SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4291036658> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4291036658 abstract "Abstract Drug‐coated balloons (DCB) intervention is an important approach for the treatment of atherosclerosis (AS). However, this therapeutic approach has the drawbacks of poor drug retention and penetration at the lesion site. Here, a lipophilic drug‐loaded nanomotor as a modified balloon coating for the treatment of AS is reported. First, a lipophilic nanomotor PMA‐TPP/PTX loaded with drug PTX and lipophilic triphenylphosphine (TPP) compounds is synthesized. The PMA‐TPP/PTX nanomotors use nitric oxide (NO) as the driving force, which is produced from the reaction between arginine on the motor substrate and excess reactive oxygen species (ROS) and inducible nitric oxide synthase (iNOS) in the AS microenvironment. The final in vitro and in vivo experimental results confirm that the introduction of the lipophilic drug‐loaded nanomotor technology can greatly enhance the drug retention and permeability in atherosclerotic lesions. In particular, NO can also play an anti‐AS role in improving endothelial cell function and reducing oxidative stress. The chemotherapeutic drug PTX loaded onto the nanomotors can inhibit cell division and proliferation, thereby exerting the effect of inhibiting vascular intimal hyperplasia, which is helpful for the multiple therapies of AS. Using nanomotor technology to solve cardiovascular diseases may be a promising research direction." @default.
W4291036658 created "2022-08-13" @default.
W4291036658 creator A5014709585 @default.
W4291036658 creator A5018114203 @default.
W4291036658 creator A5023110770 @default.
W4291036658 creator A5032287996 @default.
W4291036658 creator A5034036358 @default.
W4291036658 creator A5066068373 @default.
W4291036658 creator A5078143614 @default.
W4291036658 creator A5080796063 @default.
W4291036658 creator A5081377631 @default.
W4291036658 creator A5083670525 @default.
W4291036658 date "2022-08-12" @default.
W4291036658 modified "2023-10-16" @default.
W4291036658 title "Lipophilic NO‐Driven Nanomotors as Drug Balloon Coating for the Treatment of Atherosclerosis" @default.
W4291036658 cites W1966228028 @default.
W4291036658 cites W1968414535 @default.
W4291036658 cites W2008286015 @default.
W4291036658 cites W2034937826 @default.
W4291036658 cites W2065983727 @default.
W4291036658 cites W2074491029 @default.
W4291036658 cites W2084216106 @default.
W4291036658 cites W2100657323 @default.
W4291036658 cites W2140014506 @default.
W4291036658 cites W2286634515 @default.
W4291036658 cites W2396652660 @default.
W4291036658 cites W2587769401 @default.
W4291036658 cites W2604404809 @default.
W4291036658 cites W2617855602 @default.
W4291036658 cites W2775591507 @default.
W4291036658 cites W2782591221 @default.
W4291036658 cites W2785791389 @default.
W4291036658 cites W2792037565 @default.
W4291036658 cites W2900129785 @default.
W4291036658 cites W2903476198 @default.
W4291036658 cites W2909641717 @default.
W4291036658 cites W2909765747 @default.
W4291036658 cites W2921477484 @default.
W4291036658 cites W2944820269 @default.
W4291036658 cites W2999206964 @default.
W4291036658 cites W3009584799 @default.
W4291036658 cites W3013352992 @default.
W4291036658 cites W3031047464 @default.
W4291036658 cites W3031843660 @default.
W4291036658 cites W3031902466 @default.
W4291036658 cites W3033299436 @default.
W4291036658 cites W3087136340 @default.
W4291036658 cites W3089534236 @default.
W4291036658 cites W3093056287 @default.
W4291036658 cites W3117136930 @default.
W4291036658 cites W3124265836 @default.
W4291036658 cites W3128718660 @default.
W4291036658 cites W3155824129 @default.
W4291036658 cites W3177179092 @default.
W4291036658 cites W3177735073 @default.
W4291036658 cites W3178664995 @default.
W4291036658 cites W3181091633 @default.
W4291036658 cites W3186594920 @default.
W4291036658 cites W3191458201 @default.
W4291036658 cites W3194174906 @default.
W4291036658 cites W3194194065 @default.
W4291036658 cites W4200030637 @default.
W4291036658 cites W4205167219 @default.
W4291036658 cites W4210843771 @default.
W4291036658 cites W4212788844 @default.
W4291036658 cites W4213140094 @default.
W4291036658 cites W4213317994 @default.
W4291036658 cites W4214664150 @default.
W4291036658 cites W4214880008 @default.
W4291036658 cites W4220781212 @default.
W4291036658 cites W4220857325 @default.
W4291036658 cites W4220964760 @default.
W4291036658 cites W4221084795 @default.
W4291036658 cites W4226100236 @default.
W4291036658 doi "https://doi.org/10.1002/smll.202203238" @default.
W4291036658 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35961946" @default.
W4291036658 hasPublicationYear "2022" @default.
W4291036658 type Work @default.
W4291036658 citedByCount "7" @default.
W4291036658 countsByYear W42910366582022 @default.
W4291036658 countsByYear W42910366582023 @default.
W4291036658 crossrefType "journal-article" @default.
W4291036658 hasAuthorship W4291036658A5014709585 @default.
W4291036658 hasAuthorship W4291036658A5018114203 @default.
W4291036658 hasAuthorship W4291036658A5023110770 @default.
W4291036658 hasAuthorship W4291036658A5032287996 @default.
W4291036658 hasAuthorship W4291036658A5034036358 @default.
W4291036658 hasAuthorship W4291036658A5066068373 @default.
W4291036658 hasAuthorship W4291036658A5078143614 @default.
W4291036658 hasAuthorship W4291036658A5080796063 @default.
W4291036658 hasAuthorship W4291036658A5081377631 @default.
W4291036658 hasAuthorship W4291036658A5083670525 @default.
W4291036658 hasConcept C126322002 @default.
W4291036658 hasConcept C150903083 @default.
W4291036658 hasConcept C178790620 @default.
W4291036658 hasConcept C185592680 @default.
W4291036658 hasConcept C192562407 @default.
W4291036658 hasConcept C207001950 @default.
W4291036658 hasConcept C2776151105 @default.
W4291036658 hasConcept C2779751240 @default.