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Future Directions in Prosthetic Component Research and Clinical Prescription: A Precision Rehabilitation and Patient-Centered Care Approach.

作者信息

Morgenroth David C, Halsne Elizabeth G, Henderson Alison W, Norvell Daniel C

机构信息

VA RR&D Center for Limb Loss and Mobility (CLiMB), Seattle, WA; VA Puget Sound Health Care System, Rehabilitation Care Service, Seattle, WA; Department of Rehabilitation Medicine, University of Washington, Seattle, WA.

VA RR&D Center for Limb Loss and Mobility (CLiMB), Seattle, WA; Department of Rehabilitation Medicine, University of Washington, Seattle, WA.

出版信息

Arch Phys Med Rehabil. 2024 Dec;105(12):2396-2399. doi: 10.1016/j.apmr.2024.08.016. Epub 2024 Sep 4.

DOI:10.1016/j.apmr.2024.08.016
PMID:39241852
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11869901/
Abstract
摘要

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Advanced upper limb prosthetic devices: implications for upper limb prosthetic rehabilitation.高级上肢假肢:对上肢假肢康复的影响。
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Prosthetic prescription in the Netherlands: an interview with clinical experts.荷兰的假肢处方:对临床专家的访谈
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本文引用的文献

1
How do users define success with a lower limb prosthesis? A focus group study.用户如何定义下肢假肢的成功?一项焦点小组研究。
Disabil Rehabil. 2025 Feb;47(3):736-750. doi: 10.1080/09638288.2024.2356013. Epub 2024 May 25.
2
The development of rating scales to evaluate experiential prosthetic foot preference for people with lower limb amputation.用于评估下肢截肢者对体验性假肢足部偏好的评定量表的开发。
PM R. 2024 Feb;16(2):150-159. doi: 10.1002/pmrj.13024. Epub 2023 Jul 24.
3
Stepping Closer to Precision Rehabilitation.迈向精准康复
JAMA Neurol. 2023 Apr 1;80(4):339-341. doi: 10.1001/jamaneurol.2023.0044.
4
A Learning Health System Infrastructure for Precision Rehabilitation After Stroke.用于中风后精准康复的学习型健康系统基础设施
Am J Phys Med Rehabil. 2023 Feb 1;102(2S Suppl 1):S56-S60. doi: 10.1097/PHM.0000000000002138.
5
AMPREDICT PROsthetics-Predicting Prosthesis Mobility to Aid in Prosthetic Prescription and Rehabilitation Planning.AMPREDICT PROsthetics-预测假体活动能力以辅助假肢处方和康复计划。
Arch Phys Med Rehabil. 2023 Apr;104(4):523-532. doi: 10.1016/j.apmr.2022.11.014. Epub 2022 Dec 17.
6
Robotic Emulation of Candidate Prosthetic Foot Designs May Enable Efficient, Evidence-Based, and Individualized Prescriptions.候选假肢足部设计的机器人模拟可实现高效、基于证据且个性化的处方。
J Prosthet Orthot. 2022 Oct;34(4):202-212. doi: 10.1097/JPO.0000000000000409. Epub 2021 Dec 30.
7
Emulating the Effective Ankle Stiffness of Commercial Prosthetic Feet Using a Robotic Prosthetic Foot Emulator.使用机器人假肢模拟器模拟商业假肢的有效踝关节刚度。
J Biomech Eng. 2022 Nov 1;144(11). doi: 10.1115/1.4054834.
8
Improving shared decision-making for prosthetic care: A qualitative needs assessment of prosthetists and new lower-limb prosthesis users.改善假肢护理的共同决策:对假肢技师和新的下肢假肢使用者的定性需求评估。
Prosthet Orthot Int. 2023 Feb 1;47(1):26-42. doi: 10.1097/PXR.0000000000000142. Epub 2022 May 25.
9
Prosthetic forefoot and heel stiffness across consecutive foot stiffness categories and sizes.连续足刚度类别和尺寸的假体前足和后跟刚度。
PLoS One. 2022 May 10;17(5):e0268136. doi: 10.1371/journal.pone.0268136. eCollection 2022.
10
Comparing forefoot and heel stiffnesses across commercial prosthetic feet manufactured for individuals with varying body weights and foot sizes.比较不同体重和脚型的个体所使用的商业假肢的前脚掌和脚跟的硬度。
Prosthet Orthot Int. 2022 Oct 1;46(5):425-431. doi: 10.1097/PXR.0000000000000131. Epub 2022 Apr 8.