Inversion-recovery ultrashort-echo-time (IR-UTE) MRI-based detection of radiation dose heterogeneity in gynecologic cancer patients treated with HDR brachytherapy.

IF 3.3 2区医学 Q2 ONCOLOGY Radiation Oncology Pub Date : 2024-08-06 DOI:10.1186/s13014-024-02499-2

Khadija Sheikh, Bruce L Daniel, Michael Roumeliotis, Junghoon Lee, William T Hrinivich, Thomas Benkert, Himanshu Bhat, Ravi T Seethamraju, Akila N Viswanathan, Ehud J Schmidt

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Abstract

Purpose: To evaluate the relationship between delivered radiation (RT) and post-RT inversion-recovery ultrashort-echo-time (IR-UTE) MRI signal-intensity (SI) in gynecologic cancer patients treated with high-dose-rate (HDR) brachytherapy (BT).

Methods: Seven patients underwent whole-pelvis RT (WPRT) followed by BT to the high-risk clinical target volume (HR-CTV). MR images were acquired at three time-points; pre-RT, post-WPRT/pre-BT, and 3-6 months post-BT. Diffuse-fibrosis (F_Diffuse) was imaged with a non-contrast dual-echo IR (inversion time [TI] = 60 ms) UTE research application, with image-subtraction of the later echo, only retaining the ultrashort-echo SI. Dense-fibrosis (F_Dense) imaging utilized single-echo Late-Gadolinium-Enhanced IR-UTE, acquired ∼ 15 min post-Gadavist injection. Resulting F_Diffuse and F_Dense SI were normalized to the corresponding gluteal-muscle SI. Images were deformably registered between time-points based on normal tissue anatomy. The remnant tumor at both time-points was segmented using multi-parametric MRI. Contours corresponding to the 50%, 100%, 150%, and 200% isodose lines (IDLs) of the prescription BT-dose were created. Mean F_Diffuse and F_Dense SI within (i) each IDL contour and (ii) the remnant tumor were calculated. Post-BT F_Diffuse and F_Dense SI were correlated with prescribed BT-dose. To determine the relationship between BT-dose and IR-UTE SI, the differences in the post-BT F_Dense across IDLs was determined using paired t-tests with Bonferroni correction.

Results: F_Dense was higher in regions of higher dose for 6/7 patients, with mean ± SD values of 357 ± 103% and 331 ± 97% (p = .03) in the 100% and 50% IDL, respectively. F_Dense was higher in regions of higher dose in the responsive regions with mean ± SD values of 380 ± 122% and 356 ± 135% (p = .03) in the 150% and 50% IDL, respectively. Within the segmented remnant tumor, an increase in prescribed dose correlated with an increase in F_Dense post-BT (n = 5, r = .89, p = .04). Post-BT F_Diffuse inversely correlated (n = 7, r = -.83, p = .02) with prescribed BT-dose within the 100% IDL.

Conclusions: Results suggest that F_Dense SI 3-6 months post-BT is a sensitive measure of tissue response to heterogeneous BT radiation-dose. Future studies will validate whether F_Diffuse and F_Dense are accurate biomarkers of fibrotic radiation response.

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基于反相恢复超短波回波时间（IR-UTE）磁共振成像检测接受 HDR 近距离放射治疗的妇科癌症患者的放射剂量异质性。

目的：评估接受高剂量率近距离放射治疗（HDR）的妇科癌症患者的放射线（RT）与RT后反转恢复超回波时间（IR-UTE）MRI信号强度（SI）之间的关系：七名患者接受了全骨盆 RT（WPRT）治疗，随后在高风险临床靶区（HR-CTV）进行了 BT 治疗。在三个时间点采集了 MR 图像：RT 前、WPRT 后/BT 前和 BT 后 3-6 个月。弥漫性纤维化（FDiffuse）采用非对比双回波 IR（反转时间 [TI] = 60 ms）UTE 研究应用成像，对后一回波进行图像减影，仅保留超短回波 SI。致密纤维化（FDense）成像采用单回波晚期钆增强 IR-UTE，在注射加达维斯特后 15 分钟采集。结果显示的 FDiffuse 和 FDense SI 与相应的臀肌 SI 一致。根据正常组织的解剖结构，在时间点之间对图像进行变形注册。使用多参数 MRI 对两个时间点的残余肿瘤进行分割。创建了与处方 BT 剂量的 50%、100%、150% 和 200% 等剂量线 (IDL) 相对应的等值线。计算(i)每个 IDL 等值线和(ii)残余肿瘤内的平均 FDiffuse 和 FDense SI。BT 后 FDiffuse 和 FDense SI 与处方 BT 剂量相关。为了确定 BT 剂量和 IR-UTE SI 之间的关系，使用配对 t 检验和 Bonferroni 校正确定了 BT 后 FDense 在不同 IDL 之间的差异：结果：6/7 例患者的 FDense 在剂量较高的区域较高，100% 和 50% IDL 的平均值（± SD）分别为 357 ± 103% 和 331 ± 97% (p = .03)。在有反应的区域，较高剂量区域的 FDense 较高，150% 和 50% IDL 的平均值（± SD）分别为 380 ± 122% 和 356 ± 135% (p = .03)。在分段残余肿瘤内，处方剂量的增加与 BT 后 FDense 的增加相关（n = 5，r = .89，p = .04）。在100% IDL内，BT后FDiffuse与BT处方剂量成反比（n = 7，r = -.83，p = .02）：结果表明，BT 后 3-6 个月的 FDense SI 是衡量组织对异质 BT 放射剂量反应的敏感指标。未来的研究将验证 FDiffuse 和 FDense 是否是纤维化辐射反应的准确生物标记。

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来源期刊

Radiation Oncology ONCOLOGY-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

6.50

自引率

2.80%

发文量

181

审稿时长

3-6 weeks

期刊介绍： Radiation Oncology encompasses all aspects of research that impacts on the treatment of cancer using radiation. It publishes findings in molecular and cellular radiation biology, radiation physics, radiation technology, and clinical oncology.