Amputee gait produces periodic occlusion of residual limb blood vessels. During the stance phase of gait, body weight cause the prosthesis to compresses the soft tissue of the residual limb and occlude blood flow. This occlusion can be relieved during swing phase, but may depend on type of prosthesis. The purpose of the proposed research is to: (1) discover the range of tissue oxygenation in the intact and residual lower limbs of dysvascular amputees during gait and (2) to learn which of five different prosthetic limb systems provides greater tissue oxygenation.
The amount of oxygen in residual limb tissue is an important health status indicator; resistance to infection, promotion of wound healing, production of collagen, and epithelialization all correlate with higher oxygen levels. Unfortunately, simply donning a lower limb prosthesis may limit circulation and reduce the level of tissue oxygenation. This reduction may be compounded by the biomechanical forces of gait. The compressive loads of the body's weight during stance and the inertial loads of the prosthesis during swing may further occlude circulation, albeit by different mechanisms. For the dysvascular lower limb amputee, the choice of prosthetic socket and suspension system may impact the overall health of their residual limb and wound healing capacity. An inappropriate choice may lead to skin irritation, tissue breakdown, discomfort, and reduced mobility. For these patients, any component that reduces tissue oxygenation is a significant problem because compromised circulation can forestall wound healing. The objective of the proposed research is to use photo-oximetry to discover which of five different prosthetic limb systems results in higher residual limb tissue oxygenation during both rest and gait. This experiment will enable evidence-based decision making on this clinically relevant problem. Using a prospective, randomized cross-over experimental design and the investigators' photo-oximetry system, the investigators will measure and compare the tissue oxygenation along the medial and lateral surfaces (3 sites each) of the residual limb during rest and walking.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
7
Prosthetic socket worn by the amputee that has a Pe-lite foam liner between the socket and the residual limb. It is suspended from the residual limb using a sleeve at the top of the socket.
Prosthetic socket worn by the amputee where the fit of the socket touches every part of the residual limb. This socket is suspended from the residual limb using a sleeve at the top of the socket.
Prosthetic socket worn by the amputee where the fit of the socket touches every part of the residual limb. This socket is suspended from the residual limb using a pin that protrudes from the bottom of the liner into the socket that is then locked in place by the amputee.
Prosthetic socket worn by the amputee where the fit of the socket touches every part of the residual limb. This socket using vacuum suction plus a sleeve at the top of the prosthetic socket to enhance the security of the suspension.
Prosthetic socket worn by the amputee where the a vacuum pump, in this case a mechanically-activated pump, creates a vacuum between the socket and the limb. This vacuum suspends the prosthetic limb from the amputee's residual limb.
VA Puget Sound Health Care System Seattle Division, Seattle, WA
Seattle, Washington, United States
Oxygen in tissue
Tissue oxygen saturation (StO2)
Time frame: Comparison of five different systems will be performed in one session occurring on one day
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