SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3026174611> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W3026174611 abstract "Injectable therapeutical formulations locally releasing their cargo with tunable kinetics in response to external biochemical/physical cues are gaining interest in the scientific community, with the aim to overcome the cons of traditional administration routes. In this work, we proposed an alternative solution to this challenging goal by combining thermo-sensitive hydrogels based on custom-made amphiphilic poly(ether urethane)s (PEUs) and mesoporous silica nanoparticles coated with a self-immolative polymer sensitive to acid pH (MSN-CS-SIP). By exploiting PEU chemical versatility, Boc-protected amino groups were introduced as PEU building block (PEU-Boc), which were then subjected to a deprotection reaction to expose pendant primary amines along the polymer backbone (PEU-NH2, 3E+18 NH2/gPEU-NH2) with the aim to accelerate system response to external acid pH environment. Then, thermo-sensitive hydrogels were designed (15% w/v) showing fast gelation in physiological conditions (approx. 5 minutes), while no significant changes in gelation temperature and kinetics were induced by the Boc-deprotection. Conversely, free amines in PEU-NH2 effectively enhanced and accelerated acid pH transfer (pH 5) through hydrogel thickness (PEU-Boc and PEU-NH2 gels covered approx. 42 and 52 % of the pH delta between their initial pH and the pH of the surrounding buffer within 30 minute incubation, respectively). MSN-CS-SIP carrying a fluorescent cargo as model drug (MSN-CS-SIP-Ru) were then encapsulated within the hydrogels with no significant effects on their thermo-sensitivity. Injectability and in situ gelation at 37 °C were demonstrated ex-vivo through sub-cutaneous injection in rodents. Moreover, MSN-CS-SIP-Ru-loaded gels turned out to be detectable through the skin by IVIS imaging. Cargo acid pH-triggered delivery from PEU-Boc and PEU-NH2 gels was finally demonstrated through drug release tests in neutral and acid pH environments (in acid pH environment approx. 2-fold higher cargo release). Additionally, acid-triggered payload release from PEU-NH2 gels was significantly higher compared to PEU-Boc systems at 3 and 4 days incubation. The herein designed hybrid injectable formulations could thus represent a significant step forward in the development of multi-stimuli sensitive drug carriers. Indeed, being able to adapt their behavior in response to biochemical cues from the surrounding physio-pathological environment, these formulations can effectively trigger the release of their payload according to therapeutic needs." @default.
W3026174611 created "2020-05-29" @default.
W3026174611 creator A5005600174 @default.
W3026174611 creator A5008263097 @default.
W3026174611 creator A5023113614 @default.
W3026174611 creator A5037937906 @default.
W3026174611 creator A5041672765 @default.
W3026174611 creator A5042112543 @default.
W3026174611 creator A5053696973 @default.
W3026174611 creator A5055877824 @default.
W3026174611 creator A5060313951 @default.
W3026174611 creator A5062357921 @default.
W3026174611 creator A5069236094 @default.
W3026174611 creator A5087468058 @default.
W3026174611 date "2020-05-19" @default.
W3026174611 modified "2023-10-16" @default.
W3026174611 title "Hybrid Injectable Sol-Gel Systems Based on Thermo-Sensitive Polyurethane Hydrogels Carrying pH-Sensitive Mesoporous Silica Nanoparticles for the Controlled and Triggered Release of Therapeutic Agents" @default.
W3026174611 cites W1964900045 @default.
W3026174611 cites W1968516916 @default.
W3026174611 cites W1970273967 @default.
W3026174611 cites W1976277820 @default.
W3026174611 cites W1981696575 @default.
W3026174611 cites W2004766135 @default.
W3026174611 cites W2006866730 @default.
W3026174611 cites W2018818236 @default.
W3026174611 cites W2018838591 @default.
W3026174611 cites W2020558577 @default.
W3026174611 cites W2024306244 @default.
W3026174611 cites W2025857105 @default.
W3026174611 cites W2067882794 @default.
W3026174611 cites W2075678951 @default.
W3026174611 cites W2094910284 @default.
W3026174611 cites W2119748365 @default.
W3026174611 cites W2121937470 @default.
W3026174611 cites W2138699545 @default.
W3026174611 cites W2263434933 @default.
W3026174611 cites W2281740023 @default.
W3026174611 cites W2282993976 @default.
W3026174611 cites W2288119981 @default.
W3026174611 cites W2323137482 @default.
W3026174611 cites W2560798902 @default.
W3026174611 cites W2565621090 @default.
W3026174611 cites W2595595356 @default.
W3026174611 cites W2749801601 @default.
W3026174611 cites W2752914264 @default.
W3026174611 cites W2781779625 @default.
W3026174611 cites W2783843312 @default.
W3026174611 cites W2791845263 @default.
W3026174611 cites W2810463030 @default.
W3026174611 cites W2885814196 @default.
W3026174611 cites W2897999456 @default.
W3026174611 cites W2899779468 @default.
W3026174611 cites W2903094674 @default.
W3026174611 cites W2910942945 @default.
W3026174611 cites W2914434535 @default.
W3026174611 cites W2940673428 @default.
W3026174611 cites W2943824126 @default.
W3026174611 cites W2964605829 @default.
W3026174611 cites W2966963881 @default.
W3026174611 cites W2967069330 @default.
W3026174611 cites W2968509044 @default.
W3026174611 cites W2969299626 @default.
W3026174611 cites W2971117368 @default.
W3026174611 cites W2971651667 @default.
W3026174611 cites W2975380283 @default.
W3026174611 cites W2987858928 @default.
W3026174611 cites W2995349715 @default.
W3026174611 cites W4239707335 @default.
W3026174611 doi "https://doi.org/10.3389/fbioe.2020.00384" @default.
W3026174611 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7248334" @default.
W3026174611 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32509740" @default.
W3026174611 hasPublicationYear "2020" @default.
W3026174611 type Work @default.
W3026174611 sameAs 3026174611 @default.
W3026174611 citedByCount "16" @default.
W3026174611 countsByYear W30261746112020 @default.
W3026174611 countsByYear W30261746112021 @default.
W3026174611 countsByYear W30261746112022 @default.
W3026174611 countsByYear W30261746112023 @default.
W3026174611 crossrefType "journal-article" @default.
W3026174611 hasAuthorship W3026174611A5005600174 @default.
W3026174611 hasAuthorship W3026174611A5008263097 @default.
W3026174611 hasAuthorship W3026174611A5023113614 @default.
W3026174611 hasAuthorship W3026174611A5037937906 @default.
W3026174611 hasAuthorship W3026174611A5041672765 @default.
W3026174611 hasAuthorship W3026174611A5042112543 @default.
W3026174611 hasAuthorship W3026174611A5053696973 @default.
W3026174611 hasAuthorship W3026174611A5055877824 @default.
W3026174611 hasAuthorship W3026174611A5060313951 @default.
W3026174611 hasAuthorship W3026174611A5062357921 @default.
W3026174611 hasAuthorship W3026174611A5069236094 @default.
W3026174611 hasAuthorship W3026174611A5087468058 @default.
W3026174611 hasBestOaLocation W30261746111 @default.
W3026174611 hasConcept C108586683 @default.
W3026174611 hasConcept C121332964 @default.
W3026174611 hasConcept C127413603 @default.
W3026174611 hasConcept C13965031 @default.
W3026174611 hasConcept C148898269 @default.
W3026174611 hasConcept C155672457 @default.
W3026174611 hasConcept C15920480 @default.