The Functional Brain Center, The Wohl Institute for Advanced Imaging, Tel Aviv Sourasky Medical Center, Tel Aviv, Israel.
Eur J Radiol. 2013 Sep;82(9):1512-8. doi: 10.1016/j.ejrad.2013.05.029. Epub 2013 Jun 21.
Lesion size in fluid attenuation inversion recovery (FLAIR) images is an important clinical parameter for patient assessment and follow-up. Although manual delineation of lesion areas considered as ground truth, it is time-consuming, highly user-dependent and difficult to perform in areas of indistinct borders. In this study, an automatic methodology for FLAIR lesion segmentation is proposed, and its application in patients with brain tumors undergoing therapy; and in patients following stroke is demonstrated.
FLAIR lesion segmentation was performed in 57 magnetic resonance imaging (MRI) data sets obtained from 44 patients: 28 patients with primary brain tumors; 5 patients with recurrent-progressive glioblastoma (rGB) who were scanned longitudinally during anti-angiogenic therapy (18 MRI scans); and 11 patients following ischemic stroke.
FLAIR lesion segmentation was obtained in all patients. When compared to manual delineation, a high visual similarity was observed, with an absolute relative volume difference of 16.80% and 20.96% and a volumetric overlap error of 24.87% and 27.50% obtained for two raters: accepted values for automatic methods. Quantitative measurements of the segmented lesion volumes were in line with qualitative radiological assessment in four patients who received anti-anogiogenic drugs. In stroke patients the proposed methodology enabled identification of the ischemic lesion and differentiation from other FLAIR hyperintense areas, such as pre-existing disease.
This study proposed a replicable methodology for FLAIR lesion detection and quantification and for discrimination between lesion of interest and pre-existing disease. Results from this study show the wide clinical applications of this methodology in research and clinical practice.
在液体衰减反转恢复(FLAIR)图像中,病变大小是评估患者和随访的重要临床参数。尽管手动勾画病变区域被认为是金标准,但它耗时、高度依赖用户,并且在边界不清晰的区域难以进行。本研究提出了一种自动 FLAIR 病变分割方法,并将其应用于接受治疗的脑肿瘤患者和中风后患者。
对 44 名患者的 57 个磁共振成像(MRI)数据集进行 FLAIR 病变分割:28 名原发性脑肿瘤患者;5 名接受抗血管生成治疗的复发性进行性胶质母细胞瘤(rGB)患者(18 次 MRI 扫描);11 名中风后患者。
所有患者均获得 FLAIR 病变分割。与手动勾画相比,观察者之间的绝对相对体积差异为 16.80%和 20.96%,体积重叠误差为 24.87%和 27.50%,观察到高度的视觉相似性,这是自动方法的可接受值。在接受抗血管生成药物的 4 名患者中,对分割病变体积的定量测量与定性放射学评估一致。对于中风患者,该方法能够识别缺血性病变并将其与其他 FLAIR 高信号区域(如先前存在的疾病)区分开来。
本研究提出了一种可复制的 FLAIR 病变检测和量化方法,以及区分病变与先前存在的疾病的方法。该研究结果表明,该方法在研究和临床实践中有广泛的临床应用。
