Role of Permeability Surface Area Product in Grading of Brain Gliomas using CT Perfusion

Ira Agrawal, Shahina Bano, Ajay Chaudhary, Arvind Ahuja
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Abstract

Abstract Purpose The aim of this study was to evaluate the role of permeability surface area product in grading brain gliomas using computed tomography (CT) perfusion Materials and Methods CT perfusion was performed on 33 patients with brain glioma diagnosed on magnetic resonance imaging. Of these, 19 had high-grade glioma and 14 had low-grade glioma on histopathological follow-up. CT perfusion values were obtained and first compared between the tumor region and normal brain parenchyma. Then the relative values of perfusion parameters were compared between high- and low-grade gliomas. Cut-off values, sensitivity, specificity, and strength of agreement for each parameter were calculated and compared subsequently. A conjoint factor (permeability surface area product + cerebral blood volume) was also evaluated since permeability surface area product and cerebral blood volume are considered complimentary factors for tumor vascularity. Results All five perfusion parameters namely permeability surface area product, cerebral blood volume, cerebral blood flow, mean transit time, and time to peak were found significantly higher in the tumor region than normal brain parenchyma. Among these perfusion parameters, only relative permeability surface area product and relative cerebral blood volume were found significant in differentiating high- and low-grade glioma. Moreover, relative permeability surface area product was significantly better than all other perfusion parameters with highest sensitivity and specificity (97.74 and 100%, respectively, at a cut-off of 9.0065). Relative permeability surface area product had a very good agreement with the histopathology grade. The conjoint factor did not yield any significant diagnostic advantage over permeability surface area product. Conclusion Relative permeability surface area product and relative cerebral blood volume were helpful in differentiating high- and low-grade glioma; however, relative permeability surface area product was significantly better than all other perfusion parameters. Grading brain gliomas using relative permeability surface area product can add crucial value in their management and prognostication; hence, it should be evaluated in the routine CT perfusion imaging protocol.
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CT灌注成像在脑胶质瘤分级中的作用
【摘要】目的探讨脑胶质瘤CT灌注对脑胶质瘤分级的影响。材料与方法对33例经磁共振成像诊断为脑胶质瘤的患者进行CT灌注。其中19例为高级别胶质瘤,14例为低级别胶质瘤。获得肿瘤区域与正常脑实质的CT灌注值并进行比较。然后比较高、低级别胶质瘤灌注参数的相对值。随后计算并比较每个参数的临界值、敏感性、特异性和一致性强度。我们还评估了一个联合因子(通透性表面积积+脑血容量),因为通透性表面积积和脑血容量被认为是肿瘤血管的互补因子。结果肿瘤区渗透表面积积、脑血容量、脑血流量、平均传递时间、峰值时间等5项灌注参数均明显高于正常脑实质。在这些灌注参数中,只有相对通透性表面积积和相对脑血容量对区分高、低级别胶质瘤有重要意义。相对渗透率表面积积明显优于其他灌注参数,敏感性和特异性最高(97.74和100%,截止值为9.0065)。相对渗透性表面积乘积与组织病理学分级有很好的一致性。与渗透率表面积乘积相比,联合因子没有产生任何显著的诊断优势。结论相对通透性比表面积和相对脑血容量有助于区分高、低级别胶质瘤;相对渗透性表面积积明显优于其他灌注参数。使用相对渗透性表面积产品对脑胶质瘤进行分级对其治疗和预后具有重要价值;因此,应在常规CT灌注成像方案中进行评估。
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