Biofilm-associated infections are difficult to treat in the clinics because the bacteria embedded in biofilm are ten to thousand times more resistant to traditional antibiotics than planktonic ones.Here,a smart hydrog...Biofilm-associated infections are difficult to treat in the clinics because the bacteria embedded in biofilm are ten to thousand times more resistant to traditional antibiotics than planktonic ones.Here,a smart hydrogel comprised of aminoglycoside antibiotics,pectinase,and oxidized dextran was developed to treat local biofilm-associated infections.The primary amines on aminoglycosides and pectinase were reacted with aldehyde groups on oxidized dextran via a pH-sensitive Schiff base linkage to form the hydrogel.Upon bacterial infection,the increased acidity triggers the release of both pectinase and aminoglycoside antibiotics.The released pectinase efficiently degrades extracellular polysaccharides surrounding the bacteria in biofilm,and thus greatly sensitizes the bacteria to aminoglycosides.The smart hydrogel efficiently eradicated biofilms and killed the embedded bacteria both in vitro and in vivo.This study provides a promising strategy for the treatment of biofilm-associated infections.展开更多
Introduction of vacancies is a promising route to enhance the performance of electrocatalysts by tuning the electronic structure and bonding energy.Here,the influence of ultrasound treatment on the O vacancies formati...Introduction of vacancies is a promising route to enhance the performance of electrocatalysts by tuning the electronic structure and bonding energy.Here,the influence of ultrasound treatment on the O vacancies formation and interlayer spacing in NiFe layered double hydroxide(LDH)was investigated.It is found that the strong ultrasound treatment results in rich O vacancies on the surface of NiFe LDH,which affect the electrocatalysis performance.Besides,the ultrasound treated NiFe LDH electrocatalysts had a reduced thickness with a hexagonal nanosheet morphology and expanded interlayer distance,which could promote the diffusion of reactant and generated gas.When the obtained defect-rich NiFe LDH electrocatalyst prepared by a 10-min ultrasonic treatment was applied to catalyze oxygen evolution reaction(OER),only 194 mV of overpotential was needed to maintain a current density of 10 mA⋅cm^(-2).展开更多
基金the National Key R&D Program of ChinaSynthetic Biology Research(2019YFA0904500)+1 种基金the National Natural Science Foundation of China(21725402 and51672191)the Natural Science Foundation of Shanghai(19ZR1415600)。
文摘Biofilm-associated infections are difficult to treat in the clinics because the bacteria embedded in biofilm are ten to thousand times more resistant to traditional antibiotics than planktonic ones.Here,a smart hydrogel comprised of aminoglycoside antibiotics,pectinase,and oxidized dextran was developed to treat local biofilm-associated infections.The primary amines on aminoglycosides and pectinase were reacted with aldehyde groups on oxidized dextran via a pH-sensitive Schiff base linkage to form the hydrogel.Upon bacterial infection,the increased acidity triggers the release of both pectinase and aminoglycoside antibiotics.The released pectinase efficiently degrades extracellular polysaccharides surrounding the bacteria in biofilm,and thus greatly sensitizes the bacteria to aminoglycosides.The smart hydrogel efficiently eradicated biofilms and killed the embedded bacteria both in vitro and in vivo.This study provides a promising strategy for the treatment of biofilm-associated infections.
基金financial supports from the Natural Science Foundation of Henan Province(NO.202300410433)the Scientific Research Foundation of Zhengzhou University(32210862,32211241).
文摘Introduction of vacancies is a promising route to enhance the performance of electrocatalysts by tuning the electronic structure and bonding energy.Here,the influence of ultrasound treatment on the O vacancies formation and interlayer spacing in NiFe layered double hydroxide(LDH)was investigated.It is found that the strong ultrasound treatment results in rich O vacancies on the surface of NiFe LDH,which affect the electrocatalysis performance.Besides,the ultrasound treated NiFe LDH electrocatalysts had a reduced thickness with a hexagonal nanosheet morphology and expanded interlayer distance,which could promote the diffusion of reactant and generated gas.When the obtained defect-rich NiFe LDH electrocatalyst prepared by a 10-min ultrasonic treatment was applied to catalyze oxygen evolution reaction(OER),only 194 mV of overpotential was needed to maintain a current density of 10 mA⋅cm^(-2).
