Advancements in nanofibers for wound dressing: A review

[Display omitted] •Consolidated data on wound healing and wound dressing along with drug delivery mechanism.•The comprehensive wound healing process have been explained.•The therapeutic approach for reducing the healing time with nano/micro-fibers based wound dressing.•Classification of Electrospun...

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Published inEuropean polymer journal Vol. 117; pp. 304 - 336
Main Authors Ambekar, Rushikesh S., Kandasubramanian, Balasubramanian
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.08.2019
Elsevier BV
Subjects
Antibiotic drugs
Antibiotics
Biocompatibility
Biodegradable polymers
Biodegradation
Captopril
Carbon fibers
Chitin
Drug delivery systems
E coli
Electrospinning
Emulsions
Formulations
Hydrogels
Leukocytes
Medical dressings
Nanofibers
Permeability
Porosity
Vasodilation
Wound dressing
Wound healing
Electrospinning
Wound dressing
Wound healing
Antibiotic drugs
Biodegradable polymers
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Abstract [Display omitted] •Consolidated data on wound healing and wound dressing along with drug delivery mechanism.•The comprehensive wound healing process have been explained.•The therapeutic approach for reducing the healing time with nano/micro-fibers based wound dressing.•Classification of Electrospun nanofibers and their effect on the drug delivery efficiency. Chronic wound healing is an intricate time-consuming process (healing time ∼12 weeks), susceptible to external biological attack such as bacteria (e.g. E. coli, B. subtilis, S. aureus etc.) promoting wound infection and exhibit a negative effect on the immune system, therefore, it is a necessity to form a controlled environment for wound healing with the help of suitable barrier. Over the past few decades, various topical formulations of wound barriers like films, hydrogels, emulsions and nano/micro-fibers have been explored. The drug-embedded fibers are the potential candidate for wound healing as a barrier owing to the large specific surface area (for surface functionalization), enormous porosity ∼60–90% (for oxy-permeability), reticulated nano-porosity (for inhibition of the microorganism) and advanced electrospinning methodology which facilitates sustained drug release. Wound bed exhibits 37 °C temperature and 7.4 pH (typically for blood) condition which triggers the drug release and nano/micro-fiber degradation simultaneously. Drug-embedded nano/micro-fiber consists of a matrix with excellent biocompatibility, appreciable biodegradation rate (e.g. Chitin nanofiber-20% degradation in 15 days) and a drug with a superior antibiotic, antimicrobial property, besides certain drug (e.g. Captopril) also promote vasodilation which increases in-vascular permeability leading to rapid movement of leukocytes into the affected tissue, thereby reducing the healing time. In this review article, we discuss the consolidated recent advanced works on wound healing and wound dressing which implies the significance of wound dressing. In addition, the recent advancements in nano/micro-fiber fabrication methodology for drug release mechanism, and benefits of the fiber-based wound dressings compared to conventional wound dressings have been extensively discussed.
AbstractList Chronic wound healing is an intricate time-consuming process (healing time ∼12 weeks), susceptible to external biological attack such as bacteria (e.g. E. coli, B. subtilis, S. aureus etc.) promoting wound infection and exhibit a negative effect on the immune system, therefore, it is a necessity to form a controlled environment for wound healing with the help of suitable barrier. Over the past few decades, various topical formulations of wound barriers like films, hydrogels, emulsions and nano/micro-fibers have been explored. The drug-embedded fibers are the potential candidate for wound healing as a barrier owing to the large specific surface area (for surface functionalization), enormous porosity ∼60–90% (for oxy-permeability), reticulated nano-porosity (for inhibition of the microorganism) and advanced electrospinning methodology which facilitates sustained drug release. Wound bed exhibits 37 °C temperature and 7.4 pH (typically for blood) condition which triggers the drug release and nano/micro-fiber degradation simultaneously. Drug-embedded nano/micro-fiber consists of a matrix with excellent biocompatibility, appreciable biodegradation rate (e.g. Chitin nanofiber-20% degradation in 15 days) and a drug with a superior antibiotic, antimicrobial property, besides certain drug (e.g. Captopril) also promote vasodilation which increases in-vascular permeability leading to rapid movement of leukocytes into the affected tissue, thereby reducing the healing time. In this review article, we discuss the consolidated recent advanced works on wound healing and wound dressing which implies the significance of wound dressing. In addition, the recent advancements in nano/micro-fiber fabrication methodology for drug release mechanism, and benefits of the fiber-based wound dressings compared to conventional wound dressings have been extensively discussed.
[Display omitted] •Consolidated data on wound healing and wound dressing along with drug delivery mechanism.•The comprehensive wound healing process have been explained.•The therapeutic approach for reducing the healing time with nano/micro-fibers based wound dressing.•Classification of Electrospun nanofibers and their effect on the drug delivery efficiency. Chronic wound healing is an intricate time-consuming process (healing time ∼12 weeks), susceptible to external biological attack such as bacteria (e.g. E. coli, B. subtilis, S. aureus etc.) promoting wound infection and exhibit a negative effect on the immune system, therefore, it is a necessity to form a controlled environment for wound healing with the help of suitable barrier. Over the past few decades, various topical formulations of wound barriers like films, hydrogels, emulsions and nano/micro-fibers have been explored. The drug-embedded fibers are the potential candidate for wound healing as a barrier owing to the large specific surface area (for surface functionalization), enormous porosity ∼60–90% (for oxy-permeability), reticulated nano-porosity (for inhibition of the microorganism) and advanced electrospinning methodology which facilitates sustained drug release. Wound bed exhibits 37 °C temperature and 7.4 pH (typically for blood) condition which triggers the drug release and nano/micro-fiber degradation simultaneously. Drug-embedded nano/micro-fiber consists of a matrix with excellent biocompatibility, appreciable biodegradation rate (e.g. Chitin nanofiber-20% degradation in 15 days) and a drug with a superior antibiotic, antimicrobial property, besides certain drug (e.g. Captopril) also promote vasodilation which increases in-vascular permeability leading to rapid movement of leukocytes into the affected tissue, thereby reducing the healing time. In this review article, we discuss the consolidated recent advanced works on wound healing and wound dressing which implies the significance of wound dressing. In addition, the recent advancements in nano/micro-fiber fabrication methodology for drug release mechanism, and benefits of the fiber-based wound dressings compared to conventional wound dressings have been extensively discussed.
Author Kandasubramanian, Balasubramanian
Ambekar, Rushikesh S.
Author_xml – sequence: 1
  givenname: Rushikesh S.
  surname: Ambekar
  fullname: Ambekar, Rushikesh S.
– sequence: 2
  givenname: Balasubramanian
  surname: Kandasubramanian
  fullname: Kandasubramanian, Balasubramanian
  email: meetkbs@gmail.com
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Snippet [Display omitted] •Consolidated data on wound healing and wound dressing along with drug delivery mechanism.•The comprehensive wound healing process have been...
Chronic wound healing is an intricate time-consuming process (healing time ∼12 weeks), susceptible to external biological attack such as bacteria (e.g. E....
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SubjectTerms Antibiotic drugs
Antibiotics
Biocompatibility
Biodegradable polymers
Biodegradation
Captopril
Carbon fibers
Chitin
Drug delivery systems
E coli
Electrospinning
Emulsions
Formulations
Hydrogels
Leukocytes
Medical dressings
Nanofibers
Permeability
Porosity
Vasodilation
Wound dressing
Wound healing
Title Advancements in nanofibers for wound dressing: A review
URI https://dx.doi.org/10.1016/j.eurpolymj.2019.05.020
https://www.proquest.com/docview/2274341470
Volume 117
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