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As per available reports on Orthopedic Biomechanics there are 2 National Symposiums, 175 Conference Proceeding , 5 Journals , 1 Conference and 48 articles are being published exclusively on Orthopedic Biomechanic.
In the Orthopaedic Biomechanics research group, the disciplines of engineering and biology are combined to expand our understanding of the biomechanical function of musculoskeletal tissues as well as their adaptive developmental and physiological nature. Orthopedic Biomechanics Entities like Nano-Mechanical Implant Design , Biomedical Engineering , Biomechanical Materials and Implant Designs , Implant/Transplant Surgeries , Applied Fields of Biomechanics . This knowledge is then applied to explore and develop regenerative treatment strategies, currently applied to three musculoskeletal tissues, i.e. bone, articular cartilage, and the intervertebral disc.
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Scope and Importance:
Arthroplasty is an orthopedic surgery where the articular surface of a musculoskeletal joint is replaced, remodeled, or realigned byosteotomy or some other procedure. It is an elective procedure that is done to relieve pain and restore function to the joint after damage by arthritis or some other type of trauma. As well as the standard total knee replacement surgery, the uni-compartmental knee replacement, in which only one weight-bearing surface of an arthritic knee is replaced, is a popular alternative.
Joint replacements are available for other joints on a limited basis, most notably the knee, shoulder, elbow, wrist, ankle, spine, and finger joints.
In recent years, surface replacement of joints, in particular the hip joint, have become more popular amongst younger and more active patients. This type of operation delays the need for the more traditional and less bone-conserving total hip replacement, but carries significant risks of early failure from fracture and bone death.
One of the main problems with joint replacements is wear of the bearing surfaces of components. This can lead to damage to surrounding bone and contribute to eventual failure of the implant. Use of alternative bearing surfaces has increased in recent years, particularly in younger patients, in an attempt to improve the wear characteristics of joint replacement components. These include ceramics and all-metal implants (as opposed to the original metal-on-plastic). The plastic (actually ultra high-molecular-weight polyethylene) can also be altered in ways that may improve wear characteristics.
Musculoskeletal tissues are produced, maintained and adapted by cells as a response to their biophysical environment in health and disease. Of the latter, degenerative diseases have become more prevalent with an increasing socioeconomic impact in our ever aging population. With increased longevity and a higher level of activity, current treatment methods with purely synthetic devices may be limited.
The U.S. contributes about 60% of the global orthopedic devices market, whereas emerging economies such as India and China offer immense growth opportunities due to medical tourism and huge untapped patient population. Stryker (U.S.), DePuy (U.S.), Zimmer Inc (U.S.), Smith & Nephew (U.K.), Medtronic (U.S.), Synthes (U.S.), and Biomet (U.S.) are the key players in this market.
International symposium and workshops:
1. Orthopaedic Trauma Association Annual Meeting 2015 (OTA 2015),October 7- 10,2015, San Diego,California.
2. Spanish Society Of Orthopedics And Traumatology 52nd Congress 2015(SECOT 2015),September 23-25,2015,Valencia,Spain.
3. Pediatric Orthopedic Trauma Summit 2015,September 24-25,2015,Saint Paul,MN.
1.Transplantation Research Conference,
March 28-29, 2016 Atlanta, USA.
9.3rd Chronic Obstructive Pulmonary Disease Conference,
July 11-12,2016 Brisbane, Australia.
13.4th Surgery Conference,
October 05-07, 2015 Crowne Plaza, Dubai, UAE.
17.5th Nanotek Conference,
November 16-18, 2015 San Antonio, USA.Relevant Society and Associations:
1. Russian Society of Biomechanics.
2. Japanese Society of Biomechanics.
3. German Society of Biomechanics.
4. Bulgarian Society of Biomechanics.
5. Brazilian Society of Biomechanics.
6. Australian and New Zealand Society of Biomechanics.
7. ISB Technical Group on the 3-D Analysis of Human Movement.
8. International Shoulder Group.
9. Human Factor and Ergonomics Society.
10. BMEnet - Biomedical Engineering Society.
11. American College of Sports Medicine (ACSM) Biomechanics Interest Group.
12. International Sports Engineering Association.
13. Formosan Society of Biomechanics.
14. Canadian Society for Bio Mechanics.
15. American Society of Bio Mechanics.
16. International Society of Bio Mechanics in Sports.
17. European Society of Bio Mechanics.
18. Indian Society of Bio Mechanics.
19. The American Society of Bio Mechanics.
20. International Society of Bio Mechanics.
1. MP Biomedjcal LLC.
2. NeuroControl Corporation.
3. Noteworthy Medical Systems.
4. NovelMed Therapeutics.
5. Palantyr Research.
6. Orbital Research.
7. Prentke Romich.
8. ProScan Imaging.
9. Ricerca Biosciences, Ltd.
10. Ridgeway Biosystems, Inc.
13. Therapeutic Alliances, Inc
14. Tendon Technology, Ltd.
15. Entific Medical Systems.
16. Cleveland BioLabs.
17. Capital Prosthetics.
18. Auburn Pharmaceuticals, Inc.
19. Applied Biomolecular Technologies.
20. Exponenet Engineering and Scientific Consulting.
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This page was last updated on October 1, 2020