Department of Radiation Oncology, UMC Utrecht, 3584 CX Utrecht, The Netherlands.
Department of Radiation Oncology, UMC Utrecht, 3584 CX Utrecht, The Netherlands; Department of Medical Oncology, UMC Utrecht, 3584 CX Utrecht, The Netherlands.
Radiother Oncol. 2022 Oct;175:18-25. doi: 10.1016/j.radonc.2022.08.002. Epub 2022 Aug 10.
Changes of healthy appearing brain tissue after radiotherapy (RT) have been previously observed. Patients undergoing RT may have a higher risk of cognitive decline, leading to a reduced quality of life. The experienced tissue atrophy is similar to the effects of normal aging in healthy individuals. We propose a new way to quantify tissue changes after cranial RT as accelerated brain aging using the BrainAGE framework.
BrainAGE was applied to longitudinal MRI scans of 32 glioma patients. Utilizing a pre-trained deep learning model, brain age is estimated for all patients' pre-radiotherapy planning and follow-up MRI scans to acquire a quantification of the changes occurring in the brain over time. Saliency maps were extracted from the model to spatially identify which areas of the brain the deep learning model weighs highest for predicting age. The predicted ages from the deep learning model were used in a linear mixed effects model to quantify aging of patients after RT.
The linear mixed effects model resulted in an accelerated aging rate of 2.78 years/year, a significant increase over a normal aging rate of 1 (p < 0.05, confidence interval = 2.54-3.02). Furthermore, the saliency maps showed numerous anatomically well-defined areas, e.g.: Heschl's gyrus among others, determined by the model as important for brain age prediction.
We found that patients undergoing RT are affected by significant post-radiation accelerated aging, with several anatomically well-defined areas contributing to this aging. The estimated brain age could provide a method for quantifying quality of life post-radiotherapy.
先前已经观察到放疗(RT)后健康脑组织的变化。接受 RT 的患者可能有更高的认知能力下降风险,导致生活质量降低。所经历的组织萎缩类似于健康个体正常衰老的影响。我们提出了一种使用 BrainAGE 框架量化颅部 RT 后组织变化的新方法,即加速脑老化。
将 BrainAGE 应用于 32 例胶质瘤患者的纵向 MRI 扫描。利用预先训练的深度学习模型,对所有患者的放疗前计划和随访 MRI 扫描进行脑龄估计,以获得大脑随时间变化的定量分析。从模型中提取显著图,以空间方式识别深度学习模型对预测年龄最重要的大脑区域。将深度学习模型的预测年龄用于线性混合效应模型,以量化 RT 后患者的老化情况。
线性混合效应模型得出的加速老化率为 2.78 年/年,明显高于正常老化率 1(p<0.05,置信区间为 2.54-3.02)。此外,显著图显示了许多解剖学上定义明确的区域,例如:模型确定对脑龄预测很重要的 Heschl 回等。
我们发现接受 RT 的患者受到显著的放射后加速老化的影响,有几个解剖学上定义明确的区域对此老化有贡献。估计的脑龄可以提供一种量化放疗后生活质量的方法。
