上颌窦底提升不植骨同期植入种植体的临床疗效观察

目的 观察冲压式上颌窦底提升术(osteotome sinus floor elevation,OSFE)不植骨并同期植入种植体的临床疗效及技术特点.方法 自2000年1月至2008年12月对65例患者经牙槽嵴顶入路,行OSFE并同期行种植体植入术,共植入96枚种植体,手术过程中上颌窦内不植入任何骨充填材料.缺牙区牙槽骨可用骨高度为5～8 mm,平均(6.78 4±1.04)mm.观察方法 为临床和X线片检查.对种植体凸入上颌窦内不同长度、安底改建情况进行卡方检验.结果 除1例单牙种植术后15 d因种植体松动、牙龈红肿取出种植体,其余64例患者随访>5年12例,>3年14例,>2年28例,>1年lO例,平均随访33.4个月.96枚种植体中除1枚于种植15 d后松动取bm外,其余种植体均获得良好的骨结合并完成上部义齿修复,种植体周围软组织无炎症,咀嚼功能良好.种植体凸入上颌窦内1～5 mm,平均2.57 mm,51枚(54%)种植体根方有不同程度的新骨形成,33枚(35%)种植体根方形成了新的上颌窦底,11枚(12%)种植体根周末见明显新骨形成.统计分析显示,种植体凸入上颌窦内的长度与上颌窦底骨改建差异无统计学意义(x2=6.113,P=0.191).结论 应严格把握OSFE适应证;OSFE时不植骨并同期植人种植体的短期临床效果是可预期的;新的窦底形成与上颌窦底提升高度无明显相关性.

Abstract：

Objective To investigate the clinical results of osteotome sinus floor elevation(OSFE)without grafting combined with simultaneous implant placement.Methods A total of 65 patients underwent maxillary sinus floor elevation from alveolus without any bone grafting from January 2000 to December 2008 and 96 implants were placed in the maxillary posterior edentulous region simultaneously.Clinical and radiography examinations were performed.The residual bone height ranged from 5 to 8 mm and the mean bone height was(6.78±1.04)mm.The mean following period was 33.4 months.Statistical analysis was perfbrmed by chi square test.Results Ninety-five of 96 implants were clinically stable and functioned without any pain and other complaints.One implant Was extracted 15 days after operation because of mobility and the other implants obtained osseointegration.The mean implant protrusion lengh Was 2.6 mm,ranging from 1 to 5 mm.Different degree of new bone formation was observed in 51(54%)of implants.New maxillary sinus floor outline Was observed in 33(35%)of implants and there was no obvious new bone in 11(12%)of implants.There Was no significant deference between the implant protrusion length and sinus floor remodeling.Conclusions Under strict indications,the clinical results of OSFE without bone grafting combined with simultaneous implant placement were predictable in short term.The new sinus floor formation was not related to the implant protrusion length.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

应用锥形束CT评估腭部种植体的植入部位

Objective To investigate the vertical bone height and the bone density of the palate for implants placement using cone beam CT(CBCT)and to provide references to the safe and stable placement of palatal implants.Methods Three-dimensional reformatting images were reconstructed with the selected CBCT scanning data of 34 patients aged 18 to 35 yeras,by means of EZ implant software.The vertical bone height was measured at 20 interesting sites of palate.Bone density was measured at 10 sites that could support 3.0mm long implants.The data of the vertical bone height and bone density were analyzed by Kmeans cluster analysis.Results According to the cluster analysis results,the 10 sites were classified into 3 clusters.There were statistical differences among these three clusters in bone height and bone density(P＜0.05).The ISD result showed that the greatest mean value of vertical bone height was obtained in cluster 2,followed by cluster 1 and cluster 3;the highest bone density was founded in cluster 3,followed by cluster 1 and cluster 2.Conclusions Evaluation of the sites for palatal implant placement with cone beam CT would be helpful in safe and stable implantation.     

带控制阀种植牙手术骨粉收集器的研制及临床应用

目的 介绍自行研制的带控制阀种植牙手术骨粉收集器,并观察其临床应用效果.方法 选取2008年5月至2009年10月38例牙种植患者,应用自制的骨粉收集器收集种植窝制备时产生的骨碎屑,并将其用于修复种植体周围骨缺损,其中开窗式骨缺损29处,唇颊(舌)侧种植体颈部角形缺损23处.结果 所有病例术后均无创口感染及裂开,原缺损处局部形态饱满,牙龈无明显退缩,X线片示种植体与周围牙槽骨形成良好的骨结合.结论 应用自制骨粉收集器收集的骨粉修复种植体周围小型骨缺损效果良好,使用方便,具有良好的应用前景.     

收集骨修复种植体周围骨缺损的效果评价

目的:测量aspeo12000骨收集器在牙种植术中收集的骨量,观察收集骨的组织学特点、成骨活性及即刻移植修复种植体周围骨缺损的临床效果。方法:分2组进行。第1组,15例健康牙种植患者,应用aspeo12000骨收集器收集18颗ITI种植窝制备时钻出的骨屑,测量收集骨的体积,并用t检验比较不同性别、不同部位之间是否存在差别;每一样本脱钙后常规包埋、HE染色,光镜下观察其形态结构,计算骨组织面积所占的比例。第2组:11例患者,植入16颗种植体时发生12处骨缺损,所有缺损应用收集骨即刻移植或收集骨与Bio-oss混合移植。结果:健康牙种植患者收集骨量在不同性别、不同部位之间无显著差异,制备1个种植体窝平均可获得0.93倍体积的“湿骨”。光镜下收集骨以骨组织为主,其面积约占94.2%。牙种植术后3～6个月,原缺损处局部形态饱满,二期手术时见缺损处已覆盖成熟骨质,移植骨成活良好。结论:应用骨收集器获得的收集骨即刻移植修复种植体周围小的骨缺损,是一种简单实用的方法。     

牙种植手术中自体骨的收集和应用

目的：研究牙种植过程中，收集自体骨即刻移植修复种植体周围小型骨缺损的临床疗效。方法：2003年10月至2005年10月，选择14例牙种植患者，植入25颗种植体时发生17处骨缺损，其中开窗式骨缺损9处，烦（舌）侧种植体颈部暴露8处。在牙种植窝制备过程中，应用自制的集骨器收集随冷却水流出的骨屑，并将其即刻移植或与Bio—oss混合后移植修复骨缺损。结果：牙种植术后3-6个月，原缺损处局部形态饱满，X线片示种植体与周围牙槽骨形成良好的骨结合，二期手术时见缺损处巳覆盖成熟骨质，移植骨成活良好。结论：应用自制集骨器获得的收集骨修复种植体周围小型骨缺损，方法简单实用。     

Bone volume collected from dental implant sites during osteotomy.

PURPOSE: Little research has been done to determine the amount of bone harvested from implant site preparations using an inline bone collector. This study looked at the amount of bone that can be harvested from common dental implant osteotomies. PATIENTS AND METHODS: A total of 24 implants were placed in 9 patients over a 3-month period. Implant size ranged from 3.75 x 13 mm to 4.75 x 13 mm. Nine implants were placed in the maxilla, and 15 implants were placed in the mandible. Seven patients were female, and 2 patients were male. The patient age ranged from 27 to 72 years. Four patients had implants placed within 5 years after tooth extraction, and 5 patients had implants placed 5 years after tooth extraction: an analysis of variance was used to determine if there were statistical differences between maxilla versus mandible, male versus female, and edentulism less than or greater than 5 years. RESULTS: The average bone volume from the 24 osteotomies was 0.195 +/- 0.099 mL. The average osteotomy site measured 4.02 x 12.90 mm. There were no statistical differences noted among maxilla and mandible, gender, or time of edentulism. CONCLUSIONS: When using an inline bone collector to harvest implant osteotomy sites, an average of 0.195 mL of bone can be obtained from a site approximately 4.0 x 13 mm. This bone can often be combined with a xenograft or alloplastic material to provide extra bulk to fill peri-implant defects. When multiple implant sites are prepared, often sufficient bone can be obtained with the bone collector alone.     

膨体聚四氟乙烯膜在牙种植体周围骨缺损中的应用

目的：观察膨体聚四氟乙烯(e—PTFE)膜在牙种植体周围骨缺损中引导骨再生的作用。方法：25例患者植人65枚种植钉，其中32枚钉周围有骨缺损，分别作植骨覆盖膨体聚四氟乙烯膜或直接覆盖膨体聚四氟乙烯膜处理。术后观察有无感染，膜有无外露；二期手术时取出膜，观察骨再生效果。结果：25例患者覆盖聚四氟乙烯膜后，23例无明显炎症反应，2例术后感染严重，拔除种植钉；2例膜外露，经处理后伤口愈合；膜于术后3—6个月时取出，23例均取得了较好的骨再生效果。结论：国产聚四氟乙烯膜可应用于种植体周围骨缺损的引导骨再生。     

邻近自体碎骨移植在种植牙中的应用

目的 探讨种植体周骨缺损采用邻近自体碎骨同期移植的治疗效果。方法 对58颗种植体周有骨缺损者采用邻近自体碎骨同期移植充填缺损。其中35颗种植体周移植碎骨用钛膜固定。结果 2颗种植体周植骨明显吸收,种植体松动失败,其余均获得成功,临床随访1～5年种植牙功能和形态良好,未见明显骨吸收。结论 对种植体测方、根方、颈部等局部骨缺损,用自体邻近碎骨同期移植解决种植床骨量不足,简单实用效果好。     

牙种植术钻孔骨碎作植骨的临床研究

目的:评价在牙种植术中,钻备种植窝时收集到的自体骨颗粒单独或与Bio-Oss人工骨混合作为骨移植材料应用的临床效果。方法:34例52枚牙种植术的病例分成四组。第一组(对照组)22枚植体,单纯植入种植体,种植区无植入自体骨或人工骨。第二组6枚植体,植入螺纹种植体后,在部分暴露的植体处植入Bio-Oss人工骨。第三组8枚植体,收集种植术中准备植体窝时,在各种钻针上的自体骨颗粒,植入种植体周骨量不足区域。第四组16枚植体,自各种钻针上收集到的自体骨颗粒与Bio-Oss人工骨混合,植入种植体周骨缺损区。记录I、II期手术种植体周围骨组织高度。结果:植入术后3-12个月,II期手术时,实验组有新生骨形成,第四组(即Bio-Oss人工骨与自体骨颗粒混合物植入组),新生骨形成的量较其余组别多。结论:研究表明牙种植术中钻备种植窝时收集到的自体骨颗粒可作为有效的植骨材料,这种简单的方法避免从他处手术获得自体骨,对扩大牙种植适应症有重要意义。RRRR     

牙种植体即刻种植骨愈合过程的组织学观察

目的：了解即刻种植体的骨愈合过程，验证即刻种植的可行性。方法：在１２只犬下颌前磨牙新鲜拔牙创内立即植入纯钛牙种植体，通过组织学光镜和扫描电镜观察术后２、４、６、８、１２周种植体周围骨缺损修复过程和种植体骨结合形成情况。结果：骨缺损区内血块首先机化，而后沿牙槽窝骨壁向中心方向逐渐骨化形成新骨。小于１ｍｍ骨缺损１２周内可完全修复，种植体骨结合形成；１ｍｍ以上骨缺损则不能完全修复。结论：即刻种植体周围骨缺损的修复和骨结合形成类似于拔牙创的愈合，大于１ｍｍ的骨缺损应争取植骨。     

种植体周不同骨量缺损修复的组织学研究

目的评价BLB种植体周不同量骨缺损在无GBR时骨再生修复能力。方法在犬股骨种植体一侧分别形成水平宽度3mm,垂直深度5mm,水平长度分别为0、1、2、3、4mm的标准梯度骨缺损,一侧直接拉拢缝合,另一侧覆盖生物膜后缝合作为对照。术后三个月处死动物,取含种植体的骨段进行组织学观察。结果水平长度3mm以下的骨缺损在无生物膜覆盖情况下完全获得骨性修复,新骨与种植体表面接触紧密,与有膜覆盖组无明显差异。4mm骨缺损主要为小梁样骨修复,有膜组骨修复效果好于无膜组。结论在周围有骨壁的情况下,水平长度在3mm以下骨缺损有很强的自身修复能力,骨缺损间隙可不用特殊的处理。     

上颌窦内提升植骨及同期牙种植术中中空钻的应用

目的　介绍和评价在上颌窦内提升、植骨及同期牙种植术中使用中空钻的效果。方法对 2 4例牙槽骨高度不足的上颌后牙 ,用中空钻预备种植床、取骨 ,再行上颌窦底内提升 ,将所取的骨碾碎 ,植入上颌窦底 ,同期植入种植体 2 4例。术后 1周 ,1、3、6个月复查。结果　无种植体松动、脱落及上颌窦炎发生。 6个月后 ,X线片显示所植的骨改建成新骨 ,增加了牙槽骨高度 ,满足了种植要求 ;同时可见种植体与新骨形成紧密的骨性结合。种植体植入 6个月后行二期修复。结论　该法解决了上颌后牙区的牙槽骨高度不足 ,避免另处取骨。方法简单 ,值得临床推广。