Three-dimensional printing in prosthetics: Method for managing rapid limb volume change
Autor: | Alana Cataldo, Barry Hand, Andrew H. Hansen, Kyle Barrons, Eric Nickel |
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Rok vydání: | 2020 |
Předmět: |
030506 rehabilitation
Artificial Limbs Pilot Projects Walk Test Prosthesis Design Health Professions (miscellaneous) 03 medical and health sciences 0302 clinical medicine Amputees Prosthesis Fitting Medicine Humans skin and connective tissue diseases Lower limb prosthesis business.industry Rehabilitation Amputation Stumps food and beverages body regions Three dimensional printing Printing Three-Dimensional Limb volume sense organs 0305 other medical science business 030217 neurology & neurosurgery Residual limb Biomedical engineering Volume (compression) |
Zdroj: | Prosthetics and orthotics international. 44(5) |
ISSN: | 1746-1553 |
Popis: | During post-amputation recovery or rapid body mass change, residual limb volume can change quickly, requiring frequent adjustments or replacement of the socket to maintain fit. The aim of this pilot test was to evaluate the feasibility of using a three-dimensional-printed insert to extend the service life of a prosthetic socket after substantial residual limb volume loss.One research subject with a well-fitting transtibial prosthetic socket had an oversized socket fabricated to simulate substantial limb volume loss. The digital shapes of the oversized and well-fitting sockets were used to create a three-dimensional-printed insert to restore fit.Two-minute walk test distance decreased when using the oversized socket without the insert, but not when using the socket with the insert. Socket comfort score was 8+ under all conditions. These results suggest that three-dimensional-printed inserts may be an effective method of extending the service life of prosthetic sockets when rapid limb volume loss occurs.Three-dimensional (3D) printing gives prosthetists a new tool to manage large volume changes without refabricating entire sockets. Sockets can be fabricated in anticipation of volume gain/loss, using replaceable 3D-printed inserts to maintain fit and comfort. |
Databáze: | OpenAIRE |
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