Ligament replacement

The foreign body response to carbon fibers is not chronic unless they fragment. One major problem has been the accumulation of wear debris near the acetabular components [129]. However, when used as ligament replacements, carbon fibers appear to induce a type of fibrosis in which collagen fibers align with the fibers. This suggests that carbon fibers can be used as a template for the formation of fibrous tissue [130] and indeed tendon fibroblast cells have been grown on a... 

Medical Low surface energy Stability Excellent mechanical properties Chemical resistance Cardiovascular grafts, heart patches, and ligament replacement... 

Carbon materials find widespread medical applications (Haubold et al. 1986) as ligament replacements (Amis etal. 1988 ... 

Amis AA, Kempson AS, Campbell JR and Millee JH (1988) Anterior cruciate ligament replacement Biocompatibility and biomechanics of polyester and carbon fiber in rabbits. J Bone Joint Surg Br 70 628. 

J.A. Cooper, H.H. Lu, E.K. Ko, J.W. Freeman, C.T. Laurendn, Fiber-based tissue-engineered scaffold for ligament replacement design considerations and in vitro evaluation. Biomaterials 26 (13)... 

Polyurethanes Ligament replacements, heart valve prostheses, vascular graft prostheses, breast prosthesis, catheter, cannulae films, tubing... 

The state of the art in ligament replacement remains the application of allografts. The use of artificial materials in this application is in its relative adolescence compared with fracture fixation and total-joint replacement While artificial structures for total-ligament replacement or graft augmentation have not been fully optimized to date, they have proven to be effective in secondary repair situations—where a primary gi has failed—or cases of chronic instability. Future developments in materials, particularly composites, may produce a structure that can meet the mechanical and fixation requirements for ligament replacement with improved clinical outcomes. 

Paulos, L.E., France, E.P., Rosenberg, T.D., et al (1987) Comparative material properties of allograft tissues for ligament replacement effects of type, age, sterilization and preservation. Transactions of the Orthopaedic Research Society, 12, 129. 

Coof)er JA, Sahota JS, Gorum II WJ, Carter J, Doty SB and Laurencin CT. Biomimetic tissue-engineered anterior crudate ligament replacement. PNAS. 2007 104 3049-3054. 

Cooper JA, Lu HH, Ko FK and Laurencin CT. Fiber-Based Tissue Engineered Scaffold for Ligament Replacement Design Considerations and In Vitro Evaluation. Mt. Laurel, NJ Society for Biomaterials. 2000.208. 

Amis A, Dawkins G (1991) Fimctional anatomy of the anleriOT cruciate ligament. Fibre bundle actirats related to ligament replacements and injuries. J Brate Joint Sing Br 73(2) 260-267... 

Howell SM, Wallace MP, Hull ML, Deutsch ML (1999) Evaluation of the single-incision arthroscopic technique for anterior cruciate ligament replacement a study of tibial tunnel placement, intraoperative graft tension, and stability. Am J Sports Med 27(3) 284—293... 

Bylski-Anstrow DI, Grood ES, Hefzy MS, Holden P, Butler DL (1990) AnteriOT cruciate ligament replacements a mechanical study of femoral attachment location, flexion angle at tensioning, and initial tension. J Orthop Res 8(4) 522—531... 

Fahey M, Indelicato PA (1994) Bone tumiel enlargement after anterior cruciate ligament replacement. Am J Sports Med 22(3) 410-414... 

Amis AA, Dawkins GP (1991) Functional anatomy of the anterior cruciate ligament Fibre bundle actions related to ligament replacements and injuries. J Bone Joint Surg (Br) 73 260-267... 

Amoczky SP, Tarvin GB, Marshall JL (1982) Anterior cruciate ligament replacement using patellar tendon. An evaluation of graft revascularization in the dog. J Bone Joint Surg 64A 217-224... 

Cooper, J., Sahota, J., Gorum, W., Carter, J., Doty, S., Laurencin, C., 2007. Biomimetic tissue-engineered anterior cruciate ligament replacement PNAS 104, 3049—3054. 

Ma, J., Smietana, M., Kostrominova, T., Wojtys, E., Larkin, L., Arruda, E., 2012. Three-dimensional engineered bone—ligament—bone constructs for anterior cruciate ligament replacement. Tissue Eng. Part A 18, 103—116. 

Joint sockets for hip joint prostheses, artificial knee prostheses, finger joint implants, sewing material, tendon and ligament replacement, catheter hoses, surgical membranes... 

Artificial blood vessels, tendon and ligament replacement, sewing material... 

Medical Low Surface Energy Stability Excellent Mechanical Properties Chemical Resistance Cardiovascular Grafts, Heart Patches, and Ligament Replacement... 

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