Clinical Research Directory

Reliability and Validity of Continuous Inter-limb Stability

To date, there is no valid and reliable measure of continuous inter-limb stability available to healthcare teams treating people with lower limb loss. Determining these characteristics of this parameter for this population is important because superior stability has been linked to increased physical activity and strength in similar populations, making it a potential vital contributor to mobility improvement of Veterans with limb loss. It is also crucial that healthcare providers can easily measure continuous stability in the clinic instead of relying on expensive laboratory equipment. The overall goals of this study are to determine the reliability and validity of continuous inter-limb stability of Veterans with lower limb loss and determine if this parameter can be captured using accessible wearable technology. Consequently, clinicians can improve continuous stability through proper rehabilitation to positively impact the functional mobility and overall quality of life of Veterans with lower limb loss.

Quantifying Bone and Skin Movement in the Residual Limb of Individuals With Transtibial Amputation Using Dynamic Stereo X-Ray

Individuals with lower extremity amputation are often challenged by complications that arise from poor prosthetic fit, including movement of the residual limb in the socket, known as pistoning. Pistoning can lead to gait instability, skin problems, and pain. Different prosthetic suspension systems have been developed to decrease this motion, including elevated vacuum suspension, which utilizes a pump to draw air from the socket. However, scientific analyses to understand the movement between the limb and socket have yet to be performed with a high level of accuracy. This study will use a state-of-the art imaging technique, known as dynamic stereo x-ray, to quantify the 3D movement of the residual limb in the socket. It is hypothesized that dynamic stereo x-ray will be a sensitive method to measure differences in residual limb movement between 2 different socket suspension techniques: suction and elevated vacuum suspension. This information is critical for advancing prosthetic treatments to reduce secondary conditions and degenerative changes that result from poor prosthetic fit.