Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine

Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine

Abstract Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S‐specific detection and monitoring is emphasized by its elevated levels in various diseases such as cancer. Nanotechnology enhances the performance of chemical sensing nanoprob...

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Main Authors: Weiyu Chen, Dalong Ni, Zachary T. Rosenkrans, Tianye Cao, Weibo Cai
Format: Article
Language:English
Published: Wiley 2019-11-01
Series:Advanced Science
Subjects:
gas delivery
H2S‐specific detection
H2S‐triggered therapy
hydrogen sulfide
novel nanoplatforms
Online Access:https://doi.org/10.1002/advs.201901724
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spelling doaj-ac4d20c01f9348cb85139c3422866fac2020-11-25T02:21:30ZengWileyAdvanced Science2198-38442019-11-01622n/an/a10.1002/advs.201901724Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based NanomedicineWeiyu Chen0Dalong Ni1Zachary T. Rosenkrans2Tianye Cao3Weibo Cai4Departments of Radiology and Medical Physics University of Wisconsin‐Madison Madison WI 53705 USADepartments of Radiology and Medical Physics University of Wisconsin‐Madison Madison WI 53705 USADepartment of Pharmaceutical Sciences University of Wisconsin‐Madison Madison WI 53705 USADepartments of Radiology and Medical Physics University of Wisconsin‐Madison Madison WI 53705 USADepartments of Radiology and Medical Physics University of Wisconsin‐Madison Madison WI 53705 USAAbstract Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S‐specific detection and monitoring is emphasized by its elevated levels in various diseases such as cancer. Nanotechnology enhances the performance of chemical sensing nanoprobes due to the enhanced efficiency and sensitivity. Recently, extensive research efforts have been dedicated to developing novel smart H2S‐triggered/therapeutic system (SHTS) nanoplatforms for H2S‐activated sensing, imaging, and therapy. Herein, the latest SHTS‐based nanomaterials are summarized and discussed in detail. In addition, therapeutic strategies mediated by endogenous H2S as a trigger or exogenous H2S delivery are also included. A comprehensive understanding of the current status of SHTS‐based strategies will greatly facilitate innovation in this field. Lastly, the challenges and key issues related to the design and development of SHTS‐based nanomaterials (e.g., morphology, surface modification, therapeutic strategies, appropriate application, and selection of nanomaterials) are outlined.https://doi.org/10.1002/advs.201901724gas deliveryH2S‐specific detectionH2S‐triggered therapyhydrogen sulfidenovel nanoplatforms
collection DOAJ
language English
format Article
sources DOAJ
author Weiyu Chen
Dalong Ni
Zachary T. Rosenkrans
Tianye Cao
Weibo Cai
spellingShingle Weiyu Chen
Dalong Ni
Zachary T. Rosenkrans
Tianye Cao
Weibo Cai
Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
Advanced Science
gas delivery
H2S‐specific detection
H2S‐triggered therapy
hydrogen sulfide
novel nanoplatforms
author_facet Weiyu Chen
Dalong Ni
Zachary T. Rosenkrans
Tianye Cao
Weibo Cai
author_sort Weiyu Chen
title Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
title_short Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
title_full Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
title_fullStr Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
title_full_unstemmed Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
title_sort smart h2s‐triggered/therapeutic system (shts)‐based nanomedicine
publisher Wiley
series Advanced Science
issn 2198-3844
publishDate 2019-11-01
description Abstract Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S‐specific detection and monitoring is emphasized by its elevated levels in various diseases such as cancer. Nanotechnology enhances the performance of chemical sensing nanoprobes due to the enhanced efficiency and sensitivity. Recently, extensive research efforts have been dedicated to developing novel smart H2S‐triggered/therapeutic system (SHTS) nanoplatforms for H2S‐activated sensing, imaging, and therapy. Herein, the latest SHTS‐based nanomaterials are summarized and discussed in detail. In addition, therapeutic strategies mediated by endogenous H2S as a trigger or exogenous H2S delivery are also included. A comprehensive understanding of the current status of SHTS‐based strategies will greatly facilitate innovation in this field. Lastly, the challenges and key issues related to the design and development of SHTS‐based nanomaterials (e.g., morphology, surface modification, therapeutic strategies, appropriate application, and selection of nanomaterials) are outlined.
topic gas delivery
H2S‐specific detection
H2S‐triggered therapy
hydrogen sulfide
novel nanoplatforms
url https://doi.org/10.1002/advs.201901724
work_keys_str_mv AT weiyuchen smarth2striggeredtherapeuticsystemshtsbasednanomedicine
AT dalongni smarth2striggeredtherapeuticsystemshtsbasednanomedicine
AT zacharytrosenkrans smarth2striggeredtherapeuticsystemshtsbasednanomedicine
AT tianyecao smarth2striggeredtherapeuticsystemshtsbasednanomedicine
AT weibocai smarth2striggeredtherapeuticsystemshtsbasednanomedicine
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