Add to ORKGCritically ill patients harbor multi-drug resistant pathogens that can activate their virulence in the response to low nutrient conditions and host stress derived factors. It was recently shown that the oversupply of inorganic phosphate to bacterial environment can profoundly suppress the virulence of pathogens. Here we hypothesized that phosphateand/ or polyphosphate-loaded nanoparticles can present a tool to deliver and slowly release phosphate in pathogen-rich niche, thereby suppressing bacterial virulence. In this work, a designed study on effect of different phosphate levels (including the phosphate released from hydrogel nanoparticles) on virulence of P. aeruginosa is addressed. In this work, we developed formulations for preparing he...
The increased prevalence of antibiotic-resistant pathogens requires additional efforts to develop ne...
Biofilms are surface-bound, structured microbial communities underpinning persistent bacterial infec...
Infections caused by multidrug-resistant bacteria are on the rise and, therefore, new antimicrobial ...
Patients exposed to immunodeficiency, extreme surgical intervention, or subjected to radiation thera...
Drug delivery is an exciting field of interdisciplinary research that has captured the interests of ...
Nanoparticle drug delivery holds great promise in the field of nanomedicine. Nanoparticles, containi...
Phosphate is a key and universal “cue” in response to which bacteria either enhance their virulence ...
Previous research has shown that phosphate becomes depleted in the intestinal mucosa following local...
Probiotic-derived polyphosphates have attracted interest as potential therapeutic agents to improve ...
Background Antibiotics have been widely used for the treatment of bacterial infecti...
Thanks to their biocompatibility and degradability properties, polyphosphates are appealing polymers...
In this research we propose a nanoplatform for anticancer therapy that is based on the combination o...
Thanks to their biocompatibility and biodegradability, polyphosphates are appealing polymers for bio...
The continuous emergence and spread of antibiotic-resistant bacteria are a global health emergency, ...
© 2019 Zhe SunDespite the recent advances in cancer treatment, this disease continues to pose a seri...
The increased prevalence of antibiotic-resistant pathogens requires additional efforts to develop ne...
Biofilms are surface-bound, structured microbial communities underpinning persistent bacterial infec...
Infections caused by multidrug-resistant bacteria are on the rise and, therefore, new antimicrobial ...
Patients exposed to immunodeficiency, extreme surgical intervention, or subjected to radiation thera...
Drug delivery is an exciting field of interdisciplinary research that has captured the interests of ...
Nanoparticle drug delivery holds great promise in the field of nanomedicine. Nanoparticles, containi...
Phosphate is a key and universal “cue” in response to which bacteria either enhance their virulence ...
Previous research has shown that phosphate becomes depleted in the intestinal mucosa following local...
Probiotic-derived polyphosphates have attracted interest as potential therapeutic agents to improve ...
Background Antibiotics have been widely used for the treatment of bacterial infecti...
Thanks to their biocompatibility and degradability properties, polyphosphates are appealing polymers...
In this research we propose a nanoplatform for anticancer therapy that is based on the combination o...
Thanks to their biocompatibility and biodegradability, polyphosphates are appealing polymers for bio...
The continuous emergence and spread of antibiotic-resistant bacteria are a global health emergency, ...
© 2019 Zhe SunDespite the recent advances in cancer treatment, this disease continues to pose a seri...
The increased prevalence of antibiotic-resistant pathogens requires additional efforts to develop ne...
Biofilms are surface-bound, structured microbial communities underpinning persistent bacterial infec...
Infections caused by multidrug-resistant bacteria are on the rise and, therefore, new antimicrobial ...