Sistema FMUSP-HC: Faculdade de Medicina da Universidade de São Paulo (FMUSP) e Hospital das Clínicas da FMUSPHELITO, Camilo PartezaniBONADIO, Marcelo BatistaROZAS, Joao StefanWEY, Joao Marcelo PedrosoPEREIRA, Cesar Augusto MartinsCARDOSO, Tulio PereiraPECORA, Jose RicardoCAMANHO, Gilberto LuisDEMANGE, Marco Kawamura2016-07-182016-07-182016BMC MUSCULOSKELETAL DISORDERS, v.17, article ID 193, 7p, 20161471-2474https://observatorio.fm.usp.br/handle/OPI/14328Background: Recent studies clearly characterize the anatomical parameters of the knee anterolateral ligament (ALL). The potential clinical importance of this ligament is exemplified by some patients with possible combined Anterior Cruciate Ligament (ACL) and ALL rupture who do not progress satisfactorily following isolated ACL reconstruction. Previous biomechanical studies have assessed the resistance parameters of the ALL in order to address potential reconstruction strategies; however, these have reported conflicting results. Thus, this study aimed to evaluate the linear resistance of the ALL by means of a biomechanical study in cadaveric knees. Methods: Fourteen cadaveric knees were used. The ALL was dissected, and all structures that connect the femur and the tibia, except for the ALL, were sectioned. The ALL was subjected to a tensile test with the knee around 30 to 40 degrees, in a way that the ALL was aligned with the machine. The strength at the maximum resistance limit, deformation and stiffness of the ALL were evaluated. Results: The mean maximum strength of the ALL was 204.8 +/- 114.9 N. The stiffness was 41.9 +/- 25.7 N/mm and the deformation 10.3 + /- 3.5 mm. Conclusion: The ALL has a mean ultimate tensile strength of 204.8 N. This suggests that simple bands of all autologous or homologous grafts commonly used in clinical practice for ligament reconstruction around the knee possess the required biomechanical resistance characteristics for ALL reconstruction.engopenAccessKneeAnterolateral ligamentBiomechanicsAnatomyanterior cruciate ligamentfollow-upextraarticular tenodesisstructural-propertiescollateral ligamentacl reconstructionsegond fracturebiceps femoristendonanatomyarticleCopyright BIOMED CENTRAL LTD10.1186/s12891-016-1052-5OrthopedicsRheumatology