联合辐射损伤及其对辐射防护和生物剂量学的影响。

Combined radiation injury and its impacts on radiation countermeasures and biodosimetry.

机构信息

Radiation Combined Injury Program, Scientific Research Department, Armed Forces Radiobiology Research Institute, Uniformed Services University of the Health Sciences, Bethesda, MD, USA.

Department of Pharmacology and Molecular Therapeutics, Uniformed Services University of the Health Sciences, Bethesda, MD, USA.

出版信息

Int J Radiat Biol. 2023;99(7):1055-1065. doi: 10.1080/09553002.2023.2188933. Epub 2023 Mar 22.

DOI:10.1080/09553002.2023.2188933

PMID:36947602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10947598/

Abstract

PURPOSE

Preparedness for medical responses to major radiation accidents and the increasing threat of nuclear warfare worldwide necessitates an understanding of the complexity of combined radiation injury (CI) and identifying drugs to treat CI is inevitably critical. The vital sign and survival after CI were presented. The molecular mechanisms, such as microRNA pathways, NF-κB-iNOS-IL-18 pathway, C3 production, the AKT-MAPK cross-talk, and TLR/MMP increases, underlying CI in relation to organ injury and mortality were analyzed. At present, no FDA-approved drug to protect, mitigate, or treat CI is available. The development of CI-specific medical countermeasures was reviewed. Because of the worsened acute radiation syndrome resulting from CI, diagnostic triage can be problematic. Therefore, biodosimetry and CI are bundled together with the need to establish effective triage methods with CI.

CONCLUSIONS

CI mouse model studies at AFRRI are reviewed addressing molecular responses, findings from medical countermeasures, and a proposed plasma proteomic biodosimetry approach based on a panel of radiation-responsive biomarkers (i.e., CD27, Flt-3L, GM-CSF, CD45, IL-12, TPO) negligibly influenced by wounding in an algorithm used for dose predictions is described.

摘要

目的

为应对重大辐射事故和全球核战争威胁做好医疗应对准备，需要了解复合辐射损伤（CI）的复杂性，确定治疗 CI 的药物是至关重要的。本文提出了 CI 后的生命体征和存活率。分析了与器官损伤和死亡率相关的 CI 中涉及的分子机制，如 microRNA 途径、NF-κB-iNOS-IL-18 途径、C3 产生、AKT-MAPK 交叉对话和 TLR/MMP 增加。目前，尚无 FDA 批准的药物可用于保护、减轻或治疗 CI。本文回顾了 CI 特异性医疗对策的发展。由于 CI 导致急性辐射综合征恶化，诊断分类可能存在问题。因此，生物剂量测定和 CI 捆绑在一起，需要建立有效的分类方法与 CI。

结论

本文回顾了 AFRRI 的 CI 小鼠模型研究，涉及分子反应、医学对策研究结果，以及一种基于辐射反应生物标志物（即 CD27、Flt-3L、GM-CSF、CD45、IL-12、TPO）的血浆蛋白质组学生物剂量测定方法，该方法基于一个算法，用于剂量预测，其中辐射响应生物标志物（即 CD27、Flt-3L、GM-CSF、CD45、IL-12、TPO）对创伤的影响可以忽略不计。

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联合辐射损伤及其对辐射防护和生物剂量学的影响。

Combined radiation injury and its impacts on radiation countermeasures and biodosimetry.

机构信息

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CONCLUSIONS

目的

结论

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