中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
47期
7627-7632
,共6页
李晓杰%胡书海%董明%许诺%任翔%左恩俊
李曉傑%鬍書海%董明%許諾%任翔%左恩俊
리효걸%호서해%동명%허낙%임상%좌은준
生物材料%口腔生物材料%铒:钇铝石榴石激光%表面处理%纤维桩%推出实验%弹性模量%上颌中切牙%釉牙骨质界%黏结强度
生物材料%口腔生物材料%鉺:釔鋁石榴石激光%錶麵處理%纖維樁%推齣實驗%彈性模量%上頜中切牙%釉牙骨質界%黏結彊度
생물재료%구강생물재료%이:을려석류석격광%표면처리%섬유장%추출실험%탄성모량%상합중절아%유아골질계%점결강도
lasers%surface properties%dentin-bonding agents%dental bonding
背景:近年来,纤维桩和树脂核已经被广泛应用于修复已行根管治疗后的大面积牙体硬组织缺损,并取得了令人满意的效果。铒:钇铝石榴石激光(erbium: yttrium aluminum garnet laser,Er:YAG激光)是新型水动力激光系统,可以用于纤维桩的表面处理。但是关于 Er:YAG 激光表面处理对纤维桩黏结强度影响的实验研究国内外鲜有报道。目的:探讨不同参数Er:YAG激光进行表面处理对玻璃纤维桩与不同部位根管牙本质黏结强度的影响。方法:选择50颗新鲜拔除根长相近的单根管上颌中切牙,常规根管治疗后去除牙冠,完成根桩牙体预备后,黏固ParaPost FIBER LUX玻璃纤维桩至根管内。根据黏固前桩表面处理方法,将50颗离体牙随机等分为5组:对照组、1.5,2.5,3.5和4.5 W ER:YAG激光照射组。对照组未进行表面处理,1.5,2.5,3.5和4.5 W ER:YAG激光照射组纤维桩分别以150,250,350和450 mJ,频率为10 Hz,脉冲持续频率为100μs的Er:YAG激光进行表面处理60 s。结果与结论:纤维桩与牙本质间黏结强度均值牙颈部最大,根中部次之,根尖部最小。牙颈部黏结强度与根中部和根尖部之间差异有显著性意义(P <0.05);根中部与根尖部之间差异无显著性意义(P >0.05)。相同根管部位的黏结强度值均表现为4.5 W ER:YAG激光照射组最高,且与其他组比差异有显著性意义(P <0.05)。说明用4.5 W Er:YAG桩表面处理可提高纤维桩与根管牙本质的黏结强度,且根颈部黏结强度大于根中及根尖部。
揹景:近年來,纖維樁和樹脂覈已經被廣汎應用于脩複已行根管治療後的大麵積牙體硬組織缺損,併取得瞭令人滿意的效果。鉺:釔鋁石榴石激光(erbium: yttrium aluminum garnet laser,Er:YAG激光)是新型水動力激光繫統,可以用于纖維樁的錶麵處理。但是關于 Er:YAG 激光錶麵處理對纖維樁黏結彊度影響的實驗研究國內外鮮有報道。目的:探討不同參數Er:YAG激光進行錶麵處理對玻璃纖維樁與不同部位根管牙本質黏結彊度的影響。方法:選擇50顆新鮮拔除根長相近的單根管上頜中切牙,常規根管治療後去除牙冠,完成根樁牙體預備後,黏固ParaPost FIBER LUX玻璃纖維樁至根管內。根據黏固前樁錶麵處理方法,將50顆離體牙隨機等分為5組:對照組、1.5,2.5,3.5和4.5 W ER:YAG激光照射組。對照組未進行錶麵處理,1.5,2.5,3.5和4.5 W ER:YAG激光照射組纖維樁分彆以150,250,350和450 mJ,頻率為10 Hz,脈遲持續頻率為100μs的Er:YAG激光進行錶麵處理60 s。結果與結論:纖維樁與牙本質間黏結彊度均值牙頸部最大,根中部次之,根尖部最小。牙頸部黏結彊度與根中部和根尖部之間差異有顯著性意義(P <0.05);根中部與根尖部之間差異無顯著性意義(P >0.05)。相同根管部位的黏結彊度值均錶現為4.5 W ER:YAG激光照射組最高,且與其他組比差異有顯著性意義(P <0.05)。說明用4.5 W Er:YAG樁錶麵處理可提高纖維樁與根管牙本質的黏結彊度,且根頸部黏結彊度大于根中及根尖部。
배경:근년래,섬유장화수지핵이경피엄범응용우수복이행근관치료후적대면적아체경조직결손,병취득료령인만의적효과。이:을려석류석격광(erbium: yttrium aluminum garnet laser,Er:YAG격광)시신형수동력격광계통,가이용우섬유장적표면처리。단시관우 Er:YAG 격광표면처리대섬유장점결강도영향적실험연구국내외선유보도。목적:탐토불동삼수Er:YAG격광진행표면처리대파리섬유장여불동부위근관아본질점결강도적영향。방법:선택50과신선발제근장상근적단근관상합중절아,상규근관치료후거제아관,완성근장아체예비후,점고ParaPost FIBER LUX파리섬유장지근관내。근거점고전장표면처리방법,장50과리체아수궤등분위5조:대조조、1.5,2.5,3.5화4.5 W ER:YAG격광조사조。대조조미진행표면처리,1.5,2.5,3.5화4.5 W ER:YAG격광조사조섬유장분별이150,250,350화450 mJ,빈솔위10 Hz,맥충지속빈솔위100μs적Er:YAG격광진행표면처리60 s。결과여결론:섬유장여아본질간점결강도균치아경부최대,근중부차지,근첨부최소。아경부점결강도여근중부화근첨부지간차이유현저성의의(P <0.05);근중부여근첨부지간차이무현저성의의(P >0.05)。상동근관부위적점결강도치균표현위4.5 W ER:YAG격광조사조최고,차여기타조비차이유현저성의의(P <0.05)。설명용4.5 W Er:YAG장표면처리가제고섬유장여근관아본질적점결강도,차근경부점결강도대우근중급근첨부。
BACKGROUND:Recent years, fiber posts and resin cores have been widely used in repairing the endodonticaly treated teeth with satisfactory effect. Erbium:yttrium aluminum garnet (Er:YAG) laser is a new type of water power laser system, which can be used for surface treatment of fiber posts. But studies on the effect of Er:YAG laser surface treatment on the bond strength of fiber posts are rarely reported. OBJECTIVE: To evaluate the effect of surface treatment utilizing Er:YAG laser irradiation with different parameters on the bond strength of fiber posts to root canal dentin. METHODS: Fifty human maxilary central incisors that had similar dimensions were used. After endodontic treatment, removal of the crown and canal preparation, ParaPost FIBER LUX glass fiber posts were cemented into the root canals. According to the method of surface treatment, 50 teeth were randomly divided into: no surface treatment as control group; four groups undergoing surface preparation with Er:YAG laser with four different power settings (150, 250, 350 and 450 mJ at 10 Hz for 60 s at 100-μs pulse duration), named 1.5, 2.5, 3.5, and 4.5 W Er:YAG laser irradiation groups, respectively. RESULTS AND CONCLUSION: The mean bond strength values reduced from the cervical to the apical root canal, and the bond strength of the dental cervix was significantly different from that of middle and apical thirds (P < 0.05), but there was no difference between the middle and apical thirds (P> 0.05). Regardless of the different part of the root slices, the bond strength was highest in the 4.5 W Er:YAG laser irradiation group, showing significant difference from other groups (P < 0.05). These findings indicate that 4.5 W Er:YAG laser irradiation significantly increases the bond strength of the fiber posts to root canal dentin.
