Research output: Contribution to journal › Article › peer-review
Prototype of Implant for Nitric Oxide Release Controlled by Infrared Radiation in Therapeutic Window. / Virts, Natalia A.; Karogodina, Tatyana Yu; Panfilov, Mikhail A. et al.
In: Journal of Biophotonics, 25.12.2024.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Prototype of Implant for Nitric Oxide Release Controlled by Infrared Radiation in Therapeutic Window
AU - Virts, Natalia A.
AU - Karogodina, Tatyana Yu
AU - Panfilov, Mikhail A.
AU - Vorob'ev, Alexey Yu
AU - Moskalensky, Alexander E.
N1 - Финансирование: Russian Science Foundation RSF Ministry of Education and Science of the Russian Federation FSUS‐2020‐0039
PY - 2024/12/25
Y1 - 2024/12/25
N2 - Local therapeutic action and targeted drug release are promising approaches compared to traditional systemic drug administration. This is especially relevant for nitric oxide (NO), as its effects change dramatically depending on concentration and cellular context. Materials capable of releasing NO in deep tissues in a controlled manner might open new therapeutic opportunities. Light-sensitive NO donors represent a fascinating class of compounds with significant potential for precise and controlled NO release. However, most of them are sensitive to visible light, with only a few examples absorbing in a near-infrared therapeutic window. Here, we present the proof-of-concept of soft implants consisting of the photon upconverting core and the outer shell loaded with visible-light triggered NO donor. The separation into two compartments results in efficient energy harvesting by the dye and effective NO release under 980 nm infrared irradiation. Such implants could be used in smart therapies implying well-controlled and localized NO release.
AB - Local therapeutic action and targeted drug release are promising approaches compared to traditional systemic drug administration. This is especially relevant for nitric oxide (NO), as its effects change dramatically depending on concentration and cellular context. Materials capable of releasing NO in deep tissues in a controlled manner might open new therapeutic opportunities. Light-sensitive NO donors represent a fascinating class of compounds with significant potential for precise and controlled NO release. However, most of them are sensitive to visible light, with only a few examples absorbing in a near-infrared therapeutic window. Here, we present the proof-of-concept of soft implants consisting of the photon upconverting core and the outer shell loaded with visible-light triggered NO donor. The separation into two compartments results in efficient energy harvesting by the dye and effective NO release under 980 nm infrared irradiation. Such implants could be used in smart therapies implying well-controlled and localized NO release.
KW - nitric oxide
KW - photon upconversion
KW - photopharmacology
KW - Scopus
KW - nitric oxide
KW - photon upconversion
KW - photopharmacology
UR - https://www.mendeley.com/catalogue/11a63a89-904d-33f9-8204-e13b0e0d7776/
UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85212944037&origin=inward&txGid=45c7b58539f9e6a1d6aa2f1939169bb6
U2 - 10.1002/jbio.202400455
DO - 10.1002/jbio.202400455
M3 - Article
JO - Journal of Biophotonics
JF - Journal of Biophotonics
SN - 1864-063X
M1 - Е202400455
ER -
ID: 61406452