脊髓损伤导致的骨骼疾病,一个需要多模式干预的未决问题。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-07-29 DOI:10.1002/adbi.202400213
Evelyn Echevarria-Cruz, David W McMillan, Kieran F Reid, Rodrigo J Valderrábano
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引用次数: 0

摘要

脊髓损伤与骨骼卸载、久坐不动、骨骼肌量减少和运动不耐受有关,从而导致骨质快速严重流失。迄今为止,单一的物理干预疗法,如在站立架上负重、计算机控制的电刺激骑自行车和步行运动以及低强度振动,都无法在脊髓损伤后成功维持骨密度。使用常用的骨质疏松症药物维持骨密度的策略也未能带来显著的临床益处,这可能是由于 SCI 骨质退化的独特病理所致。本综述讨论了评估和监测骨质流失、骨折以及针对 SCI 相关骨骼疾病的物理和药物治疗方法的现有数据。还考虑了 SCI 相关骨骼疾病的治疗、对临床管理的影响以及未来需要研究的领域。
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Spinal Cord Injury Associated Disease of the Skeleton, an Unresolved Problem with Need for Multimodal Interventions.

Spinal cord injury is associated with skeletal unloading, sedentary behavior, decreases in skeletal muscle mass, and exercise intolerance, which results in rapid and severe bone loss. To date, monotherapy with physical interventions such as weight-bearing in standing frames, computer-controlled electrically stimulated cycling and ambulation exercise, and low-intensity vibration are unsuccessful in maintaining bone density after SCI. Strategies to maintain bone density with commonly used osteoporosis medications also fail to provide a significant clinical benefit, potentially due to a unique pathology of bone deterioration in SCI. In this review, the available data is discussed on evaluating and monitoring bone loss, fracture, and physical and pharmacological therapeutic approaches to SCI-associated disease of the skeleton. The treatment of SCI-associated disease of the skeleton, the implications for clinical management, and areas of need are considered for future investigation.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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