基于合成磁共振的弛豫测量法在鉴别中枢神经系统结核瘤和胶质母细胞瘤中的应用
Synthetic magnetic resonance-based relaxometry in differentiating central nervous system tuberculoma and glioblastoma.
作者信息
Dash Sanket, Vyas Sameer, Ahuja Chirag Kamal, Singh Paramjeet, Ahmad Sarfraj
机构信息
Department of Radiodiagnosis and Imaging, Division of Neuroimaging and Interventional Neuroradiology, Postgraduate Institute of Medical Education and Research (PGIMER), Chandigarh, India.
出版信息
Pol J Radiol. 2025 Apr 29;90:e198-e206. doi: 10.5114/pjr/202175. eCollection 2025.
PURPOSE
Synthetic magnetic resonance imaging (MRI) allows reconstruction of multiple contrast-weighted images from a single acquisition of multiple delay multiple echo (MDME) sequence with quantitative relaxometry (longitudinal relaxation rate [R1], transverse relaxation rate [R2], and proton density [PD]) in a shorter acquisition time. We tried to explore synthetic MR-based relaxometry to differentiate central nervous system (CNS) tuberculomas from primary CNS neoplasm like glioblastoma.
MATERIAL AND METHODS
Ten cases of CNS tuberculoma and 14 cases of glioblastoma underwent pre- and post-contrast synthetic MRI. R1, R2, and PD values were calculated from lesion core, wall, and perilesional oedema using free-hand region of interest and compared across the 2 groups.
RESULTS
Both pre- and post-contrast R1 and R2 relaxation rates from core were significantly higher in tuberculoma (mean pre-contrast R1 - 0.93, R2 - 15.02; post-contrast R1 - 1.51, R2 - 15.48) from glioblastoma (mean pre-contrast R1 - 0.36, R2 - 4.58; post-contrast R1 - 0.43, R2 - 4.78). The same values were higher in perilesional oedema of glioblastoma (mean pre-contrast R1 - 0.75, R2 - 9.9; post-contrast R1 - 0.78, R2 - 10.48) compared to tuberculoma (mean pre-contrast R1 - 0.68, R2 - 8.57; post-contrast R1 - 0.72, R2 - 8.67). No significant difference was seen between relaxometry parameters from the walls of lesions.
CONCLUSIONS
Synthetic MR-based relaxometry can be useful in distinguishing CNS tuberculomas from glioblastoma. R1 and R2 relaxation rates from core of the lesions are most important in differentiating the two with R1 value > 0.852 and R2 value > 11.565 from core strongly suggests tuberculoma over glioblastoma.
目的
合成磁共振成像(MRI)能够在更短的采集时间内,通过单次采集多延迟多回波(MDME)序列并结合定量弛豫测量法(纵向弛豫率[R1]、横向弛豫率[R2]和质子密度[PD])来重建多个对比加权图像。我们试图探索基于合成磁共振成像的弛豫测量法,以区分中枢神经系统(CNS)结核瘤与原发性中枢神经系统肿瘤,如胶质母细胞瘤。
材料与方法
10例中枢神经系统结核瘤患者和14例胶质母细胞瘤患者接受了对比剂注射前后的合成MRI检查。使用徒手感兴趣区从病变核心、边缘和瘤周水肿区域计算R1、R2和PD值,并在两组之间进行比较。
结果
结核瘤病变核心在对比剂注射前后的R1和R2弛豫率均显著高于胶质母细胞瘤(对比剂注射前,结核瘤平均R1 - 0.93,R2 - 15.02;对比剂注射后,R1 - 1.51,R2 - 15.48;胶质母细胞瘤对比剂注射前,平均R1 - 0.36,R2 - 4.58;对比剂注射后,R1 - 0.43,R2 - 4.78)。胶质母细胞瘤瘤周水肿区域的这些值高于结核瘤(对比剂注射前平均R1 - 0.75,R2 - 9.9;对比剂注射后,R1 - 0.78,R2 - 10.48;结核瘤对比剂注射前平均R1 - 0.68, R2 - 8.57;对比剂注射后, R1 - 0.72, R2 - 8.67)。病变边缘的弛豫测量参数在两组之间无显著差异。
结论
基于合成磁共振成像的弛豫测量法有助于区分中枢神经系统结核瘤与胶质母细胞瘤。病变核心的R1和R2弛豫率在区分两者时最为重要,当病变核心的R1值> 0.852且R2值> 11.565时,强烈提示为结核瘤而非胶质母细胞瘤。
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