Laura A Miller1,2, Thomas Pickerill2, Todd A Kuiken1,2. 1. Center for Bionic Medicine, Shirley Ryan AbilityLab, Chicago, IL, USA. 2. Department of Physical Medicine & Rehabilitation, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.
Abstract
BACKGROUND: Millions of people in low- and middle-income countries lack access to prosthetic care. A well-fitting, durable socket is important for prosthesis comfort and function, but conventional fabrication techniques require highly trained clinicians and specialized equipment. OBJECTIVES: To increase access to prosthetic care by developing a simple, low-cost socket fabrication method that does not require specialized equipment or electricity, and can be performed by persons with minimal prosthetic training. STUDY DESIGN: Socket fabrication methods and socket function were evaluated in a pilot feasibility study. TECHNIQUE: We describe a rapid method for fabricating a rigid foam socket directly over the residual limb, with a mass producible, strong, cosmetically appealing plastic outer shell. We fabricated sockets for four individuals with unilateral transradial amputations and evaluated socket function. RESULTS: An individual with no formal prosthetic training was able to fabricate sockets and assemble a functional, comfortable prosthesis system within 90 min. All necessary supplies can be provided in a kit for under US$100. DISCUSSION: Further work is required to determine durability, assess comfort, refine suspension methods, and to develop instructional materials. CONCLUSIONS: We developed a simplified, inexpensive method to fabricate sockets on the residual limb using expandable foam with an integrated cosmetic/structural covering (i.e. an exoskeletal system), for persons with transradial amputation. A transradial prosthesis socket can be fabricated in around 90 min. and all necessary materials, tools, and written instructions for fabrication and fitting can be provided in a kit. Specialized equipment and electricity are not required. Instructions for fabrication and fitting can be provided in multiple languages using online videos.
BACKGROUND: Millions of people in low- and middle-income countries lack access to prosthetic care. A well-fitting, durable socket is important for prosthesis comfort and function, but conventional fabrication techniques require highly trained clinicians and specialized equipment. OBJECTIVES: To increase access to prosthetic care by developing a simple, low-cost socket fabrication method that does not require specialized equipment or electricity, and can be performed by persons with minimal prosthetic training. STUDY DESIGN: Socket fabrication methods and socket function were evaluated in a pilot feasibility study. TECHNIQUE: We describe a rapid method for fabricating a rigid foam socket directly over the residual limb, with a mass producible, strong, cosmetically appealing plastic outer shell. We fabricated sockets for four individuals with unilateral transradial amputations and evaluated socket function. RESULTS: An individual with no formal prosthetic training was able to fabricate sockets and assemble a functional, comfortable prosthesis system within 90 min. All necessary supplies can be provided in a kit for under US$100. DISCUSSION: Further work is required to determine durability, assess comfort, refine suspension methods, and to develop instructional materials. CONCLUSIONS: We developed a simplified, inexpensive method to fabricate sockets on the residual limb using expandable foam with an integrated cosmetic/structural covering (i.e. an exoskeletal system), for persons with transradial amputation. A transradial prosthesis socket can be fabricated in around 90 min. and all necessary materials, tools, and written instructions for fabrication and fitting can be provided in a kit. Specialized equipment and electricity are not required. Instructions for fabrication and fitting can be provided in multiple languages using online videos.
Entities:
Keywords:
Prosthetics and orthotics in developing countries; fabrication techniques; prosthetic design; prosthetics; socket design
Authors: Kendall F Gretsch; Henry D Lather; Kranti V Peddada; Corey R Deeken; Lindley B Wall; Charles A Goldfarb Journal: Prosthet Orthot Int Date: 2015-05-01 Impact factor: 1.895