Staninec M, Nalla R K, Hilton J F, Ritchie R O, Watanabe L G, Nonomura G, Marshall G W, Marshall S J
UCSF School of Dentistry, Box 0758, San Francisco, CA 94143, USA.
J Dent Res. 2005 Apr;84(4):371-5. doi: 10.1177/154405910508400415.
Exposed root surfaces frequently exhibit non-carious notches representing material loss by abrasion, erosion, and/or abfraction. Although a contribution from mechanical stress is often mentioned, no definitive proof exists of a cause-effect relationship. To address this, we examined dimensional changes in dentin subjected to cyclic fatigue in two different pH environments. Human dentin cantilever-beams were fatigued under load control in pH = 6 (n = 13) or pH = 7 (n = 13) buffer, with a load ratio (R = minimum load/maximum load) of 0.1 and frequency of 2 Hz, and stresses between 5.5 and 55 MPa. Material loss was measured at high- and low-stress locations before and after cycling. Of the 23 beams, 7 withstood 1,000,000 cycles; others cracked earlier. Mean material loss in high-stress areas was greater than in low-stress areas, and losses were greater at pH = 6 than at pH = 7, suggesting that mechanical stress and lower pH both accelerate erosion of dentin surfaces.
暴露的牙根表面经常出现非龋性缺口,这代表着由于磨损、侵蚀和/或牙齿结构损耗导致的物质流失。虽然经常提到机械应力的作用,但尚无明确证据证明存在因果关系。为了解决这个问题,我们研究了在两种不同pH环境下经受循环疲劳的牙本质的尺寸变化。将人类牙本质悬臂梁在pH = 6(n = 13)或pH = 7(n = 13)的缓冲液中进行载荷控制下的疲劳试验,载荷比(R =最小载荷/最大载荷)为0.1,频率为2 Hz,应力在5.5至55 MPa之间。在循环前后测量高应力和低应力位置的材料损失。在23根梁中,7根经受了1,000,000次循环;其他梁更早出现裂缝。高应力区域的平均材料损失大于低应力区域,并且在pH = 6时的损失大于pH = 7时的损失,这表明机械应力和较低的pH值都会加速牙本质表面的侵蚀。
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