Influence of preparation design and ceramic thicknesses on fracture resistance and failure modes of premolar partial coverage restorations

Statement of problem Preparation designs and ceramic thicknesses are key factors for the long-term success of minimally invasive premolar partial coverage restorations. However, only limited information is presently available on this topic. Purpose The purpose of this in vitro study was to evaluate...

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Published in:The Journal of prosthetic dentistry 2013-10, Vol.110 (4), p.264-273
Main Authors: Guess, Petra C., Dr Med Dent, PhD, Schultheis, Stefan, Dr Med Dent, Wolkewitz, Martin, Dr Sc hum, PhD, Zhang, Yu, PhD, Strub, Joerg R., Prof Dr Med Dent Dr hc
Format: Article
Language:English
Subjects:
Acid Etching, Dental - methods
Bicuspid
Bite Force
Cementation - methods
Ceramics
Ceramics - chemistry
Dental Porcelain - chemistry
Dental Prosthesis Design
Dental Restoration Failure
Dental Stress Analysis - instrumentation
Dental Veneers
Dentistry
Failure
Failure modes
Fracture toughness
Humans
Inlays
Lithium
Materials Testing
Phosphoric Acids - chemistry
Prosthetics
Resin Cements - chemistry
Restoration
Surface Properties
Temperature
Time Factors
Tooth Preparation, Prosthodontic - methods
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Summary:Statement of problem Preparation designs and ceramic thicknesses are key factors for the long-term success of minimally invasive premolar partial coverage restorations. However, only limited information is presently available on this topic. Purpose The purpose of this in vitro study was to evaluate the fracture resistance and failure modes of ceramic premolar partial coverage restorations with different preparation designs and ceramic thicknesses. Material and methods Caries-free human premolars (n=144) were divided into 9 groups. Palatal onlay preparation comprised reduction of the palatal cusp by 2 mm (Palatal Onlay Standard), 1 mm (Palatal-Onlay-Thin), or 0.5 mm (Palatal Onlay Ultrathin). Complete-coverage onlay preparation additionally included the buccal cusp (Occlusal Onlay Standard; Occlusal Onlay Thin; Occlusal Onlay Ultrathin). Labial surface preparations with chamfer reductions of 0.8 mm (Complete-Veneer-Standard), 0.6 mm (Complete-Veneer-Thin), and 0.4 mm (Complete Veneer Ultrathin) were implemented for complete veneer restorations. Restorations were fabricated from a pressable lithium disilicate ceramic (IPS-e.max-Press) and cemented adhesively (Syntac-Classic/Variolink-II). All specimens were subjected to cyclic mechanical loading (F=49 N, 1.2 million cycles) and simultaneous thermocycling (5°C to 55°C) in a mouth-motion simulator. After fatigue, restorations were exposed to single-load-to-failure. Two-way ANOVA was used to identify statistical differences. Pair-wise differences were calculated and P-values were adjusted by the Tukey-Kramer method (α=.05). Results All specimens survived fatigue. Mean (SD) load to failure values (N) were as follows: 837 (320/Palatal-Onlay-Standard), 1055 (369/Palatal-Onlay-Thin), 1192 (342/Palatal-Onlay-Ultrathin), 963 (405/Occlusal-Onlay-Standard), 1108 (340/Occlusal-Onlay-Thin), 997 (331/Occlusal-Onlay-Ultrathin), 1361 (333/Complete-Veneer-Standard), 1087 (251/Complete-Veneer-Thin), 883 (311/Complete-Veneer-Ultrathin). Palatal-onlay restorations revealed a significantly higher fracture resistance with ultrathin thicknesses than with standard thicknesses ( P =.015). Onlay restorations were not affected by thickness variations. Fracture loads of standard complete veneers were significantly higher than thin ( P =.03) and ultrathin ( P
ISSN:0022-3913
1097-6841
DOI:10.1016/S0022-3913(13)60374-1