Advances in the design of the transmucosal part of dental implant

doi:10.12016/j.issn.2096-1456.2016.08.001

Journal of Prevention and Treatment for Stomatological Diseases ›› 2016, Vol. 24 ›› Issue (8): 441-444.DOI: 10.12016/j.issn.2096-1456.2016.08.001

• Expert Forum • Previous Articles Next Articles

Advances in the design of the transmucosal part of dental implant

Jiang CHEN(),Lin ZHOU

Department of Implantology, Affiliated Stomatological Hospital of Fujian Medical University, Fuzhou 350002, China

Received:2016-02-19 Revised:2016-03-18 Online:2016-08-20 Published:2016-08-20
Contact: Jiang CHEN

种植体颈部设计的研究现状

陈江(),周麟

福建医科大学附属口腔医院种植科, 福建福州（350002）

通讯作者: 陈江
作者简介:陈江,教授,主任医师,博士生导师。2000年10月国家留学基金委员会公派赴美国哈佛大学牙学院和塔夫茨大学新英格兰医学中心访问研究。现任福建医科大学口腔医学院及附属口腔医院院长,兼任中华口腔医学会常务理事、中华口腔医学会口腔种植专业委员会副主任委员、中华口腔医学会口腔肿瘤学组成员、福建省口腔医学会会长、《口腔疾病防治》杂志副主编。国务院政府特殊津贴享受者,福建省百千万人才工程人选,福建医科大学学科带头人。主持国家自然科学基金、福建省发改委产业技术开发项目、福建省科技重大科研项目、福建省教育厅重点项目、福建省自然科学基金项目等科研课题共10余项,获福建省科技进步二等奖1项、福建省医学科技三等奖1项、实用新型与发明专利3项。主编、主译、参编学术专著6部。
基金资助:
福建省科技厅重点项目(2013Y0039);福建省临床重点专科建设项目

Abstract

Abstract:

Nowadays, dental implant is the first therapeutic choice of the edentulous patients. A firm functional soft tissue seal between the transmucosal part of implants and the surrounding soft tissues is significant to the long-term survival of the implant as well as the stable osseointegration. There are many research on the osseointegration, but less in the transmucosal part of the implant. In this review, we combined the implant neck design of our own with the international study in this field, in order to discuss the relationship between the implant neck design and the marginal bone loss, interact with the soft tissue, the antibacterial activity.

Key words: Implant neck, Marginal bone loss, Transmucosal seal, Antibacterial activity

摘要：

口腔种植修复已成为缺失牙的首选治疗方案,种植体的成功不仅需要良好的骨结合,良好的软组织封闭也尤为重要。目前,种植体骨结合方面的研究已趋于成熟,而种植体颈部设计对软硬组织的影响还有待研究。笔者将本课题组对种植体颈部结构设计的研究情况结合国际上的前沿研究进行探讨,按照种植体颈部设计与边缘骨吸收、软组织封闭的形成和菌斑粘附形成的关系进行评述。

关键词: 种植体颈部, 边缘骨吸收, 软组织封闭, 抗菌性能, 口腔种植修复

CLC Number:

R783.4

Jiang CHEN,Lin ZHOU. Advances in the design of the transmucosal part of dental implant[J]. Journal of Prevention and Treatment for Stomatological Diseases, 2016, 24(8): 441-444.

陈江,周麟. 种植体颈部设计的研究现状[J]. 口腔疾病防治, 2016, 24(8): 441-444.

References 26

[1]	Albrektsson T, Donos N . Implant survival and complications. The Third EAO consensus conference 2012[J]. Clin Oral Implants Res, 2012,23(Suppl 6):63-65. DOI URL PMID
[2]	Yamano S, Al-Sowygh ZH, Gallucci GO , et al. Early peri-implant tissue reactions on different titanium surface topographies[J]. Clin Oral Implants Res, 2011,22(8):815-819. DOI URL PMID
[3]	An N, Rausch-fan X, Wieland M , et al. Initial attachment, subsequent cell proliferation/viability and gene expression of epithelial cells related to attachment and wound healing in response to different titanium surfaces[J]. Dental Materials, 2012, 28(12): 1207-1214. DOI URL PMID
[4]	Schwarz F, Hegewald A, Becker J . Impact of implant-abutment connection and positioning of the machined collar/microgap on crestal bone level changes: a systematic review[J]. Clin Oral Implants Res, 2014,25(4):417-425. DOI URL PMID
[5]	Sánchez-Siles M, Munoz-Camara D, Salazar-Sanchez N , et al. Incidence of peri-implantitis and oral quality of life in patients rehabilitated with implants with different neck designs: A 10-year retrospective study[J]. J Craniomaxillofac Surg, 2015,43(10):2168-2174. DOI URL PMID
[6]	Strietzel FP, Neumann K, Hertel M . Impact of platform switching on marginal peri-implant bone-level changes. A systematic review and meta-analysis[J]. Clin Oral Implants Res, 2015,26(3):342-358. DOI URL PMID
[7]	den Hartog L, Raghoebar GM, Slater JJ , et al. Single-tooth impla-nts with different neck designs: a randomized clinical trial evaluating the aesthetic outcome[J]. Clin Implant Dent Relat Res, 2013,15(3):311-321. DOI URL PMID
[8]	Choi JY, Moon IS, Yun JH , et al. Effects of thread size in the implant neck area on peri-implant hard and soft tissues: an animal study[J/OL]. Clin Oral Implants Res, 2015: 1-6[ 2016- 02- 19]. http://onlinelibrary.wiley.com/doi/10.1111/clr.12720/full.
[9]	Bateli M, Att W, Strub JR . Implant neck configurations for preservation of marginal bone level: a systematic review[J]. Int J Oral Maxillofac Implants, 2011,26(2):290-303. DOI URL PMID
[10]	Yamano S, Al-Sowygh ZH, Gallucci GO , et al. Early peri-implant tissue reactions on different titanium surface topographies[J]. Clin Oral Implants Res, 2011,22(8):815-819. DOI URL PMID
[11]	Botos S, Yousef H, Zweig B , et al. The effects of laser microtexturing of the dental implant collar on crestal bone levels and peri-implant health[J]. Int J Oral Maxillofac Implants, 2011,26(3):492-498. DOI URL PMID
[12]	Lai Y, Chen J, Zhang T , et al. Effect of 3D microgroove surface topography on plasma and cellular fibronectin of human gingival fibroblasts[J]. J Dent, 2013,41(11):1109-1121. DOI URL PMID
[13]	Ketabi M, Deporter D . The effects of laser microgrooves on hard and soft tissue attachment to implant collar surfaces: a literature review and interpretation[J]. Int J Periodontics Restorative Dent, 2013,33(6):e145-152. DOI URL PMID
[14]	Anselme K, Davidson P, Popa AM , et al. The interaction of cells and bacteria with surfaces structured at the nanometre scale[J]. Acta biomaterialia, 2010,6(10):3824-3846. DOI URL PMID
[15]	Liu X, Zhou X, Li S , et al. Effects of titania nanotubes with or without bovine serum albumin loaded on human gingival fibroblasts[J]. Int J Nanomedicine, 2014,9(2):1185-1198. DOI URL PMID
[16]	Wang RC, Hsieh MC, Lee TM . Effects of nanometric roughness on surface properties and fibroblast's initial cytocompatibilities of Ti6Al4V[J]. Biointerphases, 2011,6(3):87-97. DOI URL PMID
[17]	Baharloo B, Textor M, Brunette DM . Substratum roughness alters the growth, area, and focal adhesions of epithelial cells, and their proximity to titanium surfaces[J]. J Biomed Mater Res A, 2004,74(1):12-22. DOI URL PMID
[18]	Atsuta I, Ayukwa Y, Furuhashi A , et al. In vivo and in vitro studies of epithelial cell behavior around titanium implants with machined and rough surfaces[J]. Clin Implant Dent Relat Res, 2014,16(5):772-781. DOI URL PMID
[19]	张鹏, 管红雨, 钟小君 . 钛种植体羟基磷灰石和神经生长因子复合涂层的制备及缓释性能研究[J]. 广东牙病防治, 2014,22(5):238-240.
[20]	Bates C, Marino V, Fazzalari NL , et al. Soft tissue attachment to titanium implants coated with growth factors[J]. Clin Implant Dent Relat Res, 2013,15(1):53-63. DOI URL PMID
[21]	Whitehead KA, Colligon J, Verran J . Retention of microbial cells in substratum surface features of micrometer and sub-micrometer dimensions[J]. Colloids Surf B Biointerfaces, 2005,41(S2/3):129-138. DOI URL PMID
[22]	Chen M, Yu Q, Sun H . Novel Strategies for the Prevention and Treatment of Biofilm Related Infections[J]. Int J Mol Sci, 2013,14(9):18488-18501. DOI URL PMID
[23]	Zhou L, Lai Y, Huang W , et al. Biofunctionalization of microgroove titanium surfaces with an antimicrobial peptide to enhance their bactericidal activity and cytocompatibility[J]. Colloids Surf B Biointerfaces 2015,128:552-560. DOI URL PMID
[24]	Al-Ahmad A, Wiedmann-Al-Ahmad M, Fackler A , et al. In vivo study of the initial bacterial adhesion on different implant materials[J]. Arch Oral Biol, 2013,58(9):1139-1147. DOI URL PMID
[25]	Bollen CM, Lambrechts P, Quirynen M . Comparison of surface roughness of oral hard materials to the threshold surface roughness for bacterial plaque retention: a review of the literature[J]. Dent Mater, 1997,13(4):258-269. DOI URL PMID
[26]	Huang HL, Chang YY, Weng JC , et al. Anti-bacterial performance of zirconia coatings on titanium implants[J]. Thin Solid Films, 2013,528(3):151-156. DOI URL

Advances in the design of the transmucosal part of dental implant

种植体颈部设计的研究现状

RichHTML

PDF

Knowledge

Abstract

Cite this article

share this article

References 26

Related Articles 5

Recommended Articles

Metrics

[1]	ZOU Rongfang, LAI Xuan, DENG Bin. Application prospect of silicon nitride ceramics in dental implants [J]. Journal of Prevention and Treatment for Stomatological Diseases, 2022, 30(6): 449-452.
[2]	HU Chenchen,LIU Xin,TANG Xuyan. Clinical observation of cement-retained and screw-retained implant-supported denture in edentulous patients [J]. Journal of Prevention and Treatment for Stomatological Diseases, 2020, 28(7): 438-442.
[3]	SHI Bin,YAN Qi,WU Xinyu. Clinical application and complications of short implants (≤6 mm) [J]. Journal of Prevention and Treatment for Stomatological Diseases, 2020, 28(3): 137-145.
[4]	WANG Ping,ZHANG Yingjuan. Material properties and clinical application status of Biodentine [J]. Journal of Prevention and Treatment for Stomatological Diseases, 2019, 27(11): 745-748.
[5]	Wen-miao LI, Zheng-gen PIAO. Progress in the study of calcium hydroxide in different vehicles [J]. Journal of Prevention and Treatment for Stomatological Diseases, 2017, 25(3): 192-195.