Buonocore memorial lecture. Adhesion to enamel and dentin: current status and future challenges.

胶粘剂 搪瓷漆 材料科学 玻璃离子水门汀 牙本质 牙科粘接 牙科 生物材料 粘结强度 计算机科学 生物医学工程 复合材料 纳米技术 图层(电子) 医学
作者
Bart Van Meerbeek,Jan De Munck,Hiroshi Yoshida,Satoshi Inoue,Marcos A. Vargas,Padmini Vijay,Kirsten Van Landuyt,Paul Lambrechts,Guido Vanherle
出处
期刊:PubMed [National Institutes of Health]
卷期号:28 (3): 215-35 被引量:1655
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摘要

Bonding to tooth tissue can be achieved through an "etch&rinse," "self-etch" or "glass-ionomer" approach. In this paper, the basic bonding mechanism to enamel and dentin of these three approaches is demonstrated by means of ultramorphological and chemical characterization of tooth-biomaterial interfacial interactions. Furthermore, bond-strength testing and measurement of marginal-sealing effectiveness (the two most commonly employed methodologies to determine "bonding effectiveness" in the laboratory) are evaluated upon their value and relevance in predicting clinical performance. A new dynamic methodology to test biomaterial-tooth bonds in a fatigue mode is introduced with a recently developed micro-rotary fatigue-testing device. Eventually, today's adhesives will be critically weighted upon their performance in diverse laboratory studies and clinical trials. Special attention has been given to the benefits/drawbacks of an etch&rinse versus a self-etch approach and the long-term performance of these adhesives. Correlating data gathered in the laboratory with clinical results clearly showed that laboratory research CAN predict clinical effectiveness. Although there is a tendency to simplify bonding procedures, the data presented confirm that conventional three-step etch&rinse adhesives still perform most favorably and are most reliable in the long-term. Nevertheless, a self-etch approach may have the best future perspective. Clinically, when adhesives no longer require an "etch&rinse" step, the application time, and probably more importantly, the technique-sensitivity are substantially reduced. Especially "mild," two-step self-etch adhesives that bond through a combined micromechanical and chemical interaction with tooth tissue closely approach conventional three-step systems in bonding performance.

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