创伤性微出血附近的水肿进展:连续 MRI 上细胞毒性水肿和血管源性水肿的演变

Q4 Neuroscience
Jacquie Lee , Emily Baniewicz , Nicole L. Peterkin , Danielle Greenman , Allison D. Griffin , Neekita Jikaria , L. Christine Turtzo , Marie Luby , Lawrence L. Latour
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引用次数: 0

摘要

导言虽然脑水肿在创伤性脑损伤(TBI)后很常见,但人们对其形成和发展却知之甚少。尤其是轻度 TBI 患者,他们很少接受磁共振成像(MRI)检查,而磁共振成像能在受伤后的头几天发现计算机断层扫描看不到的微妙结构细节。这项研究旨在对一组主要为轻度创伤性脑损伤患者的创伤性微出血(TMBs)的水肿进展进行视觉分类和定量测量,研究时间截至伤后 30 天。研究人员假设,急性损伤后检测到的表观扩散系数(ADC)低密度病变将演变为高密度的流体衰减反转恢复(FLAIR)病变。ADC 和 FLAIR MRI 被用于损伤后≤48 h、∼1 周和 30 天三个不同时间点的水肿分类。ADC上的低密度病变(ADC+)表明存在细胞毒性水肿,而FLAIR上的高密度病变(FLAIR+)表明存在血管源性水肿。结果我们的结果表明,≤48 h 和∼1 周的 ADC+ 病变分别与∼1 周和 30 天的 FLAIR+ 病变相关,这表明随着时间的推移,细胞毒性水肿向血管源性水肿发展。然而,≤48 h的ADC+病变与30天时的FLAIR+病变无关;≤48 h的25个ADC+病变中有10个(40%)在30天时为FLAIR+,这可能表明一些病变消退或因伴有萎缩或组织坏死而未被观察到。定量分析证实了一些 TMB 病变从 ADC + 到 FLAIR + 的视觉进展。当病变 ADC+ ≤48 h 时,1 周后的 FLAIR SIRs 明显更高(1.22 [1.08-1.32] vs 1.03 [0.97-1.11],P = 0.002)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Edema progression in proximity to traumatic microbleeds: Evolution of cytotoxic and vasogenic edema on serial MRI

Introduction

Although cerebral edema is common following traumatic brain injury (TBI), its formation and progression are poorly understood. This is especially true for the mild TBI population, who rarely undergo magnetic resonance imaging (MRI) studies, which can pick up subtle structural details not visualized on computed tomography, in the first few days after injury. This study aimed to visually classify and quantitatively measure edema progression in relation to traumatic microbleeds (TMBs) in a cohort of primarily mild TBI patients up to 30 days after injury. Researchers hypothesized that hypointense lesions on Apparent Diffusion Coefficient (ADC) detected acutely after injury would evolve into hyperintense Fluid Attenuated Inversion Recover (FLAIR) lesions.

Methods

This study analyzed the progression of cerebral edema after acute injury using multimodal MRI to classify TMBs as potential edema-related biomarkers. ADC and FLAIR MRI were utilized for edema classification at three different timepoints: ≤48 h, ∼1 week, and 30 days after injury. Hypointense lesions on ADC (ADC+) suggested the presence of cytotoxic edema while hyperintense lesions on FLAIR (FLAIR+) suggested vasogenic edema. Signal intensity Ratio (SIR) calculations were made using ADC and FLAIR to quantitatively confirm edema progression.

Results

Our results indicated the presence of ADC+ lesions ≤48 h and ∼1 week were associated with FLAIR + lesions at ∼1 week and 30 days, respectively, suggesting some progression of cytotoxic edema to vasogenic edema over time. Ten out of 15 FLAIR + lesions at 30 days (67%) were ADC+ ≤48 h. However, ADC + lesions ≤48 h were not associated with FLAIR + lesions at 30 days; 10 out of 25 (40%) ADC + lesions ≤48 h were FLAIR + at 30 days, which could indicate that some lesions resolved or were not visualized due to associated atrophy or tissue necrosis. Quantitative analysis confirmed the visual progression of some TMB lesions from ADC + to FLAIR+. FLAIR SIRs at ∼1 week were significantly higher when lesions were ADC+ ≤48 h (1.22 [1.08–1.32] vs 1.03 [0.97–1.11], p = 0.002).

Conclusion

Awareness of how cerebral edema can evolve in proximity to TMBs acutely after injury may facilitate identification and monitoring of patients with traumatic cerebrovascular injury and assist in development of novel therapeutic strategies.

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来源期刊
Neuroimage. Reports
Neuroimage. Reports Neuroscience (General)
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