4.1 Article

Toward improving residual limb climate within prostheses for persons with lower limb loss: a technical note

Journal

PROSTHETICS AND ORTHOTICS INTERNATIONAL
Volume 46, Issue 2, Pages 202-205

Publisher

WOLTERS KLUWER HEALTH
DOI: 10.1097/PXR.0000000000000085

Keywords

prosthetic socket; passively ventilated socket; residual limb health; transtibial amputation

Funding

  1. Congressionally Directed Medical Research Programs (CDMRP)
  2. Idea Development Award [W81XWH-14-2-0197]

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This study aims to improve the comfort and residual limb health of individuals with lower limb loss by implementing a passively ventilated liner-socket system. Through focus group meetings and an iterative design approach, a passively ventilated liner-socket system has been developed. The ex vivo design supports the feasibility of this system, but further development and human subject testing are required.
Background: Individuals with lower limb loss often wear a gel liner and enclosed socket for connecting to a terminal prosthetic device. Historically, a significant limitation to traditional liners and sockets is that they are thermal insulators, thereby trapping heat and moisture within, which can lead to numerous deleterious issues, including loss of suspension and residual limb skin problems, and, in turn, reductions in mobility, function, and overall quality of life. To mitigate these issues, new approaches are therefore needed to enhance the residual limb climate (e.g. breathability and air permeability), allowing the dispersal of heat and moisture from within the liner and socket. Methods: In this study, a multidisciplinary team sought to establish the feasibility of an innovative prosthetic liner-socket system, designed to improve residual limb climate by capitalizing on passive (i.e. nonpowered) ventilation to reduce temperature/moisture and improve socket comfort for persons with transtibial amputations. Focus group meetings, along with an iterative design approach, were implemented to establish innovative design and development concepts that led to a passively ventilated liner-socket system. Conclusions: Ex vivo design has supported the feasibility of developing a passively ventilated liner-socket. To build on these successes, future development and human subjects testing are needed to finalize a commercially viable system. Implementing a passively ventilated liner-socket system that improves residual limb health and comfort, without compromising function or mobility of the user, into standard clinical care may encourage a more active lifestyle and enhance the quality of life for individuals after lower limb loss.

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