A review on: materials for biomedical implants
Abstract
The implant of biomaterial is a key factor for the long-term success of implants. The biological environment does not accept completely any material so to optimize biological performance; implants should be selected to reduce the negative biologic response while maintaining adequate function Synthetic materials for surgical implant devices have evolved from the early metallic systems to a variety of material combinations and composites. This article is an effort to review various biomaterials of implants that were used in the past and as well as the latest material used now. Further improvements in existing systems require a continuation of the multidisciplinary approach to the laboratory, experimental animal, and human clinical research.
Keywords:
Implant, biomaterial and Synthetic materials
Downloads
Download data is not yet available.
References
1. Misch CE. Contemporary implant dentistry. Implant Dentistry 1999; 8: 9
2. H. Rezaie, L. Bakhtiari, A. Ochsner, Biomaterials and their applications . 2015; 15– 19.
3. Uppugalla S, Srinivasan P. Polyaniline nanofibers and porous Ni [OH] 2 sheets coated carbon fabric for high performance super capacitor. Journal of Applied Polymer Science. 2019 Nov 5;136(41):48042.
4. S. L. Sing, J. An, W. Y. Yeong, F. E. Wiria, Laser and electron-beam powder-bed additive manufacturing of metallic implants: A review on processes, materials and designs, Journal of Orthopaedic Research. 2016 (3);369–385.
5. Shiv Chandra Singh, A., Yu, A., Chang, B., Li, H., Rosenzweig, A. and Roh, J.D., 2021. Exercise Training Attenuates Activin Type II Receptor Signaling in the Aged Heart. Circulation, 144(Suppl_1), pp.A14259-A14259.
6. G. Voggenreiter, S. Leiting, H. Brauer, P. Leiting, M. Majetschak, M. Bardenheuer, U. Obertacke, Immunoinflammatory tissue reaction to stainless-steel and titanium plates used for internal fixation of long bones, Biomaterials 2003;24 (2);247–254.
7. J. Alvardo, R. Maldonado, J. Jorge Marxuach, R. Otero, Biomechanics of hip and knee prostheses applications of engineering mechanics in medicine, GED–University of Puerto Rico Mayaguez. Pp1-20.
8. Boini, K.M., singh, A. and Koka, S.S., 2021. Gut Microbial Metabolite Trimethylamine N-oxide Enhances Endoplasmic Reticular Stress and Promotes Endothelial Dysfunction. Circulation, 144(Suppl_1), pp.A14071-A14071.
9. BC Muddugangadhar, GS Amarnath, Siddhi Tripathi, Suchismita Dikshit, Divya MS; Biomaterials for Dental Implants: An Overview;International Journal of Oral Implantology and Clinical Research;January- April 2011:2(1):13-24
10. Parajuli D, Uppugalla S, Murali N, Ramakrishna A, Suryanarayana B, Samatha K. Synthesis and Characterization MXene-Ferrite Nanocomposites and its application for Dying and Shielding. Inorganic Chemistry Communications. 2022 Dec 16:110319.
11. Singh, A., Kumar, A. and Kalaiselvi, P., 2018. Aegeline, targets LOX1, the receptor for oxidized LDL to mitigate hypercholesterolemia: a new perspective in its anti-atherosclerotic action. Free Radical Biology and Medicine, 128, p.S41.
12. Botsa SM, Seetharam P, Raju IM, Suresh P, Satyanarayana G, Sambasivam S, Susmitha U, Tejeswararao D. Nanohybrid material of Co–TiO2 and optical performance on methylene blue dye under visible light illumination. Hybrid Advances. 2022 Dec 8:100008.
13. Roh, J., Hill, J.A., Singh, A.,Valero-Muñoz, M. and Sam, F., 2022. Heart failure with preserved ejection fraction: heterogeneous syndrome, diverse preclinical models. Circulation Research, 130(12), pp.1906-1925.
14. Zhitomirsky, A. Hashambhoy, Chitosan- mediated electrosynthesis of organic–inorganic nanocomposites, Journal of Materials Processing Technology 191 (1-3) (2007) 68–72.
15. S. Clavijo, F. Membrives, G. Quiroga, A. R. Boccaccini, M. J. Santill´an, Electrophoretic deposition of chitosan/bioglass® and chitosan/bioglass®/tio2 composite coatings for bioimplants, Ceramics International 42 (12) (2016) 14206–14213.
16. Fukui, A. Kaneuji, T. Sugimori, T. Ichiseki, K. Kitamura, T. Matsumoto, Wear comparison between a highly cross-linked polyethylene and conventional polyethylene against a zirconia femoral head: minimum 5-year follow- up, The Journal of arthroplasty 26 (1) (2011) 45– 49.
2. H. Rezaie, L. Bakhtiari, A. Ochsner, Biomaterials and their applications . 2015; 15– 19.
3. Uppugalla S, Srinivasan P. Polyaniline nanofibers and porous Ni [OH] 2 sheets coated carbon fabric for high performance super capacitor. Journal of Applied Polymer Science. 2019 Nov 5;136(41):48042.
4. S. L. Sing, J. An, W. Y. Yeong, F. E. Wiria, Laser and electron-beam powder-bed additive manufacturing of metallic implants: A review on processes, materials and designs, Journal of Orthopaedic Research. 2016 (3);369–385.
5. Shiv Chandra Singh, A., Yu, A., Chang, B., Li, H., Rosenzweig, A. and Roh, J.D., 2021. Exercise Training Attenuates Activin Type II Receptor Signaling in the Aged Heart. Circulation, 144(Suppl_1), pp.A14259-A14259.
6. G. Voggenreiter, S. Leiting, H. Brauer, P. Leiting, M. Majetschak, M. Bardenheuer, U. Obertacke, Immunoinflammatory tissue reaction to stainless-steel and titanium plates used for internal fixation of long bones, Biomaterials 2003;24 (2);247–254.
7. J. Alvardo, R. Maldonado, J. Jorge Marxuach, R. Otero, Biomechanics of hip and knee prostheses applications of engineering mechanics in medicine, GED–University of Puerto Rico Mayaguez. Pp1-20.
8. Boini, K.M., singh, A. and Koka, S.S., 2021. Gut Microbial Metabolite Trimethylamine N-oxide Enhances Endoplasmic Reticular Stress and Promotes Endothelial Dysfunction. Circulation, 144(Suppl_1), pp.A14071-A14071.
9. BC Muddugangadhar, GS Amarnath, Siddhi Tripathi, Suchismita Dikshit, Divya MS; Biomaterials for Dental Implants: An Overview;International Journal of Oral Implantology and Clinical Research;January- April 2011:2(1):13-24
10. Parajuli D, Uppugalla S, Murali N, Ramakrishna A, Suryanarayana B, Samatha K. Synthesis and Characterization MXene-Ferrite Nanocomposites and its application for Dying and Shielding. Inorganic Chemistry Communications. 2022 Dec 16:110319.
11. Singh, A., Kumar, A. and Kalaiselvi, P., 2018. Aegeline, targets LOX1, the receptor for oxidized LDL to mitigate hypercholesterolemia: a new perspective in its anti-atherosclerotic action. Free Radical Biology and Medicine, 128, p.S41.
12. Botsa SM, Seetharam P, Raju IM, Suresh P, Satyanarayana G, Sambasivam S, Susmitha U, Tejeswararao D. Nanohybrid material of Co–TiO2 and optical performance on methylene blue dye under visible light illumination. Hybrid Advances. 2022 Dec 8:100008.
13. Roh, J., Hill, J.A., Singh, A.,Valero-Muñoz, M. and Sam, F., 2022. Heart failure with preserved ejection fraction: heterogeneous syndrome, diverse preclinical models. Circulation Research, 130(12), pp.1906-1925.
14. Zhitomirsky, A. Hashambhoy, Chitosan- mediated electrosynthesis of organic–inorganic nanocomposites, Journal of Materials Processing Technology 191 (1-3) (2007) 68–72.
15. S. Clavijo, F. Membrives, G. Quiroga, A. R. Boccaccini, M. J. Santill´an, Electrophoretic deposition of chitosan/bioglass® and chitosan/bioglass®/tio2 composite coatings for bioimplants, Ceramics International 42 (12) (2016) 14206–14213.
16. Fukui, A. Kaneuji, T. Sugimori, T. Ichiseki, K. Kitamura, T. Matsumoto, Wear comparison between a highly cross-linked polyethylene and conventional polyethylene against a zirconia femoral head: minimum 5-year follow- up, The Journal of arthroplasty 26 (1) (2011) 45– 49.
Published
31/12/2022
Statistics
102 Views | 77 Downloads
Citatons
How to Cite
G, D., G. M, N. I, T. J, K. D, and S. K. K. “A Review On: Materials for Biomedical Implants”. International Journal of Health Care and Biological Sciences, Vol. 3, no. 4, Dec. 2022, pp. 94-98, doi:10.46795/ijhcbs.v3i4.401.
Issue
Section
Review Articles
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
.