SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3216740649> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W3216740649 endingPage "138" @default.
W3216740649 startingPage "129" @default.
W3216740649 abstract "Nanomedicine has made great progress in the targeted therapy of cancer. Here, we established a novel drug-mate strategy by studying the formulation of nanodrugs at the molecular level. In the drug-mate combination, the drug is a hydrophobic drug that is poorly soluble in water, and the mate is an amphiphilic small molecule (SMA) that has both hydrophilic and lipophilic properties. We proposed that the hydrophobic drug could co-assemble with a suitable SMA on a nanoscale without additive agents. The proof-of-concept methodology and results were presented to support our hypothesis. We selected five hydrophobic drugs and more than ten amphiphilic small molecules to construct a library. Through molecular dynamic simulation and quantum chemistry computation, we speculated that the formation of nanoassemblies was related to the binding energy of the drug-mate, and the drug-mate interaction must overcome drug-drug interaction. Furthermore, the obtained SF/VECOONa nanoassemblieswas selected as a model, which had an ultra-high drug loading content (46%), improved pharmacokinetics, increased bioavailability, and enhanced therapeutic efficacy. In summary, the drug-mate strategy is an essential resource to design exact SMA for many hydrophobic drugs and provides a reference for the design of a carrier-free drug delivery system." @default.
W3216740649 created "2021-12-06" @default.
W3216740649 creator A5029098505 @default.
W3216740649 creator A5035054754 @default.
W3216740649 creator A5042467158 @default.
W3216740649 creator A5043136018 @default.
W3216740649 creator A5055342281 @default.
W3216740649 creator A5060337369 @default.
W3216740649 creator A5073435344 @default.
W3216740649 creator A5085648672 @default.
W3216740649 creator A5088968743 @default.
W3216740649 date "2022-01-01" @default.
W3216740649 modified "2023-10-16" @default.
W3216740649 title "Amphiphilic small molecular mates match hydrophobic drugs to form nanoassemblies based on drug-mate strategy" @default.
W3216740649 cites W1795178315 @default.
W3216740649 cites W1883091920 @default.
W3216740649 cites W1966235871 @default.
W3216740649 cites W1971108880 @default.
W3216740649 cites W1975708211 @default.
W3216740649 cites W1976499671 @default.
W3216740649 cites W1982958900 @default.
W3216740649 cites W2011805684 @default.
W3216740649 cites W2015688756 @default.
W3216740649 cites W2023271753 @default.
W3216740649 cites W2024382973 @default.
W3216740649 cites W2035266068 @default.
W3216740649 cites W2049883071 @default.
W3216740649 cites W2058363175 @default.
W3216740649 cites W2106140689 @default.
W3216740649 cites W2108843890 @default.
W3216740649 cites W2119013389 @default.
W3216740649 cites W2122199548 @default.
W3216740649 cites W2139995033 @default.
W3216740649 cites W2144288821 @default.
W3216740649 cites W2147993766 @default.
W3216740649 cites W2148941593 @default.
W3216740649 cites W2274852945 @default.
W3216740649 cites W2279614689 @default.
W3216740649 cites W2291461503 @default.
W3216740649 cites W2294041925 @default.
W3216740649 cites W2327890634 @default.
W3216740649 cites W2330108838 @default.
W3216740649 cites W2362684152 @default.
W3216740649 cites W2397808992 @default.
W3216740649 cites W2461509262 @default.
W3216740649 cites W2465813067 @default.
W3216740649 cites W2530625287 @default.
W3216740649 cites W2554773181 @default.
W3216740649 cites W2556883703 @default.
W3216740649 cites W2613635666 @default.
W3216740649 cites W2751645570 @default.
W3216740649 cites W2753085900 @default.
W3216740649 cites W2766186314 @default.
W3216740649 cites W2894305165 @default.
W3216740649 cites W2969632141 @default.
W3216740649 cites W2984284890 @default.
W3216740649 cites W3081465192 @default.
W3216740649 cites W3091865209 @default.
W3216740649 doi "https://doi.org/10.1016/j.ajps.2021.11.002" @default.
W3216740649 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35261649" @default.
W3216740649 hasPublicationYear "2022" @default.
W3216740649 type Work @default.
W3216740649 sameAs 3216740649 @default.
W3216740649 citedByCount "2" @default.
W3216740649 countsByYear W32167406492023 @default.
W3216740649 crossrefType "journal-article" @default.
W3216740649 hasAuthorship W3216740649A5029098505 @default.
W3216740649 hasAuthorship W3216740649A5035054754 @default.
W3216740649 hasAuthorship W3216740649A5042467158 @default.
W3216740649 hasAuthorship W3216740649A5043136018 @default.
W3216740649 hasAuthorship W3216740649A5055342281 @default.
W3216740649 hasAuthorship W3216740649A5060337369 @default.
W3216740649 hasAuthorship W3216740649A5073435344 @default.
W3216740649 hasAuthorship W3216740649A5085648672 @default.
W3216740649 hasAuthorship W3216740649A5088968743 @default.
W3216740649 hasBestOaLocation W32167406491 @default.
W3216740649 hasConcept C126511603 @default.
W3216740649 hasConcept C15083742 @default.
W3216740649 hasConcept C155672457 @default.
W3216740649 hasConcept C15920480 @default.
W3216740649 hasConcept C171250308 @default.
W3216740649 hasConcept C178790620 @default.
W3216740649 hasConcept C181389837 @default.
W3216740649 hasConcept C185592680 @default.
W3216740649 hasConcept C192562407 @default.
W3216740649 hasConcept C21951064 @default.
W3216740649 hasConcept C2779820397 @default.
W3216740649 hasConcept C2780035454 @default.
W3216740649 hasConcept C521977710 @default.
W3216740649 hasConcept C67407626 @default.
W3216740649 hasConcept C86803240 @default.
W3216740649 hasConcept C90260826 @default.
W3216740649 hasConcept C98274493 @default.
W3216740649 hasConceptScore W3216740649C126511603 @default.
W3216740649 hasConceptScore W3216740649C15083742 @default.
W3216740649 hasConceptScore W3216740649C155672457 @default.
W3216740649 hasConceptScore W3216740649C15920480 @default.
W3216740649 hasConceptScore W3216740649C171250308 @default.