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Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
by Rabbani, Atiya , Haghniaz, Reihaneh , Khan, Taous , Montazerian, Hossein , Khan, Abdul Rehman , Libanori, Alberto , Iqbal, Javed , Wahid, Fazli , Kousar, Rozina , Vajhadin, Fereshteh , Kim, Han-Jun
in Antibacterial agents / Antibiotic resistance / Antibiotics / Antimicrobial activity / Antimicrobial agents / Assaying / Bacteria / Bacterial infections / Biocompatibility / Biotechnology / Caustic soda / Cell membranes / Cell migration / Cell proliferation / Chemistry / Chemistry and Materials Science / Cytotoxicity / Diffraction patterns / Drug dosages / Erythrocytes / Fibroblasts / Field emission microscopy / Field emission spectroscopy / Fourier analysis / Fourier transforms / Gram-positive bacteria / Health aspects / Hemoglobin / Infrared analysis / Infrared spectroscopy / Iron compounds / Membrane proteins / Methods / Microorganisms / Molecular Medicine / Morphology / Mortality / Nanoparticles / Nanotechnology / Polyethylene glycol / Reactive oxygen species / Reagents / Scanning electron microscopy / Spinel ferrites / Staphylococcus infections / Streptococcus infections / Testing / Wound healing / X-ray diffraction / X-ray spectroscopy / Zinc compounds / Zinc ferrites
2021
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Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
by Rabbani, Atiya , Haghniaz, Reihaneh , Khan, Taous , Montazerian, Hossein , Khan, Abdul Rehman , Libanori, Alberto , Iqbal, Javed , Wahid, Fazli , Kousar, Rozina , Vajhadin, Fereshteh , Kim, Han-Jun
in Antibacterial agents / Antibiotic resistance / Antibiotics / Antimicrobial activity / Antimicrobial agents / Assaying / Bacteria / Bacterial infections / Biocompatibility / Biotechnology / Caustic soda / Cell membranes / Cell migration / Cell proliferation / Chemistry / Chemistry and Materials Science / Cytotoxicity / Diffraction patterns / Drug dosages / Erythrocytes / Fibroblasts / Field emission microscopy / Field emission spectroscopy / Fourier analysis / Fourier transforms / Gram-positive bacteria / Health aspects / Hemoglobin / Infrared analysis / Infrared spectroscopy / Iron compounds / Membrane proteins / Methods / Microorganisms / Molecular Medicine / Morphology / Mortality / Nanoparticles / Nanotechnology / Polyethylene glycol / Reactive oxygen species / Reagents / Scanning electron microscopy / Spinel ferrites / Staphylococcus infections / Streptococcus infections / Testing / Wound healing / X-ray diffraction / X-ray spectroscopy / Zinc compounds / Zinc ferrites
2021
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Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
by Rabbani, Atiya , Haghniaz, Reihaneh , Khan, Taous , Montazerian, Hossein , Khan, Abdul Rehman , Libanori, Alberto , Iqbal, Javed , Wahid, Fazli , Kousar, Rozina , Vajhadin, Fereshteh , Kim, Han-Jun
in Antibacterial agents / Antibiotic resistance / Antibiotics / Antimicrobial activity / Antimicrobial agents / Assaying / Bacteria / Bacterial infections / Biocompatibility / Biotechnology / Caustic soda / Cell membranes / Cell migration / Cell proliferation / Chemistry / Chemistry and Materials Science / Cytotoxicity / Diffraction patterns / Drug dosages / Erythrocytes / Fibroblasts / Field emission microscopy / Field emission spectroscopy / Fourier analysis / Fourier transforms / Gram-positive bacteria / Health aspects / Hemoglobin / Infrared analysis / Infrared spectroscopy / Iron compounds / Membrane proteins / Methods / Microorganisms / Molecular Medicine / Morphology / Mortality / Nanoparticles / Nanotechnology / Polyethylene glycol / Reactive oxygen species / Reagents / Scanning electron microscopy / Spinel ferrites / Staphylococcus infections / Streptococcus infections / Testing / Wound healing / X-ray diffraction / X-ray spectroscopy / Zinc compounds / Zinc ferrites
2021

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Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles
Journal Article

Anti‐bacterial and wound healing‐promoting effects of zinc ferrite nanoparticles

Rabbani, Atiya,
Haghniaz, Reihaneh,
Khan, Taous,
Montazerian, Hossein,
Khan, Abdul Rehman,
Libanori, Alberto,
Iqbal, Javed,
Wahid, Fazli,
Kousar, Rozina,
Vajhadin, Fereshteh,
Kim, Han-Jun
2021
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Overview
Background Increasing antibiotic resistance continues to focus on research into the discovery of novel antimicrobial agents. Due to its antimicrobial and wound healing-promoting activity, metal nanoparticles have attracted attention for dermatological applications. This study is designed to investigate the scope and bactericidal potential of zinc ferrite nanoparticles (ZnFe 2 O 4 NPs), and the mechanism of anti-bacterial action along with cytocompatibility, hemocompatibility, and wound healing properties. Results ZnFe 2 O 4 NPs were synthesized via a modified co-precipitation method. Structure, size, morphology, and elemental compositions of ZnFe 2 O 4 NPs were analyzed using X-ray diffraction pattern, Fourier transform infrared spectroscopy, and field emission scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy. In PrestoBlue and live/dead assays, ZnFe 2 O 4 NPs exhibited dose-dependent cytotoxic effects on human dermal fibroblasts. In addition, the hemocompatibility assay revealed that the NPs do not significantly rupture red blood cells up to a dose of 1000 µg/mL. Bacterial live/dead imaging and zone of inhibition analysis demonstrated that ZnFe 2 O 4 NPs showed dose-dependent bactericidal activities in various strains of Gram-negative and Gram-positive bacteria. Interestingly, NPs showed antimicrobial activity through multiple mechanisms, such as cell membrane damage, protein leakage, and reactive oxygen species generation, and were more effective against gram-positive bacteria. Furthermore, in vitro scratch assay revealed that ZnFe 2 O 4 NPs improved cell migration and proliferation of cells, with noticeable shrinkage of the artificial wound model. Conclusions This study indicated that ZnFe 2 O 4 NPs have the potential to be used as a future antimicrobial and wound healing drug.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Antibacterial agents

/ Antibiotic resistance

/ Antibiotics

/ Antimicrobial activity

/ Antimicrobial agents

/ Assaying

/ Bacteria

/ Bacterial infections

/ Biocompatibility

/ Biotechnology

/ Caustic soda

/ Cell membranes

/ Cell migration

/ Cell proliferation

/ Chemistry

/ Chemistry and Materials Science

/ Cytotoxicity

/ Diffraction patterns

/ Drug dosages

/ Erythrocytes

/ Fibroblasts

/ Field emission microscopy

/ Field emission spectroscopy

/ Fourier analysis

/ Fourier transforms

/ Gram-positive bacteria

/ Health aspects

/ Hemoglobin

/ Infrared analysis

/ Infrared spectroscopy

/ Iron compounds

/ Membrane proteins

/ Methods

/ Microorganisms

/ Molecular Medicine

/ Morphology

/ Mortality

/ Nanoparticles

/ Nanotechnology

/ Polyethylene glycol

/ Reactive oxygen species

/ Reagents

/ Scanning electron microscopy

/ Spinel ferrites

/ Staphylococcus infections

/ Streptococcus infections

/ Testing

/ Wound healing

/ X-ray diffraction

/ X-ray spectroscopy

/ Zinc compounds

/ Zinc ferrites

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