View clinical trials related to Transfemoral Amputees.
Filter by:With the initiation of prosthesis use following lower extremity amputations, the body shows biomechanical changes according to the amputation level, and as a result, it develops adaptation mechanisms on both the healthy and ampute sides. It has been reported that the most common secondary pathology caused by these mechanisms developed to compensate the amputated side is lower back pain and adaptation mechanisms vary according to the presence of pain. Adaptation strategies in transfemoral amputees cause permanent changes in the connective tissue structure properties of the toracolumbar region and reduce the contribution of these structures to dynamic stability. It has been reported that with the fascia correction technique, one of the kinesiological taping techniques, the connective tissue fiber alignment can be rearranged and the degree of stiffness can be reduced. Before the intervention, biomechanical properties of the toracolumbar region structures with MyotonPro and postural stability measurements with TekScan will be taken.
The overall goal of this research is to determine the efficacy of new powered prosthetic devices for individuals with transfemoral amputations. The anticipation is that this will be a high-impact technological intervention with the potential to restore significant functionality to individuals with lower limb amputation and transform the field of lower limb prosthetics. The objective of the proposed clinical trial is to fully evaluate the biomechanical and energetic effects of using PKA prosthesis and quantify functional performance and quality of life changes.
The purpose of our study is to improve the fit and function of prosthetic sockets for above the knee amputees through the use of an outpatient thigh reduction surgical procedure.
The investigators hypothesize that a new automatic prosthetic knee locking mechanism will improve gait characteristics during an induced controlled trip and reduce fear of falling.