrumentation and irrigation

Not easily disrupted

Question 333

What is the definition of the smear layer?

Answer 333

1-2um thick, amorphous, irregular and granular on dentinal surface
Composed of inorganic and organic particles, coagulated proteins, pulp tissue, blood cells and microorganisms
Caused by instrumentation of the canals

Question 334

Explain the process in removing the smear layer?

Answer 334

By using chelating agents
Recommend to remove as:
- remove bacteria and nutrients
- it impedes irrigation

Question 335

Name the 8 functions of endodontic irrigants?

Answer 335

Lubricate files to facilitate passage into canal
Wet canal walls and flush debris
Contain any dentinal shavings in suspension so facilitating their removal from canals (prevents apical impaction of debris)
Facilitate dissolution of organic mater
Remove smear layer
Aid cleaning of area inaccessible to mechanical cleansing methods
Disinfect RCS
Neutralise endotoxins

Question 336

Name the 2 groups of endodontic irrigants?

Answer 336

Clean and expose bacterial contaminates

Used to disinfect RCS

Question 337

Name 2 irrigants for cleaning?

Answer 337

EDTA

Citric acid

Question 338

What is the definition of citric acid?

Answer 338

Chelating agent
Removes calcified tissue and detach biofilms from root canal walls
10-50%

Question 339

What is the definition of EDTA?

Answer 339

Synthetic aa or Na salt of EDTA
ethylenediamine tetra-acetic acid
Demineralise and soften root canal wall dentine by 20-50um
Neither cidal or static
Kill bacteria by starving from metal ions (chelates metal ions)
Non-toxic
Non-corrosive
Not effective against smear layer alone
15-17%
Never mix with NaOCl

Question 340

Name a commercial product of EDTA?

Answer 340

ENdo-Solution EDTA Cerkamed dental-medical

Question 341

What is the function of EDTA gel?

Answer 341

Coat endodontic files
Lubricate and removes smear layer making canal prep easier and faster
Increased viscosity is better for holding debris in suspension

Question 342

What is the definition of EDTA gel?

Answer 342

Contains carbamide or urea peroxide causing effervesce
Elevator action helps to remove debris
Bubbles when in contact with NaOCl
Oxygen kills anaerobic bacteria

Question 343

Name a commercially available EDTA gel?

Answer 343

Glyde File Prep
Dentsply Maillefer
EDTA + carbamide peroxide

Question 344

When should you not use chelating materials?

Answer 344

Initially to negotiate canals as a false can may be cut iatrogenically

Question 345

How should you use chelating materials within the root canals?

Answer 345

Thoroughly washed from RCS as retention will continue softening the dentine
Are self-limiting
Chelating + disinfecting irrigant
Provides a cleaner surface

Question 346

Name 4 types of irrigants for disinfection?

Answer 346

NaOCl
Iodine potassium iodine
Chlorhexidine
Other potent phenolic disinfecting agents
High bactericidal concentrations close to toxic dose

Question 347

What is the definition of NaOCl?

Answer 347

Potent organic tissue solvent that is proteolytic and dissolves necrotic organic material
Releases free CL which has bactericidal effects
Cl breaks peptide bonds dissolving proteins into aas
Aas degraded by hydrolysis by chloramine mol
Chloramines are antibacterial
Oxidising and hydrolysing agent
pH> 11
No effect on smear layer (Ca)
High pH denatures proteins
Hydroxyl ions damage bacterial lipid and membranes + DNA

Question 348

Explain how to use NaOCl?

Answer 348

Breaks down components during use
Must be replaced as i loses its efficacy
Dwell time of at least 30 mins
Biofilm must be disrupted to reach bacteria
Canal must be flushed long after canal prep has ceased for this disinfectant to be effective

Question 349

What are the components of the NaOCl solution?

Answer 349

No diff between 0.5-5% solutions for antibacterial effects
But efficiency of weak solutions decreases rapidly
High conc disinfecting process is faster, untoward damage can occur, as it is more toxic
More effective if solution is warmed, as more Cl is released

Question 350

What are the characteristics of NaOCl?

Answer 350

High surface tension than water, so does not wet canal well
Walls are not fully covered and the full biofilm may not by disrupted
Higher conc = thicker sol
Not effective at killing all microorganisms
Enterococcus faecalis can’t be killed

Question 351

When using NaOCl, what should you be wary about?

Answer 351

Bleaching clothes
Unpleasant taste
Irritant to eyes, skin and oral mucosa
Bleaching will lighten any stained tooth tissue

Question 352

Name 2 commercially available NaOCl?

Answer 352

Parcan Sol (Septodont) 3%
Chlorax (CerKamed Dental-Medical) 2% or 5.25%

Question 353

What instrument to be used with NaOCl?

Answer 353

Ultrasonic instrument

Acoustic streaming enhances cleaning effect

Question 354

What are the side effects if disinfecting irrigants come in contact with anything bar root canals?

Answer 354

Severe inflammation + tissue necrosis
Neurological damage
Facial atrophy
Anaphylaxis
Airway problems

Question 355

What are the clinical manifestations for extracanal extrusion of endodontic irrigants?

Answer 355

Immediate serve pain
Profuse bleeding from within canal
Rapid swelling and Oedema
Ecchymosis
2nd infection
Paresthesia
Persistent pain

Question 356

Explain the 9 step process the manage extracanal extrusion?

Answer 356

1. Stop irrigating and consider giving additional LA
2. Immediate irrigation with sterile water or saline for 5-10 mins
3. Dress root canal with non-setting CaOH and access cavity
4. Analgesic advice (paracetamol 500mg)
5. Prescribe antibiotics only if signs of systemic involvement
6. Consider referral to oral and maxillofacial specialist for special care
7. Fully inform patient of event and the potential sequalae
8. Write up detailed notes
9. DATIX form

Question 357

Explain how to reduce the risk of extracanal extrusion?

Answer 357

Use a side exiting endodontic irrigating needle
Do not bind tightly in the canal so that irrigating fluid may pass in a coronal direction
Keep needle and syringe moving while performing, slow and gentle irrigation
Use finger pressure

Question 358

What is the definition of Chlorhexidine digluconate?

Answer 358

Cationic bis-biguanide
Wide bacterial range (greater than NaOCl)
static at 0.2% cidal at 2%
Causes cell wall decomposition leading to loss of cellular components
Not dissolve organic tissue
Negative healing effect
Increases odds of failure
Result in anaphylaxis

Question 359

Why is Chlorhexidine digluconate better than NaOCl?

Answer 359

Kills microorganisms that NAOCl can’t

Safer

Question 360

Explain how chlorhexidine digluconate works?

Answer 360

Binds to hydroxyapatite on the root canal walls
Used as final soak
Good substantivity of about 12 hrs after application

Question 361

What reaction occurs between Chlorhexidine digluconate and NaOCl?

Answer 361

Acid-base reaction seen with NaOCl forming an insoluble precipitate 4-chloroaniline
Stains dentine
Carcinogenic
Difficult to remove (can block canals)
Can be overcome by irrigating with sterile water
CHX breaks down when heated to form PCA

Question 362

Name 2 commercially alleviable chlorhexidine digluconate products?

Answer 362

R4 (Septodont) 20% in denatured alcohol

Gluco-Chex 2.0% (Cerkamed Dental-Medical)

Question 363

Name 2 forms a chlorhexidine digluconate gel?

Answer 363

Hibiscrub (Regent Medical) 4%

Gluco-Chex 2.0% Gel (Cerkamed Dental-Medical)

Question 364

What is the definition of Iodine Potassium Iodide?

Answer 364

Organic and releases iodine
Iodine is a potent antibacterial agent with broad spectrum action
Bact/fung/tuberculo/vuru and sporicidal
Effective for 2 days
Penetrate dentinal tubules

Question 365

Explain how Iodine Potassium Iodide works?

Answer 365

Attacks proteins, nucleotides and FAs leading to cell death

Low tox, but patient allergic to iodine

Question 366

What is the formulation of Iodine Potassium Iodide?

Answer 366

Irrigating sol 2% iodine in 4% aqueous potassium iodide such as Videne (Adams)

Question 367

What is the definition of H202?

Answer 367

Degrades to form water and oxygen producing hydroxyl free radicals
Effective against bacteria, yeasts and viruses as it attack the proteins and DNA
Not reduce bacterial load in RCS significantly
Oxygen may penetrate into periarticular tissues causing surgical emphysema due to effervesce
Not used in contemporary endo

Question 368

What is the definition of hypochlorous acid?

Answer 368

Less toxic than NaOCl
Similar to NaOCl
Dissociates in sol into hypochlorite ions but the reduced level of discolouration compared to NaOCl means that any adverse effects are reduced
NaOCl is more efficient as more Cl is available between the sol of same conc

Question 369

What is the definition of electronically activated water?

Answer 369

Sol of hypochlorous acid
Generated via process of electrolysis from water and NaCl by an electrochemical device
Safer than other solution as if less irritant if extruded into he periradicular tissues
Cidal
pH 5-7
Sterilox

Question 370

Name and give characteristics of non-active irrigants?

Answer 370

Sterile water
LA solution
Lubricate files and carries sward in sol
No disinfectant prop
Not recommended for sole irrigant

Question 371

What is the definition of a co-irrigant?

Answer 371

More than 1 irrigant to enhance effect
Usually consist of an acid or chelating agent + NaOCl
dissolve smear and assist in biofilm destruction + disinfect

Question 372

What is the definition of Ozone?

Answer 372

Sterilising of water supplies
Sterilising agent
Effective and toxic dose very close
Gas delivered down a handpiece

Question 373

Explain how the Ozone device works?

Answer 373

Area sealed from the surroundings and residual gas is drawn back to the generator and neutralised using a Pl filter
Deliver ozone down fine tip directly into canal for very short time

Question 374

Name 2 device names for Ozone?

Answer 374

Healozone CurOzone

Prozone W%H

Question 375

What is the definition of bacterial photodynamic therapy?

Answer 375

Impossible to consistently disinfect enter RCS due to:
- anatomy
- disinfectants are ineffective against some organisms
Combo of photo-sensitiser and specific wavelength is effect against all oral microorganisms

Question 376

What is the definition of a photo-sensitiser?

Answer 376

Different wavelengths of activation
Tolonium Cl (relative of toluidine blue O)
Conc between 13-80 ug/ml
Lower surface tension so can wet and penetrate into the dentinal tubules
No problem with extracanal extrusion

Question 377

What is the definition of a light source?

Answer 377

Laser diode or LED
Red light at 635nm +/- 2nm
Light exists photo-sensitiser mols
Minimal heat
Light delivered via a tapered endodontic tip

Question 378

Explain the mechanism of action for Bacterial PDT?

Answer 378

Photo-sensitiser is preferentially taken up by rapidly dividing cells such as microorganisms
Chemical must be in contact or in very close proximity to bacteria
Taken up by the liposomes on cell walls
When light energy is applied photo-sensitiser
molecule becomes excited and free oxygen radicals
produced
Singlet oxygen species is a protoplasmic poison
which causes oxidative injury to bacterial cell wall
Leads to death of microorganism
Photo-sensitiser returns to its unexcited state -
causes no further effect when light switched off
No collateral damage seen to any surrounding
tissues
Resistant strains cannot be build up
Both light and photo-sensitiser are ineffective
when used separately.
Also viricidal and fungicidal

Question 379

Name 2 commercially available bacterial PDT?

Answer 379

CumdentPACT
Cumdente Dental Concepts Laser diode
PAD Plus Denfotex Research LED

Question 380

What is the aim of root canal preparation?

Answer 380

Remove as many microorganisms as possible
Shape root canal to provide a uniform sized dead space to facilitate its subsequent obturation using stand sixed cones of plastic material and its adaptation to root canal walls to achieve a seal
Avoid ledges, perforations zips and canal transportation

Question 381

What are metal files used for?

Answer 381

Remove:
- necrotic material from lumen of root canals
- hard tissue from root canal walls
- microorganisms that have penetrated dentinal tubule
Facilitate penetration of disinfecting agents so they reach the microorganisms in RCS

Question 382

What force to files exert onto the RCS?

Answer 382

All files tend to straighten within a curved canal and exert a lateral force on the root canal wall

Question 383

How can files be different?

Answer 383

Shape
Tapers
Length
Cutting
Non-cutting tips
Sade edged
Colour/number coded

Question 384

name 2 types of endodontic files?

Answer 384

Hand - composed of stainless steel or nickel-titanium

Rotary - only nickel-titanium in a speed-reducing, torque controlled handpiece

Question 385

Describe the anatomy of an endodontic file?

Answer 385

Both have cutting edges along the length of the file
Handle/attachment for drill
Silicone stop

Question 386

Explain how the cutting edge of the endodontic file cuts?

Answer 386

Cuts when its radial lands are in contact with canal wall
Lead angle determines cutting efficiency
Radial land areas required for conventional helically fluted files because they prevent the file from over-engagement in the canal
Lock of radial land areas reduces friction
File may fracture if suddenly engaged
Radial lands are important for files that have +ve rake angles
Designed so that radial lands can’t screw themselves into wall
Debris directed towards coronal canal so not compacted apically

Question 387

What is the definition of a rake angle?

Answer 387

Angle of action of the cutting blade us similar to a snow plough which is forces downwards towards surface of road

Question 388

What is the definition of stainless steel files?

Answer 388

Alloy of iron, carbon and chromium + nickel
Forms an invisible passivation layer of chromium oxide on surface when exposed to air
If scratched, code later rapidly reforms preventing degrade
Prevents rusting in presence of water

Question 389

How are stainless steel files manufactured?

Answer 389

Machine shaped directly from a stainless steel wire
Machined into a blank of the desired shape
Greater # of twists greater the work hardening

Question 390

What are the stainless steel file properties?

Answer 390

Do not bend easily
Bend file prior to introduction
Bending instrument will further work harden the metal making it more brittle leading to fracture

Question 391

What is the definition of a nickel-titanium files (NiTi)

Answer 391

500% more flexible than stainless steel and 3 times stronger
Corrosion resistant
Hand and rotary instruments available

Question 392

What are the 2 NiTi temperature dependent crystal structures?

Answer 392

Austenite - high temp or parent phase, cubic structure

Martensite - low temp, monoclinic structure

Question 393

What are the properties of NiTi alloy?

Answer 393

Superelasticity and shape memory effect
Occur due to austenite to martensite transition induced by stress or temp (martensitic transformation)
Under certain other condition other phase my be present (R-phase)

Question 394

What is the definition and properties of austenite NiTi alloy?

Answer 394

Superelasticity due to austenite NiTi
Austenite can be transformed to martensite by stress, termed stress-induced martensite transformation
Allows complete recovery of deformation up to 8% strain
Stress-induced martensite state is not stable so retransformation back to austenite phase so spring back to original shape
Lower elastic modulus than stains steel
Higher torque values at fracture

Question 395

What are the indications for Austenite NiTi files?

Answer 395

Shape straight or slightly curved canals
Pathfinding instruments as compensation for the decreased torque resistance caused by small diameter files
Profile

Question 396

What is the definition and properties of martensitic NiTi alloy?

Answer 396

Softer and more ductile than austenitic
Easily deformed and exhibits shape memory effect when heated
Pseudoplastic
Fatigue crack growth resistance is higher than stable austenite
Hyflex

Question 397

What are the properties of gold and blue heat-treated instruments?

Answer 397

Heat treat martensitic alloy
Blue colour due to titanium oxide left after heat
Controlled memory effect
Enhanced flexibility and cyclic fatigue resistance compared with conventional NiTi and M-Wire
Greater angle of rotation but lower torque at fracture
Preferred un serve curved canals
Pre-bendable to bypass ledges

Question 398

Name 2 commercially available gold/blue heat treated instruments

Answer 398

Rotary system: ProTaper Gold (Dentsply Sirona)
• Reciprocating motion: Reciproc Blue (VDW) &
WaveOne Gold (Dentsply Sirona)

Question 399

Explain the manufacturing process of NiTI endodontic instruments?

Answer 399

Conventional NiTi alloys are ground to make files opposed to twisted
Lead to defects n the surface so potentially causing decreased fracture resistance, cutting efficiency and corrosion resistance
Electropolishing sometime used to remove surface defects causing by grinding (improves above problems)

Question 400

Explain how to choice between different endodontic files?

Answer 400

Rotary systems are much more efficient than
hand techniques
• Hand files sometimes preferred to negotiate very
curved root canals although newer rotaries may
be used these days
• Engine driven NiTi endodontic instruments result in significantly less canal transportations
compared to stainless steel hand instruments
• Selection of material of which file is made and its
method of construction is critical in determining
performance of instrument

Question 401

What factors do stainless steel endodontic files depend on?

Answer 401

Composition of material
Geometry of file
Way in which it is loaded

Question 402

What are the contraindication for use of a stainless steel endodontic file?

Answer 402

Anticlockwise twisting as this increases twisting resulting in brittle fracture
NaOCl and EDTA reduce cutting ability so files should be rinsed
Long prep times prolong immersion of instruments in these solutions in the canal and start process of degrad

Question 403

Name 3 ways a file may break?

Answer 403

Sharp curve - cyclic fatigue
Overuse - flexural fatigue
In rotation while instruments is prevented from moving - torsional fatigue

Question 404

What is the definition of torsional stress? how to reduce it?

Answer 404

Evert cutting action in the canal

Torque controller so that the rotation of file is stopped prior to receiving excessive torque

Question 405

Explain the decontamination process for endodontic files?

Answer 405

Debris retained on file after use is called swarf
• May contain neural tissue with prions
• Proteins that cannot be destroyed by the usual
methods of surgical disinfection
• Theoretically associated with new-variant
Creutzfeldt–Jakob disease ( nvCJD )
• Endodontic files should therefore be considered as
single use
• Incidence of instrument separation is decreased
• Autoclaving can decrease the cutting ability of some
files and may result in metal fatigue

Question 406

What are the 2 parts for inter-visist temporisation?

Answer 406

Canal medicaments

Temporary dressings

Question 407

Explain why inter-visit temporisation is necessary?

Answer 407

Signs/symptoms
Further opportunity to disinfect the RCS by placing a medicament with antimicrobial prop
Cases which require root formation to complete

Question 408

Name 6 types of inter-visit canal medicaments?

Answer 408

Steroid/antibiotic combo
Non-setting CaOH
Chlorhexidine
Phenol or derivatives
Halogens
Formaldehyde

Question 409

Indications for steroid/antibiotic paste?

Answer 409

Irreversible pulpitis

Intracanal dressing between appointments

Question 410

Name 1 commercially available steroid/antibiotic paste and its constituents?

Answer 410

OdontoPaste (Australian Dental Manufacturing)
Ledermix

Constituents:

• Clindamycin hydrochloride 5%
• triamcinolone acetonide 1%
• CaOH

Question 411

Explain how the steroid/antibiotic paste works?

Answer 411

Acts topical only killing bacteria adjacent to vital tissue
Steroid suppresses any inflamm response
Permits bacteria at a distance from surface of lesion to proliferate - leads to death of pulp

Question 412

Why can endodontic steroid paste be useful for irreversible pulpitis?

Answer 412

When sufficient analgesia can’t be gained to fully extirpate vital tissue
Only effective when it is in contact with vital tissue so rational is debatable

Question 413

What are the pros of using steroid/antibiotic paste + non-setting CaOH?

Answer 413

Ledermix
Synergistic
Placed separately - too viscous
Place steroid/antibiotic paste on a paper point to carry it into canal followed by syringing non-setting CaOH

Question 414

Give a description of non-setting CaOH?

Answer 414

Intracanal medicaments
Active chemical provided as a slurry in a water base
Methylcellulose based
Facilitate removal of the products from the canal
Radiopaque
pH is 12

Question 415

Explain how non-setting CaOH works?

Answer 415

Bactericidal:
- slow acting antimicrobial agent has therapeutic effect after being in situ at least a day
- effective disinfection in most cases of infected necrotic cases seen in a week
Neutralises acidic endotoxins
Inhibits osteoclastic activity due to high pH - useful in cases of inflamm root resorption
Hydrolyses lipid component of bacterial LPS - renders bacteria inactive and reduces toxic effect from debris
Denatures proteins in RCS
May activate CA-dependent adenosine triphosphate reaction assoc with hard tissue formation stimulation periradicular healing

Question 416

Name the 6 indications for non-setting CaOH?

Answer 416

Inter-visit intracanal medicament - disinfect canal system
Controls exudation in persistent infection
Partial pulpotomy - create a calcific barrier to maintain vitality of tooth
Apexogenesis - continue root formation in vital tooth
Apexification - induces apical closure of non-vital immature teeth
- dressing replaced every 6 weeks until hard tissue barrier forms
Resorption - inhibits activity of osteoclasts die to high pH so arresting inflamm process

Question 417

Name the 3 contraindication for non-setting CaOH?

Answer 417

Cause calcification of canal if left in situ > 6 month

Increases risk of root fracture due to denaturing the collagen

Question 418

What is the mode of delivery of non-setting CaOH?

Answer 418

Past inside a tube
Fine endodontic Needle (Navvi tip) attached to a Luer lock syringe
Deliver paste into canal
Consistency of paste must be as thick as possible to fill RCS
Can be difficult to remove
Effectively removed with citric acid or EDTA as alkaline CaOH reacts with acid

Question 419

Name 1 commercial produce for non-setting CaOH?

Answer 419

UltraCal by Ultradent

Question 420

What are the advantages of non-setting CaOH PLUS points over non-setting CaOH?

Answer 420

Greater release of CaOH and so more effective
Points ready to use 
No mixing
Easy to apply and remove
No smearing

Question 421

Give a description of chlorhexidine?

Answer 421

Incorporated into gutta percha
Activ point (Roeko) is a 5% chlorhexidine diacetate
Placed in canal for 1-3 weeks
Conform to ISO specification for GP points for size and diameter which matches shape to that of root canal
Drop of sterile water is sued to accelerate release of the chlorhexidine
Same effects as a chlorhexidine irrigant

Question 422

Give a description of phenol?

Answer 422

Effective antimicrobials
Strong antiseptics
Short duration for effect
Protoplasmic poison and works at an optimal conc of 1-2%

Question 423

Give 3 examples of phenols?

Answer 423

Para-monochlorphenol
Thymol
Cresol

Question 424

What did studies show about the use of phenols as disinfectants?

Answer 424

Not able to fully disinfect the RCS after 2 weeks
Due to insufficient vapour released for effective antimicrobial action when the products placed on a cotton pellet in pulp chamber

Question 425

Give 1 commercially available phenol product and its constituents?

Answer 425

Cresophene - Septodont
Constituents:
- para-chlorophenol
- dexamethasone  with thymol and camphor
High tox and carcinogenic
Obsolete in endodontic practice

Question 426

Give a description of halogens?

Answer 426

Antimicrobial
Chlorine-containing products (chloramines)
Iodine more popular such as iodine potassium iodide
Releases vapours
2% iodine prep quicker at reducing bacterial load than CaOH
Can prevent E. faecalis growth within 1-2 hrs

Question 427

Contraindications for iodine halogens?

Answer 427

Iodine hypersensitivity

Question 428

Give a description of formaldehyde?

Answer 428

Caustinerf Forte - Septodont
Toxicity of formaldehyde containing medicaments
Not justified

Question 429

Give 7 key properties needed for a good coronal temporisation?

Answer 429

Coronal seal must be perfect - to prevent bacterial ingress
Function
Aesthetics
Strong to withstand occlusal loads
Low solubility
High wear resistance
Longevity

Question 430

Name 5 materials used for inter-visit coronal temporisation?

Answer 430

GIC
Zinc polycarboxylate cement
Reinforced zinc oxide eugenol cement
Zinc oxide containing putties
Semi-permanent material - forming a core using a resin-mod glass ionomer cement, resin composite or amalgam

Question 431

What to consider when placing a coronal termporisation material?

Answer 431

Need to consider final restorative material viz
resin composite definitive restoration and use
of a eugenol-containing cement

Question 432

Name 2 types of coronal protection?

Answer 432

Tightly fitting copper

Orthodontic band

Question 433

What is the function of obturating material?

Answer 433

Prevents ingress of microorganisms by creating a seal at both coronal and apical ends, lateral canals and dentinal tubules
Completely fills dead space removing all air which could expand or contract in a pressurised environment

Question 434

Give a description of Gutta percha?

Answer 434

Consists of polyisoprene which comes from rubber tree
Polyisoprene has 2 isomeric forms:
- cis = rubber
- trans = GP
Trans exists in 2 phases:
- alpha phase is heated and used molten
- beta are GP points or cones used at room temperature
Mixed with other chemicals to enhance handling

Question 435

Give a comparison between alpha and beta phase for trans polyisoprene?

Answer 435

Beta phase is formed when GP cooled quickly whereas alpha phase is formed if material is cooled slowly
Alpha form is denser and has better thermoplastic characteristics

Question 436

Name the 4 constituents for GP and their functions?

Answer 436

Gutta percha
Zinc Oxide - filler and antimicrobial
Resins - Plasticiser
Metal sulphates - radiopacity

Question 437

What are the physical properties of GP?

Answer 437

Highly biocompatible
Minimal tissue changes
Inert
Minimal toxicity
Dimensionally stable and packable
Thermoplastic softening at 60-65C and melting at 100C
Stretchable
Antibacterial
Radiopaque
No heat sterilisation
Oxidises on light exposure - degrades and becomes brittle
Lacks rigidity
Poor adaption
Shrinkage 2%

Question 438

Explain how to sterilise GP?

Answer 438

Using NaOCl

Do not use acetone or alcohol to disinfect as it can be absorbed

Question 439

What is the presentation of GP?

Answer 439

Points
Cones
Several different sizes
Different tapers

Question 440

What are the manufacturing tolerances for GP?

Answer 440

Subjected to ISO standards
Cones are made to a tolerance of +/- 0.05mm
Different products are composed of different proportions of chemicals creating variations in brittleness and stiffness

Question 441

Explain the cold obturation technique for GP?

Answer 441

GP + endodontic seal to fill root canal
Cold lateral condensation - GS
Cone which corresponds in size to canal prep is coated with a root canal prep and introduced into root canal
then pushed laterally to create space so that next cone can be placed
Other accessory cones coated with seaer are then introduced into canal one at a time
Continue until root canal is fully obturated
Adjust GP cone with scalpel blade
Use liquid GP - allows material to flow into irregularities of RCS
GuttaFlow - Roeko (GP + addition cross-linking poly(dimethyl siloxane)
30um particle size - 0.2% shrinkage

Question 442

Name the 8 chemical constituents for GuttaFlow and their functions?

Answer 442

GP powder - obturating component
ZInc oxide - filler and radiopacity
Zirconium dioxide - filler and radiopacity
Silicone oil - binder + consistency
Paraffin ol - binder + consistency
Colloidal silver - inhibit reinfection
Hexachloroplatinic acid - catalyst
Colouring agent - colour

Question 443

Explain the technique for warm GP?

Answer 443

Used at high temperatures as pellets
Conjugation with gun
150-230C
Narrower gauge = lower temperature
Once at temp molten material can be expressed out of needle of gun into canal
Secure apical stop before suing molten GP - to prevent extrusion
Good for obturating anatomical irregularities

Question 444

What are some present techniques to cut GP?

Answer 444

Heat used to cut GP
Heating over bunsen burner:
- naked flame
- burning other objects
- tempers steel of instrument = damage
SYstem B sears GP cleanly
Wire inside probe heats up quickly
Easy and sade

Question 445

Name 4 other obturation systems?

Answer 445

Real Seal 1 :
- good for latex sensitivity
Thermafil:
- softened GP flow into RC

Question 446

What obturation product is indicated for patients sensitive to latex?

Answer 446

Real Seal 1
Polyester with barium sulphate and silicate as radiopaque filler
Core is resin based with a Resilon outer coating
No rubber or rubber-based materials
Soluble in chloroform and my be removed like GP

Question 447

Give a description of ENdoREZ?

Answer 447

EndoREZ:

• hydrophilic
• dual cured resin obturation system based on UDMA and triethylene glycol dimethacrylate
• polymerisation similar to resin composite
• base and catalyst presentation
• takes 20 mins can be sped up by accelerator
• filler for radiopacity
• master + accessory then light cure

Question 448

Give a description of SmartSeal?

Answer 448

Smartseal:

• hydrophobic polymer,
• swell when water absorbed,
• hoop system prevents excess swelling
• flexible
• points and sealer

Question 449

What are the shortcoming of Silver points?

Answer 449

DO not fully obturate canal
Rely on RC sealer
Prone to corrosion
Corrosion products high tox and can leach
Permeate dentinal tubules
Difficult to remove as they tend to fracture
Rigid so can’t adapt to walls

Question 450

What is the definition of an endodontic sealer?

Answer 450

Paste coated onto endodontic point prior to its insertion into RC
Paste/paste presentation
Used sparingly
Prvenets extracanal extrusion and decreases amount of sealer needed

Question 451

What is the function of the endodontic sealer?

Answer 451

• Lubricate and facilitate full placement of master point +/-
  accessory cones
  • Fills voids between obturation points
  • Fills and seals lateral canals and passes through lateral canals
  to root surface - seen radiographically as a ‘puff’ on side of root
  • Provide a disinfectant action if they contain an active component

Question 452

Name and describe the 4 physical properties all endodontic sealers must display?

Answer 452

Flow - determines ability to effectively fill voids
between master cone and accessory cones and any
accessory canals may be obturated.
• Film thickness - should be minimal as sealer is by far
most likely material to degrade
• Solubility - most sealers are soluble and are absorbed
to some extent when exposed to tissue fluid, keep to
a minimum
• Radiodensity - should also be radiopaque

Question 453

Name 6 types of endodontic sealers?

Answer 453

Zinc oxide eugenol
Calcium hydroxide
Epoxy resin
GIC
Poly(dimethyl siloxanes)
Tricalcium silicate cements

Question 454

Give a description of Zinc oxide eugenol endodontic sealers?

Answer 454

Good results with cold techniques
Small particle size to enhance flow
Weak
Porous
Susceptible to decomposition in tissue fluids
Lose volume as eugenol and zinc oxide are released
Resins/rosins added to decrease dissolution
Can act as sensitising agent
Zinc oxide antimicrobial and cytotoxic
Other added chemicals:
- germicides - antiseptic
- Canada balsam - increases adhesion to dentine
- corticosteroids - suppress inflamm
- paraformaldehyde - antimicrobial

Question 455

Name the chemical composition of Zinc oxide eugenol endodontic sealer?

Answer 455

Powder:
Zinc oxide - filler
Silver - radiopacity
Oleoresins - viscosity
Staybelite resin - binder
Dithymoliodide - antiseptic
Bismuth subcarbonate/subiodide/trioxide/sulphate - radiopacity
Sodium borate - filler
Thymol iodide - antiseptic
Oils and waxes
Liquid:
- eugenol - cement former
- canada balsam - viscosity
- polymerised resin - reinforcing agent

Question 456

Give a description of CaOH endodontic sealers?

Answer 456

Dissociates into an ionic form and may confer an
antimicrobial effect and promote healing
sealer must dissolve so leaving voids
in obturated material 
Sealer is more soluble
Poor cohesive strength

Question 457

Name the chemical components for CaOH endodontic sealers?

Answer 457

Base:
- CaOH - cement
- Zinc Oxide - cement
Activator:
- Barium sulphate - radio
- Titanium dioxide - filler/colour
- Zinc stearate - binder

Question 458

Give a description of epoxy resin endodontic sealers?

Answer 458

Good flow and sealing ability
High dimensional stability
Low shrinkage
Sufficient working time
Adhesion to other materials and dentine
Antibacterial properties
Less porous and have greater hardness
Their lower solubility and greater film thickness may
prove problematic if the material needs to be removed
Soluble in chloroform which facilitates removal
least toxic of all
endodontic sealers
Allergy

Question 459

Name the chemical components for Epoxy resin-based endodontic sealer?

Answer 459

Base:
- silver powder - radio
- bismuth oxide - radio
- hexamethylenetetramine - hardener
- titanium oxide - colour/filler
Catalyst:
- bisphenoldiglycidyl ether - cement former

Question 460

Explain the setting reaction for epoxy resin endodontic sealer?

Answer 460

Addition polymerisation reaction in which epoxides
and amine react to form long chains
• No residual monomer remains with no by-products
• Diamines present in cement provide high
dimensional stability
• Exothermic reaction
• Poly(addition) reaction is temperature dependent
and takes a substantial amount of time
• Extended working time provided c4 hours

Question 461

Give a description of GIC endodontic sealers?

Answer 461

Modified GICs
• Low toxicity and induce little tissue irritation
• Cytotoxic but this and any inflammatory responses
decrease with time
• Adhere to dentine but may be less good at sealing
• Physical properties are better than zinc oxide
eugenol with less coronal leakage
• Leach fluoride which is taken up by dentine
• More susceptible to dissolution if exposed to liquids
before maturation is complete

Question 462

What are the chemical constituents for polydimethylsiloxane endodontic sealers?

Answer 462

Polydimethylsiloxane - Active component
Silicon oil - Binder
Paraffin base oil - Binder
Platinum salt-  Catalyst
Zirconium dioxide - Filler

Question 463

Give a description of polymethylsiloxane endodontic sealer?

Answer 463

Insoluble so not resorbed - contraindicated in
deciduous teeth
• Dimensionally stable although there is an initial
slight expansion on setting
• Thin film thickness and good flow characteristics
allows material to flow into tubules and fins
• Excellent biocompatibility
• Cannot bond to dentine
• No antibacterial properties

Question 464

Give 1 commercially available polydimethylsiloxane endodontic sealer

Answer 464

RoekoSeal
Difficult to use with heated
techniques as heat will
decrease working time

Question 465

Give the properties of tricalcium silicate based endodontic sealer?

Answer 465

Bioactive
• Stimulates bone regeneration (hydroxyapatite formation)
• Promotes periradicular healing
• Mineralisation of dentine
• Biocompatible
• Adhesion to dentine and GP
• pH 11 & CaOH2
release – antimicrobial
• Dimensionally stable

Question 466

Give 1 commercially available tricalcium silicate based endodontic sealer?

Answer 466

Use with GP points
• Any obturation
technique
• BioRoot™ RCS
(Septodont)
• 1 spoon to 5 drops
• Working time c15 mins
• Setting time <4 hours
• 45µm film thickness

Question 467

Give a desctiption of formaldehyde containing obturating pastses?

Answer 467

Paraformaldehyde decomposes to give its
monomer which is a water soluble protein
denaturing agent
• Highly toxic, genotoxic, mutagenic and
carcinogenic
• Cause severe inflammatory reactions and
necrosis with direct tissue contact
• Cause permanent injury if applied to neural
tissue on extrusion outwith root canal space
May be transported to other parts of the body
• Allergenic which causes contact dermatitis and
has also caused type 1 anaphylaxis
• Leaching occurs for a long time and results in
chronic inflammation
• Prevents or delays healing and masks
inflammatory process

Question 468

Give 1 commercially available ZOE containing obturating pastes?

Answer 468

TubliSeal EWT - SybroEndo - ZOE