Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine
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...
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| Published in: | Advanced science Vol. 6; no. 22; pp. 1901724 - n/a |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
Hoboken
John Wiley and Sons Inc
01.11.2019
Wiley |
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| ISSN: | 2198-3844, 2198-3844 |
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| 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.
H2S‐specific nanoagents are of vital importance in detecting endogenous and exogenous H2S gas. The recent developments of these smart H2S‐triggered/therapeutic systems (SHTSs) are summarized. Additionally, the challenge faced, and the principals involved, are further discussed for future H2S‐nanoprobe designs. |
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| AbstractList | 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.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. 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. H2S‐specific nanoagents are of vital importance in detecting endogenous and exogenous H2S gas. The recent developments of these smart H2S‐triggered/therapeutic systems (SHTSs) are summarized. Additionally, the challenge faced, and the principals involved, are further discussed for future H2S‐nanoprobe designs. 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. H2S‐specific nanoagents are of vital importance in detecting endogenous and exogenous H2S gas. The recent developments of these smart H2S‐triggered/therapeutic systems (SHTSs) are summarized. Additionally, the challenge faced, and the principals involved, are further discussed for future H2S‐nanoprobe designs. 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. |
| Author | Rosenkrans, Zachary T. Ni, Dalong Cao, Tianye Cai, Weibo Chen, Weiyu |
| AuthorAffiliation | 2 Department of Pharmaceutical Sciences University of Wisconsin‐Madison Madison WI 53705 USA 1 Departments of Radiology and Medical Physics University of Wisconsin‐Madison Madison WI 53705 USA |
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| Author_xml | – sequence: 1 givenname: Weiyu surname: Chen fullname: Chen, Weiyu organization: University of Wisconsin‐Madison – sequence: 2 givenname: Dalong surname: Ni fullname: Ni, Dalong email: dni2@wisc.edu organization: University of Wisconsin‐Madison – sequence: 3 givenname: Zachary T. surname: Rosenkrans fullname: Rosenkrans, Zachary T. organization: University of Wisconsin‐Madison – sequence: 4 givenname: Tianye surname: Cao fullname: Cao, Tianye organization: University of Wisconsin‐Madison – sequence: 5 givenname: Weibo orcidid: 0000-0003-4641-0833 surname: Cai fullname: Cai, Weibo email: wcai@uwhealth.org organization: University of Wisconsin‐Madison |
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| Snippet | Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S‐specific detection and monitoring is... Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S-specific detection and monitoring is... Abstract Hydrogen sulfide (H2S) is of vital importance in several biological and physical processes. The significance of H2S‐specific detection and monitoring... |
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| SubjectTerms | gas delivery H2S‐specific detection H2S‐triggered therapy hydrogen sulfide novel nanoplatforms Review Reviews |
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| Title | Smart H2S‐Triggered/Therapeutic System (SHTS)‐Based Nanomedicine |
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