每年出版 4 期
ISSN 打印: 1050-6934
ISSN 在线: 1940-4379
Indexed in
Temporomandibular Joint Disorders: Artificial Joint Replacements and Future Research Needs
摘要
Temporomandibular disorders (TMD) affect a significant section of the American population. According to the National Institutes of Health (NIH), an estimated 3% to 5% of Americans suffer from temporomandibular disorders. Majority of TMDs can be treated by conservative methods, albeit surgical interventions are indicated for some pathological/clinical conditions (according to the American Association of Temporomandibular Joint Surgeons). A distinction can be made between the TMD and the TMJ disease/dysfunction. In the case of TMD, it most correctly relates to a neuromuscular type of problem in the general area of the Temporomandibular Joint (TMJ), but may not intrinsically be related to the TM joint itself. However, TMJ disease/dysfunction relates to a true joint type of pathology, which ultimately may lead to the use of either a partial or a total joint reconstruction. Degeneration of the meniscus and the actual bony portions of the joint is often seen in cases of true TMJ pathology. The use of custom made or predesigned partial and/or total artificial TMJ replacement remains one of the surgical alternatives for treating various TMJ diseases when other conservative treatments fail. The purpose of this article is to provide an overview of currently existing TMJ implants and to discuss relevant issues, including some of the challenges and current needs facing TMJ research. Additionally, this article describes some of the currently available TMJ surgical procedures, the use of autografts and alloplastic materials (with primary emphasis on TMJ implants) for TMJ reconstruction, and some suggestions for future research. Past incidents of clinical failures of TMJ implants have been attributed to several reasons. The important factors that are responsible for the past failures include lack of a sound scientific approach and inadequate basic research to study the underlying causes for pathologies and their remedies of the TMJ. All these previously mentioned concerns have prompted current biomedical researchers to address many overlooked issues in relation to studying temporomandibular disorders and TMJ implants. Future research should be aimed toward addressing TMJ problems with a multidisciplinary approach, emphasizing simultaneous involvement from clinical (i.e., dentists and physicians) and nonclinical personnel (i.e., oral biologists, bioengineers, biostatisticians, physiotherapists, and pain management specialists).
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Ruiz Valero Carlos Alberto, Duran-Rodriguez Gabriel, Solano-Parra Nicolás, Castro-Núñez Jaime, Immediate Total Temporomandibular Joint Replacement With TMJ Concepts Prosthesis as an Alternative for Ameloblastoma Cases, Journal of Oral and Maxillofacial Surgery, 72, 3, 2014. Crossref
-
Rossello Ricardo A., Kohn David H., Gap junction intercellular communication: A review of a potential platform to modulate craniofacial tissue engineering, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 88B, 2, 2009. Crossref
-
Deshmukh T.R., Kuthe A.M., Ingole D.S., Thakre S.B., Prediction of Femur Bone Geometry using Anthropometric Data of Indian Population: A Numerical Approach, Journal of Medical Sciences, 10, 1, 2009. Crossref
-
SCHELLER E. L., KREBSBACH P. H., KOHN D. H., Tissue engineering: state of the art in oral rehabilitation, Journal of Oral Rehabilitation, 36, 5, 2009. Crossref
-
Marolt Darja, Tissue Engineering Craniofacial Bone Products, in Stem Cell Biology and Tissue Engineering in Dental Sciences, 2015. Crossref
-
Kanatas A.N., Jenkins G.W., Smith A.B., Worrall S.F., Changes in pain and mouth opening at 1 year following temporomandibular joint replacement—a prospective study, British Journal of Oral and Maxillofacial Surgery, 49, 6, 2011. Crossref
-
Cisewski S.E., Zhang L., Kuo J., Wright G.J., Wu Y., Kern M.J., Yao H., The effects of oxygen level and glucose concentration on the metabolism of porcine TMJ disc cells, Osteoarthritis and Cartilage, 23, 10, 2015. Crossref
-
Kang Hong, Peng Ermei, Bao Guangjie, The Effects of Short Period Mechanical Loading on Type I Collagen and Aggrecan mRNA Expression of Goat TMJ Disc Fibrochondrocytes, 2012 International Conference on Biomedical Engineering and Biotechnology, 2012. Crossref
-
Driemel O., Braun S., Müller-Richter U.D.A., Behr M., Reichert T.E., Kunkel M., Reich R., Historical development of alloplastic temporomandibular joint replacement after 1945 and state of the art, International Journal of Oral and Maxillofacial Surgery, 38, 9, 2009. Crossref
-
Gonzalez-Perez L.M., Fakih-Gomez N., Gonzalez-Perez-Somarriba B., Centeno G., Montes-Carmona J.F., Two-year prospective study of outcomes following total temporomandibular joint replacement, International Journal of Oral and Maxillofacial Surgery, 45, 1, 2016. Crossref
-
Abramowicz S., Barbick M., Rose S.P., Dolwick M.F., Adaptability of stock TMJ prosthesis to joints that were previously treated with custom joint prosthesis, International Journal of Oral and Maxillofacial Surgery, 41, 4, 2012. Crossref
-
Chowdhury Amit Roy, Kashi Ajay, Saha Subrata, A comparison of stress distributions for different surgical procedures, screw dimensions and orientations for a Temporomandibular joint implant, Journal of Biomechanics, 44, 14, 2011. Crossref
-
Gonzalez-Perez Luis Miguel, Gonzalez-Perez-Somarriba Borja, Centeno Gabriel, Vallellano Carpóforo, Egea-Guerrero Juan Jose, Advanced Materials and Three-dimensional Computer-aided Surgical Workflow in Cranio-maxillofacial Reconstruction, in Advanced Engineering Materials and Modeling, 2016. Crossref
-
Landes C., Sader R., Kiefergelenkendoprothesen, Der MKG-Chirurg, 10, 3, 2017. Crossref
-
Kashi A., Chowdhury A. Roy, Saha S., Finite Element Analysis of a TMJ Implant, Journal of Dental Research, 89, 3, 2010. Crossref
-
Gonzalez-Perez-Somarriba B., Centeno G., Vallellano C., Gonzalez-Perez L. M., On the Analysis of the Contact Conditions in Temporomandibular Joint Prostheses, Advances in Materials Science and Engineering, 2018, 2018. Crossref
-
Deshmukh T. R., Kuthe A. M., Chaware S. M., Bagaria V., Ingole D. S., A novel rapid prototyping and finite element method-based development of the patient-specific temporomandibular joint implant, Computer Methods in Biomechanics and Biomedical Engineering, 15, 4, 2012. Crossref
-
Gonzalez-Perez L.M., Gonzalez-Perez-Somarriba B., Centeno G., Vallellano C., Montes-Carmona J.F., Torres-Carranza E., Ambrosiani-Fernandez J., Infante-Cossio P., Prospective study of five-year outcomes and postoperative complications after total temporomandibular joint replacement with two stock prosthetic systems, British Journal of Oral and Maxillofacial Surgery, 58, 1, 2020. Crossref
-
Liu Yaoyao, Zhao Weiwei, Liu Guoxu, Bu Tianzhao, Xia Yichun, Xu Shaohang, Zhang Chi, Zhang Hongyu, Self-powered artificial joint wear debris sensor based on triboelectric nanogenerator, Nano Energy, 85, 2021. Crossref
-
Guillier D., Moris V., See L.-A., Girodon M., Wajszczak B.-L., Zwetyenga N., Reconstruction faciale complexe sur mesure : un cas de remplacement total de l’articulation temporo-mandibulaire, de l’arcade zygomatique et du zygoma, Journal of Stomatology, Oral and Maxillofacial Surgery, 118, 1, 2017. Crossref
-
Deshmukh T.R., Kuthe A.M., Chaware S.M., Vaibhav B., Ingole D.S., Rapid prototyping assisted fabrication of the customised temporomandibular joint implant: a case report, Rapid Prototyping Journal, 17, 5, 2011. Crossref
-
Gupta Shikha, Oral and maxillofacial devices, in Mechanics of Biomaterials, 2011. Crossref