Strategically Staged Tumor Ablation and Inflammation Suppression Using Shell‐Core Nanoparticles to Eradicate Bladder Tumors and Prevent Recurrence
Xu Y, Zhang R, Zhu J, Guo Z, Jin D, Qian L, Yang Y, Chen H. Strategically Staged Tumor Ablation and Inflammation Suppression Using Shell‐Core Nanoparticles to Eradicate Bladder Tumors and Prevent Recurrence. Advanced Functional Materials 2024, 34 DOI: 10.1002/adfm.202402078.Peer-Reviewed Original ResearchPrevent tumor recurrenceBladder tumorsTumor recurrenceTumor ablationPreventing bladder tumor recurrenceRat bladder tumor modelBladder tumor modelBladder tumor recurrenceInflammation suppressionCancer-related inflammationRelease of nitric oxideAnti-inflammatory effectsAcidic tumor environmentTumor environmentTumor modelPrevent recurrenceReduce inflammationTumorRecurrenceInflammationReactive oxygen speciesNitric oxideIn vitroAbstract NanomedicineAnti-tumorActively contractible and antibacterial hydrogel for accelerated wound healing
Ji Z, Wei T, Zhu J, Hu J, Xiao Z, Bai B, Lv X, Miao Y, Chen M, Wang C, Pan F, Yang Y, Li M, Chen Q. Actively contractible and antibacterial hydrogel for accelerated wound healing. Nano Research 2024, 17: 7394-7403. DOI: 10.1007/s12274-024-6674-6.Peer-Reviewed Original ResearchAdhesive hydrogelsPoly(N-isopropyl acrylamideAntibacterial hydrogelsFull-thickness skin defect modelMouse full-thickness skin defect modelSkin defect modelPNIPAAm networkEfficient antibacterial abilityMechanical propertiesThermoresponsive polymersHydrogelsDefect modelShrinkage abilityAntibacterial abilityImproved wound healing processTissue regenerationCatechol groupsAccelerated wound healingAntibacterial propertiesWound moistTissue adhesivesAntibacterial functionReactive oxygen speciesAdhesion abilityAdhesion