A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy

Tumor hypoxia is a major limitation in radiotherapy, and strategies to address this often fail due to high oxygen consumption. Here, the authors report a nanomaterial assembly for the simultaneous reduction in mitochondrial respiration and to supply oxygen to potentiate radiotherapy.

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Autores principales: Wei Tang, Zhen Yang, Liangcan He, Liming Deng, Parinaz Fathi, Shoujun Zhu, Ling Li, Bo Shen, Zhantong Wang, Orit Jacobson, Jibin Song, Jianhua Zou, Ping Hu, Min Wang, Jing Mu, Yaya Cheng, Yuanyuan Ma, Longguang Tang, Wenpei Fan, Xiaoyuan Chen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/1c58c1e0a770416a88be21da7c575243
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spelling oai:doaj.org-article:1c58c1e0a770416a88be21da7c5752432021-12-02T13:51:14ZA hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy10.1038/s41467-020-20860-32041-1723https://doaj.org/article/1c58c1e0a770416a88be21da7c5752432021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-20860-3https://doaj.org/toc/2041-1723Tumor hypoxia is a major limitation in radiotherapy, and strategies to address this often fail due to high oxygen consumption. Here, the authors report a nanomaterial assembly for the simultaneous reduction in mitochondrial respiration and to supply oxygen to potentiate radiotherapy.Wei TangZhen YangLiangcan HeLiming DengParinaz FathiShoujun ZhuLing LiBo ShenZhantong WangOrit JacobsonJibin SongJianhua ZouPing HuMin WangJing MuYaya ChengYuanyuan MaLongguang TangWenpei FanXiaoyuan ChenNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-15 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Wei Tang
Zhen Yang
Liangcan He
Liming Deng
Parinaz Fathi
Shoujun Zhu
Ling Li
Bo Shen
Zhantong Wang
Orit Jacobson
Jibin Song
Jianhua Zou
Ping Hu
Min Wang
Jing Mu
Yaya Cheng
Yuanyuan Ma
Longguang Tang
Wenpei Fan
Xiaoyuan Chen
A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
description Tumor hypoxia is a major limitation in radiotherapy, and strategies to address this often fail due to high oxygen consumption. Here, the authors report a nanomaterial assembly for the simultaneous reduction in mitochondrial respiration and to supply oxygen to potentiate radiotherapy.
format article
author Wei Tang
Zhen Yang
Liangcan He
Liming Deng
Parinaz Fathi
Shoujun Zhu
Ling Li
Bo Shen
Zhantong Wang
Orit Jacobson
Jibin Song
Jianhua Zou
Ping Hu
Min Wang
Jing Mu
Yaya Cheng
Yuanyuan Ma
Longguang Tang
Wenpei Fan
Xiaoyuan Chen
author_facet Wei Tang
Zhen Yang
Liangcan He
Liming Deng
Parinaz Fathi
Shoujun Zhu
Ling Li
Bo Shen
Zhantong Wang
Orit Jacobson
Jibin Song
Jianhua Zou
Ping Hu
Min Wang
Jing Mu
Yaya Cheng
Yuanyuan Ma
Longguang Tang
Wenpei Fan
Xiaoyuan Chen
author_sort Wei Tang
title A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
title_short A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
title_full A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
title_fullStr A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
title_full_unstemmed A hybrid semiconducting organosilica-based O2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
title_sort hybrid semiconducting organosilica-based o2 nanoeconomizer for on-demand synergistic photothermally boosted radiotherapy
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/1c58c1e0a770416a88be21da7c575243
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