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Impression Materials

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Title: Impression Materials

1
Impression Materials
2
Impression Materials

Non-elastic
Elastic
Aqueous hydrocolloids
Agar
Alginate
Non-aqueous elastomers
Polysulfide
Silicones
Condensation
Addition
Polyether

3
Indications

Diagnostic casts
preliminary
opposing
Indirect reconstruction
fixed
removable
Bite registration

Giordano, Gen Dent 2000
4
Elastomeric Impression Materials

Viscoelastic
physical properties vary
rate of loading
Rapidly remove
decreases permanent deformation
chains recoil from a recoverable distance
increases tear strength

Phillips Science of Dental Materials 1996
5
Non-elastic
Impression Materials
Agar (reversible)
Aqueous Hydrocolloids
Alginate (irreversible)
Elastic
Condensation
Non-aqueous Elastomers
Addition
OBrien, Dental Materials their Selection 1997
6
Aqueous Hydrocolloids

Colloidal suspensions
chains align to form fibrils
traps water in interstices
Two forms
sol
viscous liquid
gel
elastic solid
Placed intra-orally as sol
converts to gel
thermal or chemical process

Phillips Science of Dental Materials 1996
7
Aqueous Hydrocolloids

Semi-permeable membranes
poor dimensional stability
Evaporation
Syneresis
fibril cross linking continues
contracts with time
exudes water
Imbibition
water absorption
swells

Phillips Science of Dental Materials 1996
8
OBrien, Dental Materials their Selection 1997
9
Reversible Hydrocolloid (Agar)

Indications
crown and bridge
high accuracy
Example
Slate Hydrocolloid (Van R)

10
Composition

Agar
complex polysaccharide
seaweed
gelling agent
Borax
strength

Potassium sulfate
improves gypsum surface
Water (85)

OBrien, Dental Materials their Selection 1997
11
Manipulation

Gel in tubes
syringe and tray material

12
Manipulation

3-chamber conditioning unit
(1) liquefy at 100C for 10 minutes
converts gel to sol
(2) store at 65C
place in tray
(3) temper at 46C for 3 minutes
seat tray
cool with water at 13C for 3 minutes
converts sol to gel

OBrien, Dental Materials their Selection 1997
13
Advantages

Dimensionally accurate
Hydrophilic
displaces moisture, blood, fluids
Inexpensive
after initial equipment
No custom tray or adhesives
Pleasant flavor
No mixing required

Phillips Science of Dental Materials 1996
14
Disadvantages

Initial expense
special equipment
Material must be prepared in advanced
Tears easily
Dimensionally unstable
Must be poured immediately
Can only be used for a single cast
Difficult to disinfect

Phillips Science of Dental Materials 1996
15
OBrien, Dental Materials their Selection 1997
16
Irreversible Hydrocolloid (Alginate)

Most widely used impression material
Indications
study models
removable fixed partial dentures
framework
Examples
Jeltrate (Dentsply/Caulk)
Coe Alginate (GC America)

Phillips Science of Dental Materials 1996
17
Composition

Sodium phosphate
retarder
Filler
Potassium fluoride
improves gypsum surface

Sodium alginate
salt of alginic acid
mucous extraction of seaweed (algae)
Calcium sulfate
reactor

OBrien Dental Materials their Selection 1997
18
Manipulation

Weigh powder
Powder added to water
rubber bowl
vacuum mixer
Mixed for 45 sec to 1 min
Place tray
Remove 2 to 3 minutes
after gelation (loss of tackiness)

Caswell JADA 1986
19
Advantages

Inexpensive
Easy to use
Hydrophilic
displace moisture, blood, fluids
Stock trays

Phillips Science of Dental Materials 1996
20
Disadvantages

Tears easily
Dimensionally unstable
immediate pour
single cast
Lower detail reproduction
unacceptable for fixed pros
High permanent deformation
Difficult to disinfect

Phillips Science of Dental Materials 1996
21
Non-Aqueous Elastomers

Synthetic rubbers
mimic natural rubber
scarce during World War II
Large polymers
some chain lengthening
primarily cross-linking
Viscosity classes
low, medium, high, putty
monophasic

Phillips Science of Dental Materials 1996
22
OBrien Dental Materials their Selection 1997
23
Polysulfide

First dental elastomers
Indications
complete denture
removable fixed partial denture
tissue
crown and bridge
Examples
Permlastic (Kerr)
Omni-Flex (GC America)

24
Composition

Base
polysulfide polymers
fillers
plasticizers
Catalyst
lead dioxide (or copper)
fillers
By-product
water

Phillips Science of Dental Materials 1996
25
Polysulfide Reaction
--SH
HS---------------------SH
HS--
-S-S---------------S-S-
S
S
3PbO H2O
H
S
O Pb O
H
S
OBrien Dental Materials their Selection 1997
26
Manipulation

Adhesive to tray
Uniform layer
custom tray
Equal lengths of pastes
Mix thoroughly
within one minute
Setting time 8 12 minutes
Pour within 1 hour

27
Advantages

Lower cost
compared to silicones and polyethers
Long working time
High tear strength
High flexibility
Good detail reproduction

Phillips Science of Dental Materials 1996
28
Disadvantages

Poor dimensional stability
water by-product
pour within one hour
single pour
Custom trays
Messy
paste-paste mix
bad odor
may stain clothing
Long setting time

Phillips Science of Dental Materials 1996
29
OBrien Dental Materials their Selection 1997
30
Condensation Silicone

Indications
complete dentures
crown and bridge
Examples
Speedex (Coltene/Whaledent)
Primasil (TISS Dental)

31
Composition

Base
poly(dimethylsiloxane)
tetraethylorthosilicate
filler
Catalyst
metal organic ester
By-product
ethyl alcohol

Phillips 1996
Phillips Science of Dental Materials 1996
32
Condensation Silicone Reaction
metal organic ester
ethanol
Phillips Science of Dental Materials 1996
33
Manipulation

Mix thoroughly
paste - paste
paste - liquid
Putty-wash technique
reduces effect of polymerization shrinkage
stock tray
putty placed
thin plastic sheet spacer
preliminary impression
intraoral custom tray
inject wash material

34
Advantages

Better elastic properties
Clean, pleasant
Stock tray
putty-wash
Good working and setting time

Phillips Science of Dental Materials 1996
35
Disadvantages

Poor dimensional stability
high shrinkage
polymerization
evaporation of ethanol
pour immediately
within 30 minutes
Hydrophobic
poor wettability

Phillips Science of Dental Materials 1996
36
OBrien Dental Materials their Selection 1997
37
Addition Silicones

AKA Vinyl polysiloxane
Indications
crown and bridge
denture
bite registration
Examples
Extrude (Kerr)
Express (3M/ESPE)
Aquasil (Dentsply Caulk)
Genie (Sultan Chemists)
Virtual (Ivoclar Vivadent)

38
Composition

Improvement over condensation silicones
no by-product
First paste
vinyl poly(dimethylsiloxane)prepolymer
Second paste
siloxane prepolymer
Catalyst
chloroplatinic acid

Phillips 1996
Phillips Science of Dental Materials 1996
39
Addition Silicone Reaction
Chloroplatinic Acid Catalyst
Phillips Science of Dental Materials 1996
40
Manipulation

Adhesive to tray
Double mix
custom tray
heavy-body
light-body to prep
Putty-wash
stock tray

Craig Adv Dent Res 1988
41
Advantages

Highly accurate
High dimensional stability
pour up to one week
Stock or custom trays
Multiple casts
Easy to mix
Pleasant odor

Phillips Science of Dental Materials 1996
42
Disadvantages

Expensive
Sulfur inhibits set
latex gloves
ferric and Al sulfateretraction solution
Pumice teeth beforeimpressing
Short working time
Lower tear strength
Possible hydrogen gas release
bubbles on die
palladium added to absorb

Manikos Aust Dent J 1998
43
Addition Silicones

Surfactants added
reduce contact angle
improved
castability
gypsum
wettability??
still need dry field clinically

Pratten J Dent Res 1987 Mandikos Aust Dent J
1998
44
OBrien Dental Materials their Selection 1997
45
Polyether

Indications
crown and bridge
bite registration
Examples
Impregum F (3M/ESPE)
Permadyne (3M/ESPE)
Pentamix (3M/ESPE)
P2 (Heraeus Kulzer)
Polygel (Dentsply Caulk)

46
Composition

Base
difunctional epimine-terminated prepolymer
fillers
plasticizers
Catalyst
aromatic sulfonic acid ester
fillers
Cationic polymerization
ring opening and chain extension

Phillips Science of Dental Materials 1996
47
Polyether Reaction
base
catalyst
ring opening
Phillips Science of Dental Materials 1996
48
Manipulation

Adhesive to tray
stock or custom tray
very stiff
Paste-paste mix
Auto-mixing
hand-held
low viscosity
mechanical dispenser
high viscosity

49
Advantages

Highly accurate
Good dimensional stability
Stock or dual-arch trays
Good surface detail
Pour within one week
kept dry
Multiple casts
Good wettability

Phillips Science of Dental Materials 1996
50
Disadvantages

Expensive
Short working time
Rigid
difficult to remove from undercuts
Bitter taste
Low tear strength
Absorbs water
changes dimension

Phillips Science of Dental Materials 1996
51
Impression Material UsageCivilian General
Dentists

Crown Bridge
vinylpolysiloxane 81
alginate 38
polyether 28
Inlays and Onlays
vinylpolysiloxane 71
polyether 22
alginate 20

Multiple responses
DPR 2001
52
Impression Material UsageCivilian General
Dentists

Complete dentures
alginate 58
vinylpolysiloxane 55
polyether 27
Partial dentures
alginate 78
vinylpolysiloxane 43
polyether 15

Multiple responses
DPR 2002
53
Handling Properties
Agar Alginate Polysulfide Condensation Silicone Addition Silicone Polyether
Preparation Boil, temper, store Powder, water 2 pastes 2 pastes or paste/liquid 2 pastes 2 pastes
Ease of Use Technique sensitive Good Fair Fair Excellent Good
Patient Reaction Thermal Shock Pleasant, clean Unpleasant, stains Pleasant, clean Pleasant Unpleasant clean
Ease of removal Very easy Very easy Easy Moderate Moderate Moderate to difficult
Disinfection Poor Poor Fair Fair Excellent Fair
OBrien Dental Materials their Selection 1997
54
Handling Properties
Agar Alginate Polysulfide Condensation Silicone Addition Silicone Polyether
Working Time (min) 7 15 2.5 5 7 3 2 4.5 2.5
Setting Time (min) 5 3.5 8 12 6 8 3 7 4.5
Stability 1 hour 100 RH Immediate pour 1 hour Immediate pour 1 week 1 week kept dry
Wettability and castability Excellent Excellent Fair Fair Fair to good Good
Cost Low Very low Low Moderate High to very high Very high
OBrien Dental Materials their Selection 1997
55
Properties
Agar Alginate Polysulfide Condensation Silicone Addition Silicone Polyether
Elastic Recovery () 98.8 97.3 94.5 96.9 98.2 99.6 99 99.9 98.3 99.0
Flexibility () 11 12 8.5 20.0 3.5 7.8 1.3 5.6 1.9 3.3
Flow () -- -- 0.4 1.9 lt 0.10 lt 0.05 lt 0.05
Shrinkage, 24 hours () Extreme Extreme 0.4 0.5 0.2 1.0 0.01 0.2 0.2 0.3
Tear Strength (g/cm) 700 380 700 2240 7410 2280 4370 1640 5260 1700 - 4800
OBrien Dental Materials their Selection 1997
56
Comparison of Properties

Working time
longest to shortest
agar gt polysulfide gt silicones gt alginate
polyether
Setting time
shortest to longest
alginate lt polyether lt agar lt silicones lt
polysulfide

OBrien Dental Materials their Selection 1997
57
Comparison of Properties

Stiffness
most to least
polyether gt addition silicone gt condensation
silicone gt polysulfide hydrocolloids
Tear strength
greatest to least
polysulfide gt addition silicone gt polyether gt
condensation silicone gtgt hydrocolloids

OBrien Dental Materials their Selection 1997
58
Comparison of Properties

Cost
lowest to highest
alginate lt agar polysulfide ltcondensation
silicone lt addition silicone lt polyether
Dimensional stability
best to worst
addition silicone gt polyether gt polysulfide gt
condensation silicone gt hydrocolloid

Phillips 1996
OBrien Dental Materials their Selection 1997
59
Comparison of Properties

Wettability
best to worst
hydrocolloids gt polyether gt hydrophilic addition
silicone gt polysulfide gt hydrophobic addition
silicone condensation silicone
Castability
best to worst
hydrocolloids gt hydrophilic addition silicone gt
polyether gt polysulfide gt hydrophobic addition
silicone condensation silicone

OBrien Dental Materials their Selection 1997
60
Regularly-Used Impression MaterialsCivilian
Practitioners