Development of alloplastic materials for temporomandibular joint prosthesis

Abstract

Abstract: [Summary] Temporomandibular joint (TMJ) replacements have been rapidly developed for nearly 50 years. Development of alloplastic materials has largely promoted and led the development of temporomandibular joint prosthesis. Historically developing materials for TMJ prosthesis included gold foil, stainless steel, cobalt-chromium alloy, titanium alloy, polythene, ultra-high molecular weight polythene and, etc. This article aimed to review the improvement of alloplastic materials and analyze their advantages and disadvantages.

Key words: Temporomandibular joint prosthesis, Temporomandibular joint replacement, Material

CLC Number:

R782.6

WANG Ye-xin, ZHANG Shan-yong, ZHENG Ji-si. Development of alloplastic materials for temporomandibular joint prosthesis[J]. China Journal of Oral and Maxillofacial Surgery, 2016, 14(6): 567-571.

References

[1] Carnochan JM. Mobilizing a patient's ankylosed jaw by placing a block of wood between the raw bony surfaces after resection [J]. Arch de Med, 1860: 284-286.
[2] Risdon RO. Ankylosis of the temporomandibular joint[J]. J Am Dent Assoc, 1934, 21(11): 1933-1937.
[3] Eggers GW. Arthroplasty of the temporomandibular joint in children with interposition of tantalum foil[J].J Bone Joint Surg Am,1946,28: 603-606.
[4] Mercuri LG. The Christensen prosthesis[J]. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 1996, 81(2): 134-135.
[5] Sonnenburg M, Sonnenburg I. Development and clinical application of the total temporomandibular joint (T.M.J.) endoprosthesis [J]. Rev Stomatol Chir Maxillofac, 1990, 91(2): 165-169.
[6] Mercuri LG, Wolford LM, Sanders B, et al. Long-term follow-up of the CAD/CAM patient fitted total temporomandibular joint reconstruction system[J].J Oral Maxillofac Surg, 2002, 60(12): 1440-1448.
[7] Ginanakopoulos HE, Sinn DP, Quinn PD. Biomet microfixation temporomandibular joint replacement system: a 3-year follow-up study of patients treated during 1995-2005 [J]. J Oral Maxillofac Surg, 2012, 70(4): 787-794.
[8] Sinno H, Tahiri Y, Gilardino M, et al. Engineering alloplastic temporomandibular joint replacements [J]. Mcgill J Med, 2011, 13(1): 63.
[9] Robinson M. Temporomandibular joint ankylosis corrected by creating a false stainless steel fossa [J]. J South Calif State Dent Assoc, 1960, 28: 186-189.
[10] 王安东, 戴起勋. 生物医用材料316L不锈钢的磨损腐蚀特性研究 [J]. 金属热处理, 2005, 30(3): 33-36.
[11] 刘石磊, 唐刚, 王冬梅, 等. 医用316L不锈钢接骨板固定股骨的有限元方法分析 [J]. 北京生物医学, 2012, 13(5): 445-449.
[12] Luckey HA, Lamprecht EG, Walt MJ. Bone apposition to plasma-sprayed cobalt-chromium alloy [J]. J Biomed Mater Res, 1992, 26(5): 557-575.
[13] Heisel C, Thomsen M, Jakubowitz E, et al. Particle release in metal-on-metal bearings. A risk analysis [J]. Orthopade, 2008, 37(7): 644-649.
[14] Bobyn JD, Glassman AH, Goto H, et al. The effect of stem stiffness on femoral bone resorption after canine porous-coated total hip arthroplasty[J]. Clin Orthop Relat Res, 1990, (261): 196-213.
[15] 于乾乾, 梁成浩, 黄乃宝, 等. Ti-6Al-4V合金氮离子注入后在Tyrode's体液中的耐蚀耐磨性能[J]. 材料保护, 2014, 47(6): 66-68.
[16] Papageorgiou I, Brown C, Schins R, et al. The effect of nano- and micron-sized particles of cobalt-chromium alloy on human fibroblasts in vitro [J]. Biomaterials, 2007, 28(19): 2946-2958.
[17] 毛远青, 朱振安, 夏胜利, 等. 钛-6铝-4钒颗粒对破骨细胞形态和功能的影响 [J]. 中华创伤杂志, 2006, 22(6): 434-437.
[18] Bully RL. Titanium wear debris in failed cemented total hip arthroplasty.An analysis of 71 cases [J]. J Arthroplasty, 1992, 7(3): 315-323.
[19] Jandhyala BS, Hom GJ. Minireview: Physiological and pharmacological properties of vanadium [J]. Life Sci, 1983, 33(14): 1325-1340.
[20] 张庆福, 刘刚, 刘国勤. 个体化3D打印钛合金下颌骨植入体的设计制作与临床应用 [J]. 口腔医学研究, 2015, 31(1): 48-51.
[21] 叶堃, 王金武, 胡志刚, 等. 3D打印钛合金个性化骨盆假体生物力学的初步有限元分析 [J]. 中华创伤骨科杂志, 2015, 17(1): 18-22.
[22] Lee TM, Yang CY, Chan E, et a1. Comparison of plasma-sprayed hydroxyapatite coatings and zirconia-reinforced hydmxyapatite composite coatings: in vivo study [J]. J Biomed Mater Res A, 2004, 7l(4): 652-660.
[23] 郑玉琼. 多孔钛涂层的体外生物活性研究 [J]. 世界最新医学信息文摘(连续型电子期刊), 2014, 14(29): 280.
[24] de Peppo GM, Palmquist A, Borchardt P, et al. Free-form-fabricated commercially pure Ti and Ti6Al4V porous scaffolds support the growth of human embryonic stem cell-derived mesodermal progenitors[J]. Sci World J, 2012, 2012(2): 211-212.
[25] Gastaldi G, Asti A, Scaffino MF, et al. Human adipose-derived stem cells (hASCs) proliferate and differentiate in osteoblast-like cells on trabecular titanium scaffolds [J]. J Biomed Mater Res A, 2010, 94(3): 790-799.
[26] 程文俊, 勘武生, 郑琼, 等. 3D打印钛合金骨小梁金属臼杯全髋关节置换术的短期疗效[J]. 中华骨科杂志, 2014, 34(8): 816-823.
[27] Ikeda T, Takahashi K, Kabata T, et al. Polyneuropathy caused by cobalt-chromium metallosis after total hip replacement [J]. Muscle Nerve, 2010, 42(1):140-143.
[28] 刘瑶, 万怡灶, 黄远, 等. 碳离子注入纯钛表面改性的研究 [J]. 热加工工艺,2007, 36(12): 11-14.
[29] Kent JN, Homcy CA, Gross BD, et al. Pilot studies of a porous implant in dentistry and oral surgery [J]. J Oral Surg, 1972, 30(8): 608-615.
[30] Kent JN. An important lesson about biomaterials in the TMJ [J]. J Oral Maxillofac Surg, 1991, 49(4): 442-443.
[31] Speculand B, Hensher R, Powell D. Total prosthetic replacement of the TMJ: experience with two systems 1988-1997 [J]. Br J Oral Maxillofac Surg, 2000, 38(4): 360-369.
[32] 朱金国, 夏建龙. 人工关节材料的研究进展与骨科临床应用 [J].中国组织工程研究与临床康复, 2008, 12(19): 3697-3700.
[33] 徐玲, 黄妍斐, 徐家壮, 等. 超高分子量聚乙烯人工关节研究进展 [J].中国材料进展, 2014, 33(4): 244-253.
[34] McKellop H, Shen FW, Lu B, et al. Development of an extremely wear-resistant ultra high molecular weight polyethylene for total hip replacements [J].J Orthop Res, 1999, 17(2): 157-167.
[35] Van Loon JP, de Bont LG, Stegenga B, et al. Groningen temporomandibular joint prosthesis. Development and first clinical application [J]. Int J Oral Maxillofac Surg, 2002, 31(1): 44-52.
[36] 王慧明, 林军, 王模堂, 等. 生物活性玻璃陶瓷人工髁突置换对颞下颌关节盘及关节结节影响的实验研究[J]. 中国口腔种植学杂志, 2000, 5(3): 113-116.
[37] 祝云利, 吴海山. 陶瓷材料在人工关节置换术中的应用现状 [J]. 国际骨科学杂志, 2009, 30(2): 70-73.
[38] 曹明君, 丁传贤. 等离子喷涂陶瓷人工骨与关节及其临床应用 [J]. 中国生物医学工程学报, 1991, 10(2): 99-106.
[39] Garg T, Singh O, Arora S, et al. Scaffold: a novel carrier for cell and drug delivery[J]. Crit Rev Ther Drug Carrier Syst, 2012, 29(1): 1-63.
[40] Zanakis NS, Gavakos K, Faippea M, et al. Application of custom-made TMJ prosthesis in hemifacial microsomia[J]. Int J Oral Maxillofac Surg, 2009, 38(9): 988-992.