Ultrasound-guided drug delivery system utilizing piezocatalytic MoS2 nanomaterials for anti-inflammatory therapy

Traditional drug delivery systems lack the potential of controlled drug release, thereby decreasing drug utilization and release efficiency. Herein, a next generation of stimuli-responsive drug delivery platform is designed based on piezocatalytic molybdenum disulfide nanoflowers (MoS2 NFs) which ca...

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Published in:Nano energy 2024-08, Vol.127, p.109732, Article 109732
Main Authors: Lin, Ssu-Chi, Joshi, Ravindra, Ganguly, Anindita, Barman, Snigdha Roy, Pal, Arnab, Kaswan, Kuldeep, Liu, Kuei-Lin, Nain, Amit, Kao, Fu-Cheng, Lin, Zong-Hong
Format: Article
Language:English
Subjects:
Anti-inflammation
Molybdenum disulfide
Piezocatalytic effect
Reactive oxygen species
Ultrasound drug delivery
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Summary:Traditional drug delivery systems lack the potential of controlled drug release, thereby decreasing drug utilization and release efficiency. Herein, a next generation of stimuli-responsive drug delivery platform is designed based on piezocatalytic molybdenum disulfide nanoflowers (MoS2 NFs) which can be triggered by ultrasound (US) stimulation for effective acute inflammation therapy. Under US irradiation, MoS2 NFs undergoes piezocatalysis to generate reactive oxygen species (ROS) owing to piezoelectric polarization, thus releasing loaded anti-inflammatory drug Indomethacin (IND) to the targeted inflammation site. The cumulative release of IND elevated significantly with the increase in the duration for US exposure due to the amplified ROS generation, which displayed a highly controllable nature of the as-designed drug delivery platform. For convenient applications, the IND loaded MoS2 NFs (IND@MoS2 NFs) was functionalized onto commercial dressings and their tunable in-vivo drug release performance was demonstrated in paw edema model. IND@MoS2 NFs upon US irradiation, controllably released IND into the site-specific inflamed paw which significantly inhibited 56 % of paw swelling in 6 h by suppressing the infiltration of neutrophils and expression of pro-inflammatory cytokines such as tumor necrosis factor-α (TNF-α). The highly controllable drug delivery system holds great potential in facilitating personalized, user-friendly theranostic applications with improved patient outcomes. [Display omitted] •A piezocatalytic drug delivery platform based on MoS2 Nanoflowers (NFs) is designed for effective acute inflammation therapy.•Ultrasound (US) stimulation triggers MoS2 NFs to undergo piezocatalysis, generating reactive oxygen species (ROS).•Functionalizing IND-loaded MoS2 NFs on commercial dressing exhibits effective in-vivo drug release in paw edema model.•Controlled release of IND upon US irradiation inhibits paw swelling upto ∼56 % in just 6 h.
ISSN:2211-2855
DOI:10.1016/j.nanoen.2024.109732