延迟x射线照射损伤大鼠脊髓的功能和结构恢复。

Gang Li, Xin-Gang Li, De-Ze Jia, Dong-Hai Wang, Yu-Hang Su, Qing-Lin Zhang
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摘要

目的:验证延迟x射线照射能促进大鼠损伤脊髓功能和结构恢复的假说。方法:70只sd大鼠随机分为两组,每组35只。对照组在没有x射线照射的情况下,对T2水平的脊髓进行1分钟的夹子压迫(夹子的力为30 g)损伤。实验组在损伤后第14天进行x射线照射。采用改进的Tarlov法评估神经功能,包括后肢运动、斜面和疼痛消退。这些试验在损伤后3、7、14、21、28、35和42天采用盲法进行。伤后43天,断头后对损伤脊髓进行组织学检查。结果:符合实验要求的大鼠62只(脊髓损伤相似),实验组32只,对照组30只。两组在后肢运动和斜面方面差异有统计学意义(P < 0.01),但在疼痛戒断测试中差异无统计学意义。实验组损伤脊髓水肿坏死面积均小于对照组,轴突数量显著多于对照组(P < 0.01)。结论:脊髓损伤后延迟x射线照射可通过改善和恢复损伤大鼠脊髓的结构完整性来促进功能恢复。
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Functional and structural recovery of injured spinal cord following delayed X-irradiation in rats.

Objective: To test the hypothesis that delayed X-irradiation can enhance the functional and structural recovery of the injured spinal cord in rats.

Methods: Seventy Sprague-Dawley rats were randomly divided into two groups, 35 rats in each. The control group sustained a one-minute clip compression (force of clip was 30 g) injury of the spinal cord at the T2 level, without X-irradiation. The experimental group received X-irradiation 14 days after injury. Neurological function was assessed by the modified Tarlov method, including hind limbs movement, inclined plane, and pain withdrawal. These tests were performed in a blinded fashion at 3, 7, 14, 21, 28, 35, and 42 days after injury. At 43 days after injury, histological examination of the injured spinal cord was performed following decapitation of the rats.

Results: Sixty-two rats met the experimental requirements (spinal cord injury was similar), 32 rats in experimental group and 30 rats in control group. Statistically significant difference was observed between the two groups in hind limbs movement and inclined plane (P < 0.01), but not in the pain withdrawal test. The edema and necrosis areas of injured spinal cords in experimental group were less than those in control group, and axons in experimental group were significantly more than those in control group (P < 0.01).

Conclusion: Delayed X-irradiation following spinal cord injury may enhance functional recovery by improving and restoring structural integrity of the injured spinal cord in rats.

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