Ga-Hyun Bae scite author profile

Loading and eluting drugs on self‐expandable metallic stents (SEMSs) can be challenging in terms of fabrication, mechanical stability, and therapeutic effects. In this study, a flexible 3D nanonetworked silica film (NSF) capable of withstanding mechanical stress during dynamic expansion is constructed to function as a drug delivery platform on an entire SEMS surface. Despite covering a broad curved area, the synthesized NSF is defect‐free and thin enough to increase the stent strut diameter (110 µm) by only 0.4 percent (110.45 µm). The hydrophobic modification of the surface enables loading of 4.7 times the sirolimus (SRL) concentration in NSF than Cypher, polymer‐coated commercial stent, which is based on the same thickness of coating layer. Furthermore, SRL‐loaded NSF exhibits a twofold delay in release compared to the control group without NSF. The SRL‐loaded NSF SEMS significantly suppresses stent‐induced tissue hyperplasia than the control SEMS in the rat esophagus (all variables, p < 0.05). Thus, the developed NSF is a promising polymer‐free drug delivery platform to efficiently treat esophageal stricture.

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Silver Nanofunctionalized Stent after Radiofrequency Ablation Suppresses Tissue Hyperplasia and Bacterial Growth

Park

Won

Bae

et al. 2022

Pharmaceutics

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Intraductal radiofrequency (RF) ablation combined with placement of a self-expandable metal stent (SEMS) for malignant biliary obstruction has risks such as stent- and heat-induced biliary sludge and restenosis. Here, we investigated the efficacy of a silver nanoparticles (AgNPs)-coated SEMS to inhibit tissue hyperplasia and bacterial growth caused by RF ablation with stent placement in the rabbit bile duct. The release behavior and antibacterial effects of AgNPs-coated SEMSs were evaluated. Then, SEMSs were successfully placed in all rabbits immediately after RF ablation. Ag ions were rapidly released at the beginning and then showed a gradual release behavior. The AgNPs-coated SEMS significantly inhibited bacterial activity compared to the uncoated SEMS (p < 0.05). Cholangiography and histological examination confirmed that the level of tissue hyperplasia was significantly lower in the AgNPs group than in the control group (all p < 0.05). Immunohistochemistry analyses revealed that TUNEL-, HSP 70-, and α-SMA-positive areas were significantly lower in the AgNPs group than in the control group (all p < 0.05). Intraductal RF ablation combined with nanofunctionalized stent placement represents a promising new approach for suppressing thermal damage as well as stent-induced tissue hyperplasia and bacterial growth.

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Multifunctional Glycol Chitosan Hydrogel for Enhanced Local Cancer Immunotherapy and Tumor Suppression

Seo¹,

Lim²,

Bae³

et al. 2023

Preprint

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Multifunctional porous microspheres encapsulating oncolytic bacterial spores and their potential for cancer immunotherapy

et al. 2023

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Ga-Hyun Bae

Flexible 3D Nanonetworked Silica Film as a Polymer‐Free Drug‐Eluting Stent Platform to Effectively Suppress Tissue Hyperplasia in Rat Esophagus

Silver Nanofunctionalized Stent after Radiofrequency Ablation Suppresses Tissue Hyperplasia and Bacterial Growth

Multifunctional Glycol Chitosan Hydrogel for Enhanced Local Cancer Immunotherapy and Tumor Suppression

Multifunctional porous microspheres encapsulating oncolytic bacterial spores and their potential for cancer immunotherapy

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