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Preliminary training volume and progression algorithm to tackle fragility fracture risk during exoskeleton-assisted overground walking in individuals with a chronic spinal cord injury.

作者信息

Bass Alec, Aubertin-Leheudre Mylène, Morin Suzanne N, Gagnon Dany H

机构信息

School of Rehabilitation, Faculty of Medicine, Université de Montréal, Montreal, QC, Canada.

Centre for Interdisciplinary Research in Rehabilitation of Greater Montreal (CRIR), Centre Intégré Universitaire de Santé et Services Sociaux (CIUSSS) du Centre-Sud-de-l'Île-de-Montréal, Montreal, QC, Canada.

出版信息

Spinal Cord Ser Cases. 2022 Mar 8;8(1):29. doi: 10.1038/s41394-022-00498-7.

DOI:10.1038/s41394-022-00498-7
PMID:35260550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8904785/
Abstract
摘要

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Preliminary training volume and progression algorithm to tackle fragility fracture risk during exoskeleton-assisted overground walking in individuals with a chronic spinal cord injury.在慢性脊髓损伤患者的外骨骼辅助地面行走过程中,应对脆性骨折风险的初步训练量及进展算法。
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J Rehabil Med. 2024 Nov 21;56:jrm19461. doi: 10.2340/jrm.v56.19461.
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J Neuroeng Rehabil. 2024 May 5;21(1):73. doi: 10.1186/s12984-024-01365-2.
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本文引用的文献

1
Effects of an Overground Walking Program With a Robotic Exoskeleton on Long-Term Manual Wheelchair Users With a Chronic Spinal Cord Injury: Protocol for a Self-Controlled Interventional Study.使用机器人外骨骼的地面行走计划对慢性脊髓损伤长期手动轮椅使用者的影响:一项自我对照干预研究的方案
JMIR Res Protoc. 2020 Sep 24;9(9):e19251. doi: 10.2196/19251.
2
Incidental bilateral calcaneal fractures following overground walking with a wearable robotic exoskeleton in a wheelchair user with a chronic spinal cord injury: is zero risk possible?佩戴可穿戴机器人外骨骼在轮椅上进行地面行走后,慢性脊髓损伤患者双侧跟骨意外骨折:是否存在零风险?
Osteoporos Int. 2020 May;31(5):1007-1011. doi: 10.1007/s00198-020-05277-4. Epub 2020 Jan 13.
3
Case Report: Description of two fractures during the use of a powered exoskeleton.病例报告:动力外骨骼使用过程中两例骨折的描述。
Spinal Cord Ser Cases. 2019 Dec 11;5:99. doi: 10.1038/s41394-019-0244-2. eCollection 2019.
4
Bone Mineral Density Testing in Spinal Cord Injury: 2019 ISCD Official Position.脊髓损伤中的骨密度检测:2019 ISCD 官方立场。
J Clin Densitom. 2019 Oct-Dec;22(4):554-566. doi: 10.1016/j.jocd.2019.07.012. Epub 2019 Aug 3.
5
Evidence-based scientific exercise guidelines for adults with spinal cord injury: an update and a new guideline.脊髓损伤成人循证科学运动指南:更新版及新指南
Spinal Cord. 2018 Apr;56(4):308-321. doi: 10.1038/s41393-017-0017-3. Epub 2017 Oct 25.
6
Musculoskeletal Health in the Context of Spinal Cord Injury.脊髓损伤背景下的肌肉骨骼健康。
Curr Osteoporos Rep. 2017 Oct;15(5):433-442. doi: 10.1007/s11914-017-0400-1.
7
Agreement between fragility fracture risk assessment algorithms as applied to adults with chronic spinal cord injury.应用于成年慢性脊髓损伤患者的脆性骨折风险评估算法之间的一致性
Spinal Cord. 2017 Nov;55(11):985-993. doi: 10.1038/sc.2017.65. Epub 2017 Jun 13.
8
Evidence-based prevention and treatment of osteoporosis after spinal cord injury: a systematic review.脊髓损伤后骨质疏松症的循证预防与治疗:一项系统综述
Eur Spine J. 2018 Aug;27(8):1798-1814. doi: 10.1007/s00586-017-5114-7. Epub 2017 May 11.
9
Training Persons with Spinal Cord Injury to Ambulate Using a Powered Exoskeleton.训练脊髓损伤患者使用动力外骨骼行走。
J Vis Exp. 2016 Jun 16(112):54071. doi: 10.3791/54071.
10
Lower-limb exoskeletons for individuals with chronic spinal cord injury: findings from a feasibility study.针对慢性脊髓损伤患者的下肢外骨骼:一项可行性研究的结果
Clin Rehabil. 2016 Jan;30(1):73-84. doi: 10.1177/0269215515575166. Epub 2015 Mar 11.