Author
Listed:
- Albert Manero
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- Peter Smith
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- John Sparkman
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- Matt Dombrowski
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- Dominique Courbin
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- Anna Kester
(Limbitless Solutions, University of Central Florida, 4217 E Plaza Drive, Orlando, FL 32816, USA)
- Isaac Womack
(Division of Trauma, Critical Care & Acute Care Surgery Department of Surgery, Oregon Health and Science University, 3181 SW Sam Jackson Park Rd, Portland, OR 97239, USA)
- Albert Chi
(Division of Trauma, Critical Care & Acute Care Surgery Department of Surgery, Oregon Health and Science University, 3181 SW Sam Jackson Park Rd, Portland, OR 97239, USA)
Abstract
There is an interesting and long history of prostheses designed for those with upper-limb difference, and yet issues still persist that have not yet been solved. Prosthesis needs for children are particularly complex, due in part to their growth rates. Access to a device can have a significant impact on a child’s psychosocial development. Often, devices supporting both cosmetic form and user function are not accessible to children due to high costs, insurance policies, medical availability, and their perceived durability and complexity of control. These challenges have encouraged a grassroots effort globally to offer a viable solution for the millions of people living with limb difference around the world. The innovative application of 3D printing for customizable and user-specific hardware has led to open-source Do It Yourself “DIY” production of assistive devices, having an incredible impact globally for families with little recourse. This paper examines new research and development of prostheses by the maker community and nonprofit organizations, as well as a novel case study exploring the development of technology and the training methods available. These design efforts are discussed further in the context of the medical regulatory framework in the United States and highlight new associated clinical studies designed to measure the quality of life impact of such devices.
Suggested Citation
Albert Manero & Peter Smith & John Sparkman & Matt Dombrowski & Dominique Courbin & Anna Kester & Isaac Womack & Albert Chi, 2019.
"Implementation of 3D Printing Technology in the Field of Prosthetics: Past, Present, and Future,"
IJERPH, MDPI, vol. 16(9), pages 1-15, May.
Handle:
RePEc:gam:jijerp:v:16:y:2019:i:9:p:1641-:d:230189
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Citations
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Cited by:
- Albert Manero & Peter Smith & Amanda Koontz & Matt Dombrowski & John Sparkman & Dominique Courbin & Albert Chi, 2020.
"Leveraging 3D Printing Capacity in Times of Crisis: Recommendations for COVID-19 Distributed Manufacturing for Medical Equipment Rapid Response,"
IJERPH, MDPI, vol. 17(13), pages 1-17, June.
- Joost van Hoof & Deirdre M. Beneken genaamd Kolmer & Erwin de Vlugt & Sanne I. de Vries, 2019.
"Quality of Life: The Interplay between Human Behaviour, Technology and the Environment,"
IJERPH, MDPI, vol. 16(24), pages 1-7, December.
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