脊髓损伤和骨质疏松:原因、机制和康复策略。

Can Ozan Tan, Ricardo A Battaglino, Leslie R Morse
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引用次数: 0

摘要

脊髓损伤(SCI)对个人、社会和经济都有巨大的影响。尽管急性护理的进步大大减少了合并症,但在预防脊髓损伤的长期后遗症方面进展甚微。脊髓损伤的长期后果之一是由于瘫痪肢体的机械卸载和损伤水平以下的血管功能障碍导致的骨质流失(骨质疏松症)。虽然在损伤后急性期可以通过药物干预部分预防骨质疏松症,但在慢性期治疗骨质疏松症尚无临床指南。因此,需要科学的进步来改善sci相关性骨质疏松症的康复方法。功能电刺激这一新技术的最新应用进展,为改善骨代谢和向瘫痪的下肢提供足够的机械应变来刺激脊髓损伤患者的新骨形成提供了新的令人兴奋的机会。这篇小型综述的目的是描述我们目前对sci相关骨质疏松症的理解,并强调最近关于其预防和治疗的文献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spinal Cord Injury and Osteoporosis: Causes, Mechanisms, and Rehabilitation Strategies.

Spinal cord injury (SCI) has a huge impact on the individual, society and the economy. Though advances in acute care resulted in greatly reduced co-morbidities, there has been much less progress preventing long-term sequelae of SCI. Among the long-term consequences of SCI is bone loss (osteoporosis) due to the mechanical unloading of the paralyzed limbs and vascular dysfunction below the level of injury. Though osteoporosis may be partially prevented via pharmacologic interventions during the acute post-injury phase, there are no clinical guidelines to treat osteoporosis during the chronic phase. Thus there is need for scientific advances to improve the rehabilitative approaches to SCI-related osteoporosis. Recent advances in application of a new technology, functional electrical stimulation, provide a new and exciting opportunity to improve bone metabolism and to provide mechanical strain to the paralyzed lower limbs sufficient to stimulate new bone formation in individuals with SCI. The purpose of this minireview is to delineate our current understanding of SCI-related osteoporosis and to highlight recent literature towards its prevention and treatment.

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