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ultrasound

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Bacterial (1) Fungal (1) Reactive Oxygen Species (1)
By Research Areas:	Cancer (1) Infection (1) Inflammation/Immunology (1)

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

Hexetidine NSC-17764	Bacterial Fungal	Infection Inflammation/Immunology
Hexetidine (NSC-17764) is an orally active antibacterial and antifungal agent with broad antibacterial and antifungal activity. Hexetidine combined with IPBC potentiates strong fungal growth inhibition properties. Hexetidine at concentrations greater than 0.1% can cause oral ulceration. Additionally, Hexetidine improves its plaque inhibiting activities combined with zinc and has been confirmed the effectiveness on purulent wound along with ultrasound. Hexetidine is a promising candidate for research in fungus-related diseases and soft tissue purulent-inflammatory

DYSP-C34	Reactive Oxygen Species	Cancer
DYSP-C34 is a potent, biocompatible, and ultrasound (US)-triggered multifunctional molecular machine. DYSP-C34 has multiple favorable properties, such as improved lipophilic/hydrophilic balance, intensified US-induced ROS production capacity, and better cellular permeability, resulting in the excellent tumor target efficiency and notable sonodynamic therapy (SDT)-mediated tumor regression. DYSP-C34 exhibits mild immunogenicity by stimulating APCs directly .

SL-017	Others	Others
SL-017 is a novel photoacoustic sensitizer and a derivative of photofrin B. It can be taken up by cells to the maximum extent within 30 minutes and is mainly localized in mitochondria. After being activated by visible light or ultrasound, SL-017 can significantly increase the production of reactive oxygen species (ROS). Low concentrations of SL-017 can rapidly cause the loss of mitochondrial membrane potential. SL-017 can also cause mitochondrial fragmentation, a process that occurs after the loss of membrane potential. Epoxyeicosatrienoic acids (EETs) can alleviate the loss of mitochondrial membrane potential caused by SL-017, but the antioxidant ascorbic acid has no such effect. These characteristics indicate that SL-017 mainly targets mitochondria and exerts its cytotoxic effect by triggering the collapse of mitochondrial membrane potential, generating ROS, and causing mitochondrial fragmentation. As a novel photoacoustic sensitizer, SL-017 has potential application value in photodynamic therapy and sonodynamic therapy.

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