Anil Aliya, Stokes Ashley M, Chao Renee, Hu Leland S, Alhilali Lea, Karis John P, Bell Laura C, Quarles C Chad
Division of Neuroimaging Research and Barrow Neuroimaging Innovation Center, Barrow Neuroimaging Institute, Phoenix, AZ, United States.
Department of Radiology, Division of Neuroradiology, Mayo Clinic Arizona, Phoenix, AZ, United States.
Front Oncol. 2023 Jan 17;13:1046629. doi: 10.3389/fonc.2023.1046629. eCollection 2023.
Relative cerebral blood volume (rCBV) obtained from dynamic susceptibility contrast (DSC) MRI is widely used to distinguish high grade glioma recurrence from post treatment radiation effects (PTRE). Application of rCBV thresholds yield maps to distinguish between regional tumor burden and PTRE, a biomarker termed the fractional tumor burden (FTB). FTB is generally measured using conventional double-dose, single-echo DSC-MRI protocols; recently, a single-dose, dual-echo DSC-MRI protocol was clinically validated by direct comparison to the conventional double-dose, single-echo protocol. As the single-dose, dual-echo acquisition enables reduction in the contrast agent dose and provides greater pulse sequence parameter flexibility, there is a compelling need to establish dual-echo DSC-MRI based FTB mapping. In this study, we determine the optimum standardized rCBV threshold for the single-dose, dual-echo protocol to generate FTB maps that best match those derived from the reference standard, double-dose, single-echo protocol.
The study consisted of 23 high grade glioma patients undergoing perfusion scans to confirm suspected tumor recurrence. We sequentially acquired single dose, dual-echo and double dose, single-echo DSC-MRI data. For both protocols, we generated leakage-corrected standardized rCBV maps. Standardized rCBV (sRCBV) thresholds of 1.0 and 1.75 were used to compute single-echo FTB maps as the reference for delineating PTRE (sRCBV < 1.0), tumor with moderate angiogenesis (1.0 < sRCBV < 1.75), and tumor with high angiogenesis (sRCBV > 1.75) regions. To assess the sRCBV agreement between acquisition protocols, the concordance correlation coefficient (CCC) was computed between the mean tumor sRCBV values across the patients. A receiver operating characteristics (ROC) analysis was performed to determine the optimum dual-echo sRCBV threshold. The sensitivity, specificity, and accuracy were compared between the obtained optimized threshold (1.64) and the standard reference threshold (1.75) for the dual-echo sRCBV threshold.
The mean tumor sRCBV values across the patients showed a strong correlation (CCC = 0.96) between the two protocols. The ROC analysis showed maximum accuracy at thresholds of 1.0 (delineate PTRE from tumor) and 1.64 (differentiate aggressive tumors). The reference threshold (1.75) and the obtained optimized threshold (1.64) yielded similar accuracy, with slight differences in sensitivity and specificity which were not statistically significant (1.75 threshold: Sensitivity = 81.94%; Specificity: 87.23%; Accuracy: 84.58% and 1.64 threshold: Sensitivity = 84.48%; Specificity: 84.97%; Accuracy: 84.73%).
The optimal sRCBV threshold for single-dose, dual-echo protocol was found to be 1.0 and 1.64 for distinguishing tumor recurrence from PTRE; however, minimal differences were observed when using the standard threshold (1.75) as the upper threshold, suggesting that the standard threshold could be used for both protocols. While the prior study validated the agreement of the mean sRCBV values between the protocols, this study confirmed that their voxel-wise agreement is suitable for reliable FTB mapping. Dual-echo DSC-MRI acquisitions enable robust single-dose sRCBV and FTB mapping, provide pulse sequence parameter flexibility and should improve reproducibility by mitigating variations in preload dose and incubation time.
通过动态磁敏感对比(DSC)磁共振成像(MRI)获得的相对脑血容量(rCBV)被广泛用于区分高级别胶质瘤复发与治疗后放射效应(PTRE)。应用rCBV阈值生成图谱以区分局部肿瘤负荷和PTRE,这一生物标志物称为肿瘤负荷分数(FTB)。FTB通常使用传统的双倍剂量、单回波DSC-MRI协议进行测量;最近,一种单剂量、双回波DSC-MRI协议通过与传统的双倍剂量、单回波协议直接比较而得到临床验证。由于单剂量、双回波采集能够减少造影剂剂量并提供更大的脉冲序列参数灵活性,因此迫切需要建立基于双回波DSC-MRI的FTB图谱。在本研究中,我们确定单剂量、双回波协议的最佳标准化rCBV阈值,以生成与参考标准(双倍剂量、单回波协议)得出的图谱最匹配的FTB图谱。
本研究包括23例接受灌注扫描以确认疑似肿瘤复发的高级别胶质瘤患者。我们依次采集了单剂量、双回波和双倍剂量、单回波DSC-MRI数据。对于这两种协议,我们生成了渗漏校正的标准化rCBV图谱。使用标准化rCBV(sRCBV)阈值1.0和1.75来计算单回波FTB图谱,作为描绘PTRE(sRCBV < 1.0)、中度血管生成肿瘤(1.0 < sRCBV < 即1.75)和高度血管生成肿瘤(sRCBV > 1.75)区域的参考。为了评估采集协议之间的sRCBV一致性,计算了患者间平均肿瘤sRCBV值之间的一致性相关系数(CCC)。进行了受试者操作特征(ROC)分析以确定最佳双回波sRCBV阈值。比较了获得的优化阈值(1.64)与双回波sRCBV阈值的标准参考阈值(1.75)之间的敏感性、特异性和准确性。
患者间平均肿瘤sRCBV值在两种协议之间显示出强相关性(CCC = 0.96)。ROC分析显示在阈值1.0(区分PTRE与肿瘤)和1.64(区分侵袭性肿瘤)时准确性最高。参考阈值(1.75)和获得的优化阈值(1.64)产生了相似的准确性,敏感性和特异性略有差异,但无统计学意义(1.75阈值:敏感性 = 81即.94%;特异性:87.23%;准确性:84.58%,1.64阈值:敏感性 = 84.48%;特异性:84.97%;准确性:84.73%)。
发现单剂量、双回波协议区分肿瘤复发与PTRE的最佳sRCBV阈值为1.0和1.64;然而,使用标准阈值(1.75)作为上限阈值时观察到的差异最小,这表明标准阈值可用于两种协议。虽然先前的研究验证了协议之间平均sRCBV值的一致性,但本研究证实它们在体素水平的一致性适用于可靠的FTB图谱绘制。双回波DSC-MRI采集能够实现稳健的单剂量sRCBV和FTB图谱绘制,提供脉冲序列参数灵活性,并应通过减轻预负荷剂量和孵育时间的变化来提高可重复性。
