In vivo redox imaging of plasma-induced skin-inflammation in mice

npj Imaging Pub Date : 2024-08-02 DOI:10.1038/s44303-024-00029-z

Yassien Badr, Abdelazim Elsayed Elhelaly, Fuminori Hyodo, Koki Ichihashi, Hiroyuki Tomita, Yoshifumi Noda, Hiroki Kato, Masayuki Matsuo

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Abstract

Cold atmospheric plasma (CAP) generates reactive oxygen species (ROS) which induce biological effects on living cells. CAP has potential applications in medicine, but its highly reactive nature can lead to adverse skin complications. A noninvasive technique to examine redox changes in skin is needed for monitoring the treatment process. This study was conducted to develop a skin-inflammation model triggered by CAP-derived ROS and to monitor its progression noninvasively by in vivo dynamic nuclear polarization-MRI (DNP-MRI). The model was successfully developed by exposing the skin to both direct and remote modes of CAP. In vivo DNP-MRI imaging revealed faster reduction rates of TEMPOL in plasma-irradiated skin-inflammation areas, particularly in the remote mode plasma-irradiated skin. MRI revealed high-intensity areas in both the superficial and deep layers of the plasma-irradiated skin. The study highlights the potential importance of DNP-MRI in imaging skin-inflammation models and could improve the use of CAP in medical treatments.

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血浆诱发小鼠皮肤炎症的体内氧化还原成像

冷大气等离子体（CAP）会产生活性氧（ROS），从而对活细胞产生生物效应。CAP 具有潜在的医学应用价值，但其高反应性可能会导致不良的皮肤并发症。需要一种非侵入性技术来检测皮肤的氧化还原变化，以监测治疗过程。本研究旨在开发一种由 CAP 衍生的 ROS 引发的皮肤炎症模型，并通过体内动态核偏振-MRI（DNP-MRI）对其进展进行无创监测。通过将皮肤暴露于 CAP 的直接模式和远程模式，成功建立了该模型。活体 DNP-MRI 成像显示，在等离子照射的皮肤炎症区域，TEMPOL 的减少速度更快，尤其是在远程模式等离子照射的皮肤中。核磁共振成像显示，等离子辐照皮肤的表层和深层都有高强度区域。这项研究强调了 DNP-MRI 在皮肤炎症模型成像中的潜在重要性，并可改善 CAP 在医学治疗中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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npj Imaging

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