Association of Microbleeds on Susceptibility-Weighted Imaging with Ferroptosis and Prognosis in Rabbits with Spinal Cord Injury.

Discovery medicine Pub Date : 2024-09-01 DOI:10.24976/Discov.Med.202436188.173

Xing-Zhen Liu, Bo-Cheng Wang, Kang-Ping Shen, Wen-Jie Jin, Jie Zhao

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Abstract

Background: Susceptibility-weighted imaging (SWI) is a common imaging technique used to identify cerebral microbleeds. Given that spinal cord injury (SCI) often creates an environment that favors ferroptosis, a type of cell death driven by iron, this study aimed to explore the relationship between microbleeds on SWI and ferroptosis, and explore the effect of deferoxamine on SCI.

Methods: Thirty-six rabbits were divided into three groups: sham, SCI, and SCI with deferoxamine (DFO, a ferroptosis inhibitor) treatment (SCI+DFO). Following 48 hours of SCI modeling, the rabbits underwent magnetic resonance imaging (MRI) and SWI examinations. Ferroptosis markers and spinal cord tissue morphology were examined, and the modified Tarlov's score was used to assess neurological function.

Results: SWI analysis revealed that rabbits in the SCI group exhibited lower signal intensities and larger microbleed areas compared to the those in the SCI+DFO group (p < 0.05). The SCI+DFO group demonstrated significantly decreased iron and malondialdehyde (MDA) levels, coupled with increased glutathione (GSH) and glutathione peroxidase 4 (GPX4) levels, along with attenuated ferroptosis (p < 0.05). This group also displayed greater Neuronal Nuclei (NeuN) expression, Tarlov's scores, and neurological recovery rates (all p < 0.05). A significant positive correlation was found between the microbleed area and iron content (r = 0.59, p = 0.04), MDA (r = 0.75, p = 0.01), and mitochondrial damage (r = 0.90, p < 0.01). Conversely, a negative correlation was established between the microbleed area and GPX4 levels (r = -0.87, p < 0.01), as well as neurological function recovery (r = -0.62, p = 0.03).

Conclusion: The extent of microbleeds on SWI following SCI is closely correlated with ferroptosis, and the inhibition of ferroptosis could improve neurologic function. These findings suggest that the area of microbleeds on SWI could potentially serve as a predictive marker for ferroptosis in spinal cord injury.

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感度加权成像显示的微出血与脊髓损伤家兔的铁质沉着和预后的关系

背景：感度加权成像（SWI）是一种用于识别脑微出血的常用成像技术。鉴于脊髓损伤（SCI）通常会产生一种有利于铁蜕变（一种由铁驱动的细胞死亡）的环境，本研究旨在探讨 SWI 上的微出血与铁蜕变之间的关系，并探讨去铁胺对 SCI 的影响：方法：将36只兔子分为三组：假组、SCI组和SCI+去铁胺（DFO，一种铁突变抑制剂）治疗组（SCI+DFO）。在进行 48 小时的 SCI 模拟后，兔子接受了磁共振成像（MRI）和 SWI 检查。对铁蛋白沉积标志物和脊髓组织形态进行了检查，并采用改良的塔洛夫评分法评估神经功能：SWI分析表明，与SCI+DFO组的兔子相比，SCI组的信号强度更低，微出血区域更大（p < 0.05）。SCI+DFO组的铁和丙二醛（MDA）水平明显下降，谷胱甘肽（GSH）和谷胱甘肽过氧化物酶4（GPX4）水平上升，铁变态反应减轻（p < 0.05）。这组患者的神经元核（NeuN）表达、塔洛夫评分和神经功能恢复率也更高（均 p < 0.05）。微出血面积与铁含量（r = 0.59，p = 0.04）、MDA（r = 0.75，p = 0.01）和线粒体损伤（r = 0.90，p < 0.01）之间存在明显的正相关。相反，微出血面积与 GPX4 水平（r = -0.87，p < 0.01）以及神经功能恢复（r = -0.62，p = 0.03）之间呈负相关：结论： SCI 后 SWI 上的微出血范围与铁蛋白沉积密切相关，抑制铁蛋白沉积可改善神经功能。这些研究结果表明，SWI 上的微出血面积有可能成为脊髓损伤铁沉着症的预测指标。

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Discovery medicine

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