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A scoping review of digital fabrication techniques applied to prosthetics and orthotics: Part 2 of 2 - orthotics

A scoping review of digital fabrication techniques applied to prosthetics and orthotics: Part 2 of 2 - orthotics
A scoping review of digital fabrication techniques applied to prosthetics and orthotics: Part 2 of 2 - orthotics
Introduction: traditionally, orthosis manufacturing is time and labor-intensive. Digitalization of some of the fabrication process is already ubiquitous, yet extension across device types could reduce the burden of manual labor and advance automation to help unblock access to assistive technologies globally. It seems, however, that appropriately strong evidence is holding this back. This review looks to thoroughly examine the current state of evidence to make this clear.

Objectives: to identify gaps in the literature that create barriers to decision-making on either appropriate uptake by clinical teams or setting research directions, by identifying what forms of evidence the current research literature provides to the orthotics community.

Study design: scoping literature review.

Methods: a comprehensive search was completed in the following databases: AMED, MEDLINE, EMBASE, Global Health Archive, CINAHL Plus, Cochrane Library, Web of Science, ACM, IEEE, and Engineering Village, resulting in 3487 articles to be screened.

Results: after screening, 121 lower limb orthosis, 104 upper limb orthosis, and 30 spinal orthosis articles were included in this review. For some areas such as CAD/CAM-produced insoles and spinal orthoses, the evidence base is strong. For most additive manufacture
articles, long-term, larger-scale studies as well as research into training requirements are lacking.

Conclusion: the advantages of digital fabrication technology that could streamline orthotic device production in many cases are still blocked by a lack of strong formal evidence, ie large longitudinal studies with a range of evaluation measures. Increased collaboration between clinicians, patient/service users, academia, and industry could be a route to addressing these gaps and creating a better pathway to market for new technologies.
CAD/CAM, additive manufacture, digital fabrication, orthotics
0309-3646
Oldfrey, Ben M.
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Ramirez, Dafne Z. Morgado
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Holloway, Catherine
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Wassall, Matthew
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Nester, Christopher
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Dickinson, Alex
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Wong, Man S.
cef3fde8-15ce-4fe3-8271-128c84f71fe8
Danemayer, Jamie
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Kenney, Laurence
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Lemaire, Edward
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Ramstrand, Nerrolyn
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Gholizadeh, Hossein
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Diment, Laura E.
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Donovan-Hall, Margaret K.
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Miodownik, Mark
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Oldfrey, Ben M.
e37061dc-def8-43b5-adbf-6b463a76a2f7
Ramirez, Dafne Z. Morgado
d0bf74b6-c278-4eb4-bd67-a71d298359d6
Holloway, Catherine
e8cccb43-6f80-4df5-b369-e9f8c6e30dc4
Wassall, Matthew
081be32d-0267-463d-bba6-862906f047b1
Nester, Christopher
33a8ddce-a05d-4bb3-a4fc-c30538afeaef
Dickinson, Alex
10151972-c1b5-4f7d-bc12-6482b5870cad
Wong, Man S.
cef3fde8-15ce-4fe3-8271-128c84f71fe8
Danemayer, Jamie
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Kenney, Laurence
67e5d27a-3331-4eeb-85f2-1f85bb103252
Lemaire, Edward
1dd8b467-003c-45dc-9f8b-b83d5a45e9b9
Ramstrand, Nerrolyn
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Gholizadeh, Hossein
d870afb5-ba9d-4588-9b7b-b4550ae36aa2
Diment, Laura E.
ae7297b9-3a62-4e7c-a52d-49aba51b7608
Donovan-Hall, Margaret K.
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Miodownik, Mark
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Oldfrey, Ben M., Ramirez, Dafne Z. Morgado, Holloway, Catherine, Wassall, Matthew, Nester, Christopher, Dickinson, Alex, Wong, Man S., Danemayer, Jamie, Kenney, Laurence, Lemaire, Edward, Ramstrand, Nerrolyn, Gholizadeh, Hossein, Diment, Laura E., Donovan-Hall, Margaret K. and Miodownik, Mark (2024) A scoping review of digital fabrication techniques applied to prosthetics and orthotics: Part 2 of 2 - orthotics. Prosthetics and Orthotics International. (doi:10.1097/PXR.0000000000000399).

Record type: Review

Abstract

Introduction: traditionally, orthosis manufacturing is time and labor-intensive. Digitalization of some of the fabrication process is already ubiquitous, yet extension across device types could reduce the burden of manual labor and advance automation to help unblock access to assistive technologies globally. It seems, however, that appropriately strong evidence is holding this back. This review looks to thoroughly examine the current state of evidence to make this clear.

Objectives: to identify gaps in the literature that create barriers to decision-making on either appropriate uptake by clinical teams or setting research directions, by identifying what forms of evidence the current research literature provides to the orthotics community.

Study design: scoping literature review.

Methods: a comprehensive search was completed in the following databases: AMED, MEDLINE, EMBASE, Global Health Archive, CINAHL Plus, Cochrane Library, Web of Science, ACM, IEEE, and Engineering Village, resulting in 3487 articles to be screened.

Results: after screening, 121 lower limb orthosis, 104 upper limb orthosis, and 30 spinal orthosis articles were included in this review. For some areas such as CAD/CAM-produced insoles and spinal orthoses, the evidence base is strong. For most additive manufacture
articles, long-term, larger-scale studies as well as research into training requirements are lacking.

Conclusion: the advantages of digital fabrication technology that could streamline orthotic device production in many cases are still blocked by a lack of strong formal evidence, ie large longitudinal studies with a range of evaluation measures. Increased collaboration between clinicians, patient/service users, academia, and industry could be a route to addressing these gaps and creating a better pathway to market for new technologies.

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Accepted/In Press date: 29 July 2024
Published date: 13 November 2024
Keywords: CAD/CAM, additive manufacture, digital fabrication, orthotics
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Identifiers

Local EPrints ID: 496346
URI: http://eprints.soton.ac.uk/id/eprint/496346
DOI: doi:10.1097/PXR.0000000000000399
ISSN: 0309-3646
PURE UUID: 8583e5f4-d785-482c-9be2-278405c3c41d
ORCID for Alex Dickinson: ORCID iD orcid.org/0000-0002-9647-1944

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Date deposited: 12 Dec 2024 17:33
Last modified: 13 Dec 2024 02:41

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Contributors

Author: Ben M. Oldfrey
Author: Dafne Z. Morgado Ramirez
Author: Catherine Holloway
Author: Matthew Wassall
Author: Christopher Nester
Author: Alex Dickinson ORCID iD
Author: Man S. Wong
Author: Jamie Danemayer
Author: Laurence Kenney
Author: Edward Lemaire
Author: Nerrolyn Ramstrand
Author: Hossein Gholizadeh
Author: Laura E. Diment
Author: Margaret K. Donovan-Hall
Author: Mark Miodownik

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