神经认知功能与脆弱性脑结构的平均放射剂量：新的危险器官？

Neurocognition and mean radiotherapy dose to vulnerable brain structures: new organs at risk?

机构信息

Department of Women's and Children's Health, Uppsala University, Uppsala, Sweden.

Department of Hematology and Oncology, Uppsala University Hospital, Uppsala, Sweden.

出版信息

Radiat Oncol. 2023 Aug 11;18(1):132. doi: 10.1186/s13014-023-02324-2.

DOI:10.1186/s13014-023-02324-2

PMID:37568180

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10416465/

Abstract

BACKGROUND

Children with brain tumors are at high risk of neurocognitive decline after radiotherapy (RT). However, there is a lack of studies on how RT doses to organs at risk (OARs) impacts neurocognition. The aim of this study was to examine dose-risk relationships for mean RT dose to different brain structures important for neurocognitive networks. We explored previously established OARs and potentially new OARs.

METHODS

A sample of 44 pediatric brain tumor survivors who had received proton and/or photon RT were included. Correlations between mean RT doses to OARs and IQ were analyzed. Previously established OARs were cochleae, optic chiasm, optic nerve, pituitary gland, hypothalamus, hippocampus and pons. Potential new OARs for RT-induced neurocognitive decline were cerebellum, vermis and thalamus.

RESULTS

Mean RT dose to different OARs correlated with several IQ subtests. Higher mean RT dose to cochleae, optic nerve, cerebellum, vermis and pons was correlated with lower performance on particularly full-scale IQ (FIQ), Perceptual Reasoning (PRI), Working Memory (WMI) and Processing Speed Index (PSI). Higher mean RT dose to hippocampus correlated with lower performance on processing speed and working memory. For those receiving whole brain RT (WBRT), higher mean RT dose to the pituitary gland correlated with lower performance on working memory.

CONCLUSION

A high dose-risk correlation was found between IQ subtests and mean RT dose in established and potential new OARs. Thus, in the lack of validated dose constraints for vulnerable brain structures, a parsimonious approach in RT planning should be considered to preserve neurocognitive networks.

摘要

背景

儿童脑瘤患者在接受放射治疗（RT）后发生神经认知能力下降的风险较高。然而，目前缺乏关于危及器官（OAR）的 RT 剂量如何影响神经认知的研究。本研究旨在研究不同对神经认知网络重要的脑结构的平均 RT 剂量的剂量-风险关系。我们探讨了以前确定的 OAR 和潜在的新 OAR。

方法

纳入了 44 名接受质子和/或光子 RT 的儿童脑瘤幸存者样本。分析了 OAR 与 IQ 之间的平均 RT 剂量相关性。以前确定的 OAR 包括耳蜗、视交叉、视神经、垂体、下丘脑、海马体和脑桥。小脑、蚓部和丘脑是 RT 诱导神经认知下降的潜在新 OAR。

结果

不同 OAR 的平均 RT 剂量与多个 IQ 子测试相关。耳蜗、视神经、小脑、蚓部和脑桥的平均 RT 剂量越高，全智商（FIQ）、知觉推理（PRI）、工作记忆（WMI）和处理速度指数（PSI）的表现越低。海马体的平均 RT 剂量越高，与处理速度和工作记忆的表现越低相关。对于接受全脑 RT（WBRT）的患者，垂体的平均 RT 剂量越高，工作记忆的表现越低。

结论

在已确定的 OAR 和潜在的新 OAR 中，IQ 子测试与平均 RT 剂量之间存在高度剂量-风险相关性。因此，在缺乏对脆弱脑结构的验证剂量限制的情况下，应考虑在 RT 计划中采用简洁的方法来保护神经认知网络。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9814/10416465/6343c3def8cb/13014_2023_2324_Fig1_HTML.jpg

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神经认知功能与脆弱性脑结构的平均放射剂量：新的危险器官？

Neurocognition and mean radiotherapy dose to vulnerable brain structures: new organs at risk?

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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