Polymerization shrinkage, hygroscopic expansion and microleakage of resin-based temporary filling materials / 대한치과보존학회지
Journal of Korean Academy of Conservative Dentistry
;
: 115-124, 2008.
Article
in Korean
| WPRIM
| ID: wpr-105060
ABSTRACT
The purpose of this study was to measure the polymerization shrinkage and hygroscopic expansion of resin-based temporary filling materials and to evaluate microleakage at the interface between the materials and cavity wall. Five resin-based temporary filing materials were investigated Fermit (Vivadent), Quicks (Dentkist), Provifil (Promedica), Spacer (Vericom), Clip (Voco). Caviton (GC) was also included for comparison. Polymerization shrinkage of five resin-based temporary filling materials was measured using the bonded disc method. For the measurement of hygroscopic expansion, the discs of six cured temporary filling materials were immersed in saline and a LVDT displacement sensor was used to measure the expansion for 7 days. For estimating of microleakage, Class I cavities were prepared on 120 extracted human molars and randomly assigned to 6 groups of 20 each. The cavities in each group were filled with six temporary filling materials. All specimens were submitted to 1000 thermo-cycles, with temperature varying from 5degrees C/55degrees C. Microleakage was determined using a dye penetration test. The results were as follows 1. Fermit had significantly less polymerization shrinkage than the other resin-based temporary filling materials. Fermit (0.22 %) < Spacer (0.38 %) < Quicks (0.64 %), Provifil (0.67 %), Clip (0.67 %) 2. Resin-based temporary filling materials showed 0.43 - 1.1 % expansion in 7 days. 3. Fermit showed the greatest leakage, while Quicks exhibited the least leakage. 4. There are no correlation between polymerization shrinkage or hygroscopic expansion and microleakage of resin-based temporary filling materials.
Full text:
Available
Index:
WPRIM (Western Pacific)
Main subject:
Polymers
/
Polymethacrylic Acids
/
Root Canal Filling Materials
/
Zinc Oxide
/
Vinyl Compounds
/
Calcium Sulfate
/
Dental Cements
/
Displacement, Psychological
/
Polymerization
/
Molar
Limits:
Humans
Language:
Korean
Journal:
Journal of Korean Academy of Conservative Dentistry
Year:
2008
Type:
Article
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