Self-enhanced ROS generation by responsive co-delivery of H2O2 and O2 based on a versatile composite biomaterial for hypoxia-irrelevant multimodal antibiofilm therapy

[1]  Yuejun Kang,et al.  A robust Au@Cu2-xS nanoreactor assembled by silk fibroin for enhanced intratumoral glucose depletion and redox dyshomeostasis. , 2022, Biomaterials.

[2]  Dinggeng He,et al.  Photothermal-Triggered Release of Alkyl Radicals and Cascade Generation of Hydroxyl Radicals Via a Versatile Hybrid Nanocatalyst for Hypoxia-Irrelevant Synergistic Antibiofilm Therapy , 2022, SSRN Electronic Journal.

[3]  Gaigai Duan,et al.  A bioinspired antibacterial and photothermal membrane for stable and durable clean water remediation. , 2022, Materials horizons.

[4]  Dinggeng He,et al.  GSH-depleting and H2O2-self-supplying hybrid nanozymes for intensive catalytic antibacterial therapy by photothermal-augmented co-catalysis. , 2022, Acta biomaterialia.

[5]  Pu Xiao,et al.  Polymer-Coated Calcium Peroxide Nanoparticles as an Oxygen Self-Supplying Platform for Enhanced Photodynamic Therapy , 2022, European Polymer Journal.

[6]  Y. Wang,et al.  A Copper Peroxide Fenton Nanoagent-Hydrogel as an In Situ pH-Responsive Wound Dressing for Effectively Trapping and Eliminating Bacteria. , 2022, ACS applied bio materials.

[7]  R. Kishony,et al.  Minimizing treatment-induced emergence of antibiotic resistance in bacterial infections , 2022, Science.

[8]  Mingwen Zhao,et al.  Nanophysical Antimicrobial Strategies: A Rational Deployment of Nanomaterials and Physical Stimulations in Combating Bacterial Infections , 2022, Advanced science.

[9]  Sijie Chen,et al.  IR780 Based Sonotherapeutic Nanoparticles to Combat Multidrug-Resistant Bacterial Infections , 2022, Frontiers in Chemistry.

[10]  Jun Lin,et al.  One-Step Integration of Tumor Microenvironment-Responsive Calcium and Copper Peroxides Nanocomposite for Enhanced Chemodynamic/Ion-Interference Therapy. , 2021, ACS nano.

[11]  Xiaolong Liu,et al.  Natural Killer Cell Membrane‐Cloaked Virus‐Mimicking Nanogenerator with NIR‐Triggered Shape Reversal and •C/•OH Storm for Synergistic Thermodynamic–Chemodynamic Therapy , 2021, Advanced science.

[12]  Yaoyao Li,et al.  An Ultrasmall Fe3 O4 -Decorated Polydopamine Hybrid Nanozyme Enables Continuous Conversion of Oxygen into Toxic Hydroxyl Radical via GSH-Depleted Cascade Redox Reactions for Intensive Wound Disinfection. , 2021, Small.

[13]  H. Girault,et al.  Advances in the Sensing and Treatment of Wound Biofilms , 2021, Angewandte Chemie.

[14]  Shuang‐Shuang Wan,et al.  Nanocatalyst‐Mediated Chemodynamic Tumor Therapy , 2021, Advanced healthcare materials.

[15]  Yuxin Guo,et al.  Chemodynamic Therapy via Fenton and Fenton-Like Nanomaterials: Strategies and Recent Advances. , 2021, Small.

[16]  Yufang Zhu,et al.  A responsive microneedle system for efficient anti-melanoma by combining self-enhanced chemodynamic therapy with photothermal therapy , 2021, Chemical Engineering Journal.

[17]  J. Xie,et al.  A Biofilm Microenvironment‐Activated Single‐Atom Iron Nanozyme with NIR‐Controllable Nanocatalytic Activities for Synergetic Bacteria‐Infected Wound Therapy , 2021, Advanced healthcare materials.

[18]  Haijun Shen,et al.  Sprayed copper peroxide nanodots for accelerating wound healing in a multidrug-resistant bacteria infected diabetic ulcer. , 2021, Nanoscale.

[19]  Miaodeng Liu,et al.  An MSN-based synergistic nanoplatform for root canal biofilm eradication via Fenton-enhanced sonodynamic therapy. , 2021, Journal of materials chemistry. B.

[20]  Xinge Zhang,et al.  Oxygen Self-Supplying Nanotherapeutic for Mitigation of Tissue Hypoxia and Enhanced Photodynamic Therapy of Bacterial Keratitis. , 2021, ACS applied materials & interfaces.

[21]  Wei Huang,et al.  Emerging photothermal-derived multimodal synergistic therapy in combating bacterial infections. , 2021, Chemical Society reviews.

[22]  Lei Xi,et al.  Infection microenvironment-activated nanoparticles for NIR-II photoacoustic imaging-guided photothermal/chemodynamic synergistic anti-infective therapy. , 2021, Biomaterials.

[23]  Q. Bai,et al.  Pomegranate-Like CuO2@SiO2 Nanospheres as H2O2 Self-Supplying and Robust Oxygen Generators for Enhanced Antibacterial Activity. , 2021, ACS applied materials & interfaces.

[24]  Hao Wang,et al.  Hybrid Plasmonic Nanodumbbells Engineering for Multi-Intensified Second Near-Infrared Light Induced Photodynamic Therapy. , 2021, ACS nano.

[25]  Lianhui Wang,et al.  A multifunctional Fenton nanoagent for microenvironment-selective anti-biofilm and anti-inflammatory therapy. , 2021, Materials horizons.

[26]  Y. Xiong,et al.  Surface-bound reactive oxygen species generating nanozymes for selective antibacterial action , 2021, Nature communications.

[27]  Xingzhong Zhao,et al.  Highly biocompatible and recyclable biomimetic nanoparticles for antibiotic-resistant bacteria infection. , 2020, Biomaterials science.

[28]  Xinge Zhang,et al.  A bacterial infection-microenvironment activated nanoplatform based on spiropyran-conjugated glycoclusters for imaging and eliminating of the biofilm , 2020 .

[29]  A. Grzybowski,et al.  Biofilm microenvironment activated supramolecular nanoparticles for enhanced photodynamic therapy of bacterial keratitis. , 2020, Journal of controlled release : official journal of the Controlled Release Society.

[30]  Suzannah M. Schmidt-Malan,et al.  Nanomaterial-based therapeutics for antibiotic-resistant bacterial infections , 2020, Nature Reviews Microbiology.

[31]  Hepeng Zhang,et al.  Injectable redox and light responsive MnO2 hybrid hydrogel for simultaneous melanoma therapy and multidrug-resistant bacteria-infected wound healing. , 2020, Biomaterials.

[32]  Hongjun Wang,et al.  A Porous Au@Rh Bimetallic Core–Shell Nanostructure as an H2O2‐Driven Oxygenerator to Alleviate Tumor Hypoxia for Simultaneous Bimodal Imaging and Enhanced Photodynamic Therapy , 2020, Advanced materials.

[33]  J. Ji,et al.  Size and Charge Adaptive Clustered Nanoparticles Targeting Biofilm Microenvironment for Chronic Lung Infection Management. , 2020, ACS nano.

[34]  Haifeng Dong,et al.  An open source and reduce expenditure ROS generation strategy for chemodynamic/photodynamic synergistic therapy , 2020, Nature Communications.

[35]  Y. Mou,et al.  Biofilm Microenvironment-Responsive Nanotheranostics for Dual-Mode Imaging and Hypoxia-Relief-Enhanced Photodynamic Therapy of Bacterial Infections , 2020, Research.

[36]  Yifan Ma,et al.  In Situ Photocatalyzed Oxygen Generation with Photosynthetic Bacteria to Enable Robust Immunogenic Photodynamic Therapy in Triple‐Negative Breast Cancer , 2020, Advanced Functional Materials.

[37]  Yu Chen,et al.  Chemoreactive Nanotherapeutics by Metal Peroxide Based Nanomedicine , 2020, Advanced science.

[38]  Xing-jie Liang,et al.  Smart calcium peroxide with self-sufficience for biomedicine , 2019, Science China Life Sciences.

[39]  X. Qu,et al.  Defect-rich adhesive nanozymes as efficient "antibiotics" for enhanced bacterial inhibition. , 2019, Angewandte Chemie.

[40]  Rui Tian,et al.  Synthesis of Copper Peroxide Nanodots for H2O2 Self-Supplying Chemodynamic Therapy. , 2019, Journal of the American Chemical Society.

[41]  Yuhuan Sun,et al.  Two-Dimensional Metal-Organic Framework/Enzyme Hybrid Nanocatalyst as a Benign and Self-Activated Cascade Reagent for in Vivo Wound Healing. , 2019, ACS nano.

[42]  V. Rotello,et al.  Combatting antibiotic-resistant bacteria using nanomaterials. , 2019, Chemical Society reviews.

[43]  Heliang Yao,et al.  Nanocatalytic Tumor Therapy by Biomimetic Dual Inorganic Nanozyme‐Catalyzed Cascade Reaction , 2018, Advanced science.

[44]  Gen Chen,et al.  Oxygen Production of Modified Core-Shell CuO@ZrO2 Nanocomposites by Microwave Radiation to Alleviate Cancer Hypoxia for Enhanced Chemo-Microwave Thermal Therapy. , 2018, ACS nano.

[45]  X. Xing,et al.  Microenvironment-Responsive Magnetic Nanocomposites Based on Silver Nanoparticles/Gentamicin for Enhanced Biofilm Disruption by Magnetic Field. , 2018, ACS applied materials & interfaces.

[46]  V. Rotello,et al.  Charge-Switchable Nanozymes for Bioorthogonal Imaging of Biofilm-Associated Infections. , 2017, ACS nano.

[47]  Gerard D. Wright Opportunities for natural products in 21st century antibiotic discovery. , 2017, Natural product reports.

[48]  Cassandra Willyard The drug-resistant bacteria that pose the greatest health threats , 2017, Nature.

[49]  S. Rice,et al.  Biofilms: an emergent form of bacterial life , 2016, Nature Reviews Microbiology.

[50]  D. Benoit,et al.  Targeted, triggered drug delivery to tumor and biofilm microenvironments. , 2016, Nanomedicine.

[51]  Chao Zhang,et al.  CuSO4/H2O2-Induced Rapid Deposition of Polydopamine Coatings with High Uniformity and Enhanced Stability. , 2016, Angewandte Chemie.

[52]  Kaikai Wang,et al.  Perfluorocarbon nanoparticles enhance reactive oxygen levels and tumour growth inhibition in photodynamic therapy , 2015, Nature Communications.

[53]  Yong Li,et al.  pH-activated nanoparticles for controlled topical delivery of farnesol to disrupt oral biofilm virulence. , 2015, ACS nano.

[54]  Gerard D. Wright Solving the Antibiotic Crisis. , 2015, ACS infectious diseases.

[55]  J. Costerton,et al.  Bacterial biofilms: a common cause of persistent infections. , 1999, Science.