Department of Cancer Systems Imaging, UT MD Anderson Cancer Center, Houston, TX, 77030, USA.
The University of Texas Health Science Center, Houston, TX, 77030, USA.
Mol Imaging Biol. 2024 Jun;26(3):448-458. doi: 10.1007/s11307-024-01925-x. Epub 2024 Jun 13.
Electron Paramagnetic Resonance Imaging (EPRI) can image the partial pressure of oxygen (pO) within in vivo tumor models. We sought to develop Oxygen Enhanced (OE) EPRI that measures tumor pO with breathing gases of 21% O (pO) and 100% O (pO), and the differences in pO between breathing gases (ΔpO). We applied OE EPRI to study the early change in tumor pathophysiology in response to radiotherapy in two tumor models of pancreatic cancer.
We developed a protocol that intraperitoneally administered OX071, a trityl radical contrast agent, and then acquired anatomical MR images to localize the tumor. Subsequently, we acquired two pO and two pO maps using the T1 relaxation time of OX071 measured with EPRI and a R-pO calibration of OX071. We studied 4T1 flank tumor model to evaluate the repeatability of OE EPRI. We then applied OE EPRI to study COLO 357 and Su.86.86 flank tumor models treated with 10 Gy radiotherapy.
The repeatability of mean pO for individual tumors was ± 2.6 Torr between successive scans when breathing 21% O or 100% O, representing a precision of 9.6%. Tumor pO and pO decreased after radiotherapy for both models, although the decreases were not significant or only moderately significant, and the effect sizes were modest. For comparison, ΔpO showed a large, highly significant decrease after radiotherapy, and the effect size was large. MANOVA and analyses of the HF10 hypoxia fraction provided similar results.
EPRI can evaluate tumor pO with outstanding precision relative to other imaging modalities. The change in ΔpO before vs. after treatment was the best parameter for measuring the early change in tumor pathophysiology in response to radiotherapy. Our studies have established ΔpO from OE EPRI as a new parameter, and have established that OE EPRI is a valuable new methodology for molecular imaging.
电子顺磁共振成像(EPRI)可对活体肿瘤模型中的氧分压(pO)进行成像。我们试图开发一种氧增强(OE)EPRI,它可以使用 21% O(pO)和 100% O(pO)的呼吸气体以及呼吸气体之间的 pO 差异(ΔpO)来测量肿瘤 pO。我们应用 OE EPRI 研究了两种胰腺癌肿瘤模型中放射治疗引起的肿瘤病理生理学的早期变化。
我们开发了一种方案,即腹腔内给予 OX071(一种三苯基自由基对比剂),然后获取解剖学磁共振图像以定位肿瘤。随后,我们使用 EPRI 测量的 OX071 的 T1 弛豫时间和 OX071 的 R-pO 校准来获取两个 pO 和两个 pO 图。我们研究了 4T1 侧腹肿瘤模型,以评估 OE EPRI 的可重复性。然后,我们将 OE EPRI 应用于 COLO 357 和 Su.86.86 侧腹肿瘤模型,对其进行 10 Gy 放射治疗。
当呼吸 21% O 或 100% O 时,个体肿瘤的平均 pO 在连续扫描之间的重复性为±2.6 Torr,代表精度为 9.6%。两种模型的肿瘤 pO 和 pO 在放射治疗后均下降,尽管下降不显著或仅中度显著,且效应大小适中。相比之下,ΔpO 在放射治疗后显示出显著的大幅下降,效应大小较大。多变量方差分析和 HF10 缺氧分数分析提供了类似的结果。
EPRI 可以相对于其他成像方式以出色的精度评估肿瘤 pO。治疗前后ΔpO 的变化是测量放射治疗引起的肿瘤病理生理学早期变化的最佳参数。我们的研究将 OE EPRI 中的ΔpO 确立为一个新的参数,并证实 OE EPRI 是一种有价值的分子成像新方法。
