动脉自旋标记灌注磁共振成像用于评估经放射治疗的脑膜瘤

Paul Manning, Shanmukha Srinivas, D. Bolar, Matthew K. Rajaratnam, David E. Piccioni, Carrie R. McDonald, J. Hattangadi-Gluth, N. Farid
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摘要

常规对比增强磁共振成像是目前用于评估脑膜瘤放射治疗反应的主要成像技术。然而,较新的灌注加权磁共振成像技术,如三维假连续动脉自旋标记(3D pCASL)磁共振成像,可以捕捉到常规磁共振成像所提供的结构信息之外的生理信息,并可能提供额外的补充治疗反应信息。本研究的目的是评估 3D pCASL 对放射治疗脑膜瘤的评估效果。这项回顾性单机构研究共纳入了 20 例脑膜瘤患者,他们均接受了手术切除后放射治疗或单纯放射治疗。患者在放疗前后(中位随访时间为 6.5 个月)接受了 3D pCASL 和传统对比增强磁共振成像评估。测量了每个脑膜瘤和经放射治疗的脑膜瘤(或切除和放射治疗后的残余脑膜瘤)放射前后的最大ASL归一化脑血流(ASL-nCBF),并测量了每个脑膜瘤的对比增强区域。采用Wilcoxon符号秩检验比较放射前后的ASL-nCBF和放射前后的面积。脑膜瘤造影剂增强面积在放射治疗后也有所下降(p = 0.008),但只有大约一半的脑膜瘤(9 个)下降,而一半的脑膜瘤(10 个)保持稳定。与对比增强面积测量(r = 0.597)相比,ASL-nCBF 测量(r = 0.877)的效应大小(Wilcoxon 符号秩效应大小)更大。这种补充信息可帮助临床决策,并为临床试验提供额外的终点。
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Arterial spin labeled perfusion MRI for the assessment of radiation-treated meningiomas
Conventional contrast-enhanced MRI is currently the primary imaging technique used to evaluate radiation treatment response in meningiomas. However, newer perfusion-weighted MRI techniques, such as 3D pseudocontinuous arterial spin labeling (3D pCASL) MRI, capture physiologic information beyond the structural information provided by conventional MRI and may provide additional complementary treatment response information. The purpose of this study is to assess 3D pCASL for the evaluation of radiation-treated meningiomas.Twenty patients with meningioma treated with surgical resection followed by radiation, or by radiation alone, were included in this retrospective single-institution study. Patients were evaluated with 3D pCASL and conventional contrast-enhanced MRI before and after radiation (median follow up 6.5 months). Maximum pre- and post-radiation ASL normalized cerebral blood flow (ASL-nCBF) was measured within each meningioma and radiation-treated meningioma (or residual resected and radiated meningioma), and the contrast-enhancing area was measured for each meningioma. Wilcoxon signed-rank tests were used to compare pre- and post-radiation ASL-nCBF and pre- and post-radiation area.All treated meningiomas demonstrated decreased ASL-nCBF following radiation (p < 0.001). Meningioma contrast-enhancing area also decreased after radiation (p = 0.008) but only for approximately half of the meningiomas (9), while half (10) remained stable. A larger effect size (Wilcoxon signed-rank effect size) was seen for ASL-nCBF measurements (r = 0.877) compared to contrast-enhanced area measurements (r = 0.597).ASL perfusion may provide complementary treatment response information in radiation-treated meningiomas. This complementary information could aid clinical decision-making and provide an additional endpoint for clinical trials.
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