微种植体支抗与植入区域颌骨骨密度的相关研究进展
摘要
支抗控制是正畸治疗过程中的核心内容,微种植体作为支抗逐渐应用于临床,有关微种植体支抗的安全性和稳定性是正畸医生关心的重要问题。微种植体的稳定性与植入区域颌骨骨密度、骨皮质厚度、植入角度、植入方式、微种植体设计、愈合时间、应力加载方式等都有很大关系,然而临床中关于骨密度与微种植体稳定性之间的关系研究较少。颌骨密度与全身骨密度、上下颌骨不同区域骨密度、不同垂直骨面型骨密度各不相同。本文就微种植体支抗与植入区域颌骨骨密度之间的关系的研究做一综述。
引文
[1]薛美荣,武秀萍.不同植入角度下骨皮质厚度对微种植钉稳定性的影响[J].中国药物与临床,2017,17(05):669-671.
[2] Kim DG,Christopherson GT,Dong XN,et al.The effect of microcomputed tomography scanning and reconstruction voxel size on the accuracy of stereological measurements in human cancellous bone[J].Bone,2004,35(6):1375-1382.
[3] Ibrahim N,Parsa A,Hassan B,et al.Diagnostic imaging of trabecular bone microstructure for oral implants:a literature review[J].Dentomaxillofac R adiol,2013,42(3):20120075.
[4]王铁梅,林梓桐,葛久禹,林华.颌骨骨密度和全身骨密度的相关性研究[J].实用口腔医学杂志,2008(06):851-854.
[5] TaguchiA,Suei Y,Ohtsuka,Metal.Use fulness of panoRamic radio graphy in the diagnosis of post me no pausal osteo-Porosis in women.With and morphology of inferior cortex of The mandible[J].Dento maxillotac Radiol, 1996,25(5):263-267.
[6] LeeK,TaguchiA,IshiiK,etal.Visual assessment of the mandibular cortex on panoramic radiographst oident if y post-menopausal women with low bone mineralden sities[J].Oral Surgoral MediOral PathOral Radiol Endod,2005,100(2):226-231.
[7]郝永明,赵伟,邢一栋,于丽丽,邹德荣.牙种植区骨密度的CBCT评价[J].口腔颌面外科杂志,2014,24(03):204-207.
[8]傅民魁,卢海平,胡炜,等.口腔正畸专科教程[M].北京:人民卫生出版社,2007:57-58.
[9]邹冰爽,曾应魁,曾祥龙.下颌骨骨密度与颅面形态关系的研究.北京医科大学学报,1999,31(5):446-449.
[10] Jim Lee,Yong-Hoon Jeong,Joseph Pittman,Toru Deguchi,William M. Johnston,Henry W.Fields,Do-Gyoon Kim.Primary stability and viscoelastic displacement of mini-implant system under loading[J].Clinical Biomechanics,2017,41.
[11]李宏斌,刘军娜.正畸支抗微种植体初期稳定性的相关研究进展[J].中国城乡企业卫生,2018,33(10):27-29.
[12] Wilmes B,Ottenstreuer S,Su YY,et al.Impact of implant design on primary stability of orthodontic miniimplants[J].J Orofac Orthop,2008,69(1):42-50.
[13]杨再波,朱彬,高桂林,占江鄂,周艳玲.骨密度对正畸支抗稳定性影响的临床研究[J].临床口腔医学杂志,2016,32(07):423-425.
[14] Tada S,Stegaroiu R,Kitamura E,et al.Influence of implant design and bone quality on stress/strain distribution in bone around implants:a 3-dimensional finite element analysis[J].Int J Oral Maxillofac Implants,2003,18(3):357-368.
[15] Eli Lai T,Chen M.Factors affecting the clinical success of orthodontic anchorage:Experience with266 temporary anchorage devices[J].Joumal of Dental Sciences,2014,9:49-55.
[16] Tseng YC,Hsieh CH,Chen CH,et al.The application of mini implants for orthodontic anchorage[J].Int J Oral Maxillofac Surg,2006,35(8):704-707.
[17]宋燕,彭友俭.骨密度对正畸种植钉存留率的影响[J].中华口腔正畸学杂志,2015,22(4):218-220.
[18]赵弘,刘洪臣,顾晓明.骨皮质厚度及植入角度对支抗种植钉影响的三维有限元分析[J].口腔颌面修复学杂志,2010,11(01):24-27.
[19] Cattaneo PM,Dalstra M,Melsen B.Analysis of stress and strain around orthodontically loaded implants:an animal study[J].Int J Oral Maxillofac Implants,2007,22(2):213-225.
[2] Kim DG,Christopherson GT,Dong XN,et al.The effect of microcomputed tomography scanning and reconstruction voxel size on the accuracy of stereological measurements in human cancellous bone[J].Bone,2004,35(6):1375-1382.
[3] Ibrahim N,Parsa A,Hassan B,et al.Diagnostic imaging of trabecular bone microstructure for oral implants:a literature review[J].Dentomaxillofac R adiol,2013,42(3):20120075.
[4]王铁梅,林梓桐,葛久禹,林华.颌骨骨密度和全身骨密度的相关性研究[J].实用口腔医学杂志,2008(06):851-854.
[5] TaguchiA,Suei Y,Ohtsuka,Metal.Use fulness of panoRamic radio graphy in the diagnosis of post me no pausal osteo-Porosis in women.With and morphology of inferior cortex of The mandible[J].Dento maxillotac Radiol, 1996,25(5):263-267.
[6] LeeK,TaguchiA,IshiiK,etal.Visual assessment of the mandibular cortex on panoramic radiographst oident if y post-menopausal women with low bone mineralden sities[J].Oral Surgoral MediOral PathOral Radiol Endod,2005,100(2):226-231.
[7]郝永明,赵伟,邢一栋,于丽丽,邹德荣.牙种植区骨密度的CBCT评价[J].口腔颌面外科杂志,2014,24(03):204-207.
[8]傅民魁,卢海平,胡炜,等.口腔正畸专科教程[M].北京:人民卫生出版社,2007:57-58.
[9]邹冰爽,曾应魁,曾祥龙.下颌骨骨密度与颅面形态关系的研究.北京医科大学学报,1999,31(5):446-449.
[10] Jim Lee,Yong-Hoon Jeong,Joseph Pittman,Toru Deguchi,William M. Johnston,Henry W.Fields,Do-Gyoon Kim.Primary stability and viscoelastic displacement of mini-implant system under loading[J].Clinical Biomechanics,2017,41.
[11]李宏斌,刘军娜.正畸支抗微种植体初期稳定性的相关研究进展[J].中国城乡企业卫生,2018,33(10):27-29.
[12] Wilmes B,Ottenstreuer S,Su YY,et al.Impact of implant design on primary stability of orthodontic miniimplants[J].J Orofac Orthop,2008,69(1):42-50.
[13]杨再波,朱彬,高桂林,占江鄂,周艳玲.骨密度对正畸支抗稳定性影响的临床研究[J].临床口腔医学杂志,2016,32(07):423-425.
[14] Tada S,Stegaroiu R,Kitamura E,et al.Influence of implant design and bone quality on stress/strain distribution in bone around implants:a 3-dimensional finite element analysis[J].Int J Oral Maxillofac Implants,2003,18(3):357-368.
[15] Eli Lai T,Chen M.Factors affecting the clinical success of orthodontic anchorage:Experience with266 temporary anchorage devices[J].Joumal of Dental Sciences,2014,9:49-55.
[16] Tseng YC,Hsieh CH,Chen CH,et al.The application of mini implants for orthodontic anchorage[J].Int J Oral Maxillofac Surg,2006,35(8):704-707.
[17]宋燕,彭友俭.骨密度对正畸种植钉存留率的影响[J].中华口腔正畸学杂志,2015,22(4):218-220.
[18]赵弘,刘洪臣,顾晓明.骨皮质厚度及植入角度对支抗种植钉影响的三维有限元分析[J].口腔颌面修复学杂志,2010,11(01):24-27.
[19] Cattaneo PM,Dalstra M,Melsen B.Analysis of stress and strain around orthodontically loaded implants:an animal study[J].Int J Oral Maxillofac Implants,2007,22(2):213-225.
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