Publications by authors named "Christina Limantoro"

Antibiotic resistance continues to be an ongoing problem in global public health despite interventions to reduce antibiotic overuse. Furthermore, it threatens to undo the achievements and progress of modern medicine. To address these issues, the development of new alternative treatments is needed.

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Orally administered AgS quantum dots (QDs) rapidly cross the small intestine and are taken up by the liver. Metformin and nicotinamide mononucleotide (NMN) target metabolic and aging processes within the liver. This study examined the pharmacology and toxicology of QD-based nanomedicines as carriers of metformin and NMN in young and old mice, determining if their therapeutic potency and reduced effects associated with aging could be improved.

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Many acute and chronic lung injuries are incurable and rank as the fourth leading cause of death globally. While stem cell treatment for lung injuries is a promising approach, there is growing evidence that the therapeutic efficacy of stem cells originates from secreted extracellular vesicles (EVs). Consequently, EVs are emerging as next-generation therapeutics.

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Extracellular vesicles (EVs) have received immense attention in the past decade for their diverse use in diagnosis and therapeutics. Enhancing our understanding of EVs and increasing the reliability and reproducibility of EV research demands the use of standard isolation procedures and multiple characterization methods. Here we describe the most commonly used EV isolation method involving ultracentrifugation, and various characterization methods that include nanoparticle tracking analysis, atomic force microscopy and electron microscopy, which measure the size, concentration, and morphology of EVs.

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A novel, pure, synthetic material is presented that promotes the repair of full-thickness skin wounds. The active component is tropoelastin and leverages its ability to promote new blood vessel formation and its cell recruiting properties to accelerate wound repair. Key to the technology is the use of a novel heat-based, stabilized form of human tropoelastin which allows for tunable resorption.

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