VIM model: a novel model to depict the spatial heterogeneity of the radiation microenvironment
Yinan Sun, Ying Bi, Xiaohui Wang, Shunfang Liu, Lu Wang

TL;DR
This paper introduces a new model to understand how radiation affects different parts of the body's microenvironment, focusing on vascular, inflammatory, and metabolic changes.
Contribution
The paper introduces the VIM model, a novel framework for depicting spatial heterogeneity in the radiation microenvironment.
Findings
The radiation microenvironment is categorized into vascular, inflammatory, and metabolic components.
The VIM model provides a theoretical basis for predicting molecular targets and assessing radiation damage.
Radiation-induced liver injury was used as a template to illustrate the VIM model.
Abstract
Radiation-induced disease (RID) is the most important factor limiting the radiotherapy dose for malignant tumors, especially for patients with organ insufficiency or chronic inflammation. In this paper, it studied the changes in the microenvironment after radiation exposure from the perspectives of molecular biology, cell biology and histopathology, and first proposed a novel model of the radiation microenvironment to depict radiation-induced spatial heterogeneity. The radiation microenvironment was divided into the VIM model: vascular microenvironment, inflammatory microenvironment, and metabolic microenvironment according to the special cell functions, molecular expressions and pathological structures after radiation. The structural functions of each microenvironment were explored to provide the new theoretical basis for molecular target prediction, radiation damage assessment,…
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Taxonomy
TopicsMathematical Biology Tumor Growth
