Eleftherios Archavlis, Davide Palombi, Dimitrios Konstantinidis, Mario Carvi Y Nievas, Per Trobisch, Irina I Stoyanova
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Inclusion criteria were original articles investigating pathophysiology, neuroplasticity mechanisms, or surgical outcomes. Data on pathophysiological changes, molecular markers, and functional outcomes were extracted.</p><p><strong>Results: </strong>From 1240 initial articles, 43 studies were included, encompassing both animal models and human clinical data. Findings highlighted the role of inflammatory cascades, blood-spinal cord barrier disruption, and neurotrophic factor modulation in recovery. Decompressive duraplasty was associated with improved intrathecal pressure (ITP) management and neuroplasticity markers, such as BDNF and GAP-43.</p><p><strong>Conclusions: </strong>This review underscores the therapeutic potential of decompressive laminectomy and duraplasty in SCI. 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引用次数: 0
摘要
背景:严重脊髓损伤(SCI)是一种具有长期身体和社会经济影响的衰弱性疾病。了解脊髓损伤的病理生理学和治疗干预,如减压椎板切除术和扩张性硬脑膜成形术,是优化患者预后的关键。目的:本系统综述探讨脊髓损伤的病理生理学,并评估椎板减压切除术和硬脑膜成形术与改善神经可塑性和恢复的证据。方法:综合检索PubMed、Web of Science和Cochrane Library中有关脊髓损伤减压手术的研究。纳入标准是研究病理生理学、神经可塑性机制或手术结果的原创文章。提取病理生理变化、分子标记和功能结果的数据。结果:从1240篇初始文章中,纳入了43项研究,包括动物模型和人类临床数据。研究结果强调了炎症级联反应、血脊髓屏障破坏和神经营养因子调节在恢复中的作用。硬膜减压成形术可改善鞘内压(ITP)管理和神经可塑性指标,如BDNF和GAP-43。结论:本综述强调了脊髓损伤椎板减压切除术和硬脑膜成形术的治疗潜力。虽然有证据表明它对促进神经可塑性有好处,但还需要进一步的研究来阐明分子机制并改进干预措施。
Pathophysiologic Mechanisms of Severe Spinal Cord Injury and Neuroplasticity Following Decompressive Laminectomy and Expansive Duraplasty: A Systematic Review.
Background: Severe spinal cord injury (SCI) represents a debilitating condition with long-term physical and socioeconomic impacts. Understanding the pathophysiology of SCI and therapeutic interventions such as decompressive laminectomy and expansive duraplasty is crucial for optimizing patient outcomes.
Objective: This systematic review explores the pathophysiology of SCI and evaluates evidence linking decompressive laminectomy and duraplasty to improved neuroplasticity and recovery.
Methods: A comprehensive search was conducted in PubMed, Web of Science, and Cochrane Library for studies on decompressive surgery in SCI. Inclusion criteria were original articles investigating pathophysiology, neuroplasticity mechanisms, or surgical outcomes. Data on pathophysiological changes, molecular markers, and functional outcomes were extracted.
Results: From 1240 initial articles, 43 studies were included, encompassing both animal models and human clinical data. Findings highlighted the role of inflammatory cascades, blood-spinal cord barrier disruption, and neurotrophic factor modulation in recovery. Decompressive duraplasty was associated with improved intrathecal pressure (ITP) management and neuroplasticity markers, such as BDNF and GAP-43.
Conclusions: This review underscores the therapeutic potential of decompressive laminectomy and duraplasty in SCI. While evidence suggests benefits in promoting neuroplasticity, further research is needed to elucidate molecular mechanisms and refine interventions.
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