Analysis of the spatiotemporal dynamics of vascular injury and regeneration following experimental Spinal Cord Injury

IF 1.9 Q3 CLINICAL NEUROLOGY

Brain & spine Pub Date : 2025-01-01 DOI:10.1016/j.bas.2025.104191

Christian J. Entenmann , Emily J. von Bronewski , Lilly Waldmann , Lea Meyer , Katharina Kersting , Laurens T. Roolfs , Lasse M. Schleker , Melina Nieminen-Kelhä , Irina Kremenetskaia , Frank L. Heppner , Michael G. Fehlings , Peter Vajkoczy , Vanessa Hubertus

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Abstract

Introduction

The loss of vasculature in Spinal Cord Injury (SCI) contributes to secondary injury, expanding the injury to unharmed spinal cord (SC) regions. Understanding these mechanisms is crucial for developing therapeutic interventions.

Research question

Comprehensive analysis of the temporospatial dynamics of vascular injury and regeneration following SCI.

Materials and methods

Adult C57BL/6J mice were subjected to clip-compression SCI (Th 6/7, 5g, 60s, n = 20) or sham injury (laminectomy, n = 4), and sacrificed at 1, 3, 7, 14, and 28 days (d) post-injury following intracardial fluorescein isothiocyanate (FITC)-Lectin perfusion. Histological analysis (CD31, FITC-Lectin, Ki-67, IgG, TER-119) assessed vascular changes, permeability, and proliferation within the injury epicenter (region 0 (R0), ± 0,5 mm) and two adjacent SC regions (R1: ± 1 mm, R2: ± 2.5 mm).

Results

Perfusion loss (FITC-Lectin+/CD31+), was most severe in R0 and R1 at d3 (p < 0.01). Significant vascular loss in R2 started at d3 (p = 0.043). Perfusion was restored at d28 in R0 and R1, and at d7 in R2. Vessel density (CD31⁺) returned to baseline quicker (R0: d3, R1 and R2: d14). Vascular proliferation (CD31+/Ki-67+) manifested across all regions at d3 (p < 0.01), and most notably in R2 (p < 0.01). Vascular permeability for IgG remained disrupted until d3 in R0 and R1 and until d14 in R2.

Discussion and conclusion

Vascular injury is most severe initially and spreads to the surrounding SC regions. Gradual vascular regeneration occurs early and up to a considerable distance from the injury epicenter, highlighting the potential of early therapeutic interventions targeted at vascular repair and regeneration.

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实验性脊髓损伤后血管损伤与再生的时空动态分析

脊髓损伤（SCI）中血管系统的丧失有助于继发性损伤，将损伤扩大到未损伤的脊髓（SC）区域。了解这些机制对于制定治疗干预措施至关重要。研究问题：脊髓损伤后血管损伤与再生的时空动态综合分析。材料和方法成年C57BL/6J小鼠分别接受夹压性脊髓损伤（第6/7、5g、60s， n = 20）或假损伤（椎板切除术，n = 4），于伤后1、3、7、14、28天(d)心内异硫氰酸荧光素-凝集素灌注后处死。组织学分析（CD31、fitc -凝集素、Ki-67、IgG、TER-119）评估损伤中心（区域0 (R0)，±0.5 mm）和相邻两个SC区域（R1：±1mm, R2：±2.5 mm）内的血管变化、通透性和增殖。结果血流灌注损失（FITC-Lectin+/CD31+）在R0和R1在d3时最为严重(p <；0.01)。R2的血管损失从d3开始（p = 0.043）。R0和R1在d28， R2在d7时恢复灌注。血管密度（CD31+）恢复基线更快（R0: d3， R1和R2: d14）。血管增生（CD31+/Ki-67+）在d3 (p <；0.01)， R2中最为显著(p <；0.01)。IgG的血管通透性在R0和R1中直到d3和R2中直到d14才被破坏。讨论与结论血管损伤初期最为严重，并向周围SC区扩散。逐渐的血管再生发生在离损伤中心相当远的地方，这突出了针对血管修复和再生的早期治疗干预的潜力。

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