Poly(lactic acid)/Zinc/Alginate Complex Material: Preparation and Antimicrobial Properties

The aim of this study was to investigate an antimicrobial and degradable composite material consisting of melt-blown poly(lactic acid) nonwoven fabrics, alginate, and zinc. This paper describes the method of preparation and the characterization of the physicochemical and antimicrobial properties of...

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Published inAntibiotics (Basel) Vol. 10; no. 11; p. 1327
Main Authors Kudzin, Marcin H., Giełdowska, Małgorzata, Mrozińska, Zdzisława, Boguń, Maciej
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 30.10.2021
MDPI
Subjects
alginate
Alginates
Alginic acid
antibacterial activity
Antimicrobial agents
biodegradable composite
Biological activity
Biomedical materials
Chloride
composite
Composite materials
Contact angle
Dip coatings
E coli
Fabrication
Fungicides
Gram-positive bacteria
Immersion coating
Investigations
melt-blown
Microbial activity
Microorganisms
Morphology
Nonwoven fabrics
Polylactic acid
Scanning electron microscopy
Scientific imaging
Sodium
Sodium salts
Strains (organisms)
Textiles
Wound healing
Zinc
United States > US
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Abstract The aim of this study was to investigate an antimicrobial and degradable composite material consisting of melt-blown poly(lactic acid) nonwoven fabrics, alginate, and zinc. This paper describes the method of preparation and the characterization of the physicochemical and antimicrobial properties of the new fibrous composite material. The procedure consists of fabrication of nonwoven fabric and two steps of dip-coating modification: (1) impregnation of nonwoven samples in the solution of alginic sodium salt and (2) immersion in a solution of zinc (II) chloride. The characterization and analysis of new material included scanning electron microscopy (SEM), specific surface area (SSA), and total/average pore volume (BET). The polylactide/alginate/Zn fibrous composite were subjected to microbial activity tests against colonies of Gram-positive (Staphylococcus aureus), Gram-negative (Escherichia coli) bacterial strains, and the following fungal strains: Aspergillus niger van Tieghem and Chaetomium globosum. These results lay a technical foundation for the development and potential application of new composite as an antibacterial/antifungal material in biomedical areas.
AbstractList The aim of this study was to investigate an antimicrobial and degradable composite material consisting of melt-blown poly(lactic acid) nonwoven fabrics, alginate, and zinc. This paper describes the method of preparation and the characterization of the physicochemical and antimicrobial properties of the new fibrous composite material. The procedure consists of fabrication of nonwoven fabric and two steps of dip-coating modification: (1) impregnation of nonwoven samples in the solution of alginic sodium salt and (2) immersion in a solution of zinc (II) chloride. The characterization and analysis of new material included scanning electron microscopy (SEM), specific surface area (SSA), and total/average pore volume (BET). The polylactide/alginate/Zn fibrous composite were subjected to microbial activity tests against colonies of Gram-positive (Staphylococcus aureus), Gram-negative (Escherichia coli) bacterial strains, and the following fungal strains: Aspergillus niger van Tieghem and Chaetomium globosum. These results lay a technical foundation for the development and potential application of new composite as an antibacterial/antifungal material in biomedical areas.
The aim of this study was to investigate an antimicrobial and degradable composite material consisting of melt-blown poly(lactic acid) nonwoven fabrics, alginate, and zinc. This paper describes the method of preparation and the characterization of the physicochemical and antimicrobial properties of the new fibrous composite material. The procedure consists of fabrication of nonwoven fabric and two steps of dip-coating modification: (1) impregnation of nonwoven samples in the solution of alginic sodium salt and (2) immersion in a solution of zinc (II) chloride. The characterization and analysis of new material included scanning electron microscopy (SEM), specific surface area (SSA), and total/average pore volume (BET). The polylactide/alginate/Zn fibrous composite were subjected to microbial activity tests against colonies of Gram-positive ( Staphylococcus aureus ), Gram-negative ( Escherichia coli ) bacterial strains, and the following fungal strains: Aspergillus niger van Tieghem and Chaetomium globosum . These results lay a technical foundation for the development and potential application of new composite as an antibacterial/antifungal material in biomedical areas.
Author Giełdowska, Małgorzata
Kudzin, Marcin H
Boguń, Maciej
Mrozińska, Zdzisława
AuthorAffiliation Lukasiewicz Research Network-Textile Research Institute, Brzezinska 5/15, 92-103 Lodz, Poland; malgorzata.gieldowska@iw.lukasiewicz.gov.pl (M.G.); zdzislawa.mrozinska@iw.lukasiewicz.gov.pl (Z.M.); maciej.bogun@iw.lukasiewicz.gov.pl (M.B.)
AuthorAffiliation_xml – name: Lukasiewicz Research Network-Textile Research Institute, Brzezinska 5/15, 92-103 Lodz, Poland; malgorzata.gieldowska@iw.lukasiewicz.gov.pl (M.G.); zdzislawa.mrozinska@iw.lukasiewicz.gov.pl (Z.M.); maciej.bogun@iw.lukasiewicz.gov.pl (M.B.)
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Snippet The aim of this study was to investigate an antimicrobial and degradable composite material consisting of melt-blown poly(lactic acid) nonwoven fabrics,...
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SubjectTerms alginate
Alginates
Alginic acid
antibacterial activity
Antimicrobial agents
biodegradable composite
Biological activity
Biomedical materials
Chloride
composite
Composite materials
Contact angle
Dip coatings
E coli
Fabrication
Fungicides
Gram-positive bacteria
Immersion coating
Investigations
melt-blown
Microbial activity
Microorganisms
Morphology
Nonwoven fabrics
Polylactic acid
Scanning electron microscopy
Scientific imaging
Sodium
Sodium salts
Strains (organisms)
Textiles
Wound healing
Zinc
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Title Poly(lactic acid)/Zinc/Alginate Complex Material: Preparation and Antimicrobial Properties
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https://pubmed.ncbi.nlm.nih.gov/PMC8614701
https://doaj.org/article/721890ba82ae4760a3a29d5a17a5d73b
Volume 10
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