Chitosan-Coated Surgical Sutures Prevent Adherence and Biofilms of Mixed Microbial Communities
Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Altho...
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| Published in | Current microbiology Vol. 78; no. 2; pp. 502 - 512 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.02.2021
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0343-8651 1432-0991 1432-0991 |
| DOI | 10.1007/s00284-020-02306-7 |
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| Abstract | Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of
Staphylococcus epidermidis
and
Candida albicans
, the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of
C. albicans
hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs. |
|---|---|
| AbstractList | Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of Staphylococcus epidermidis and Candida albicans, the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of C. albicans hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs. Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of Staphylococcus epidermidis and Candida albicans, the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of C. albicans hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs. Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of Staphylococcus epidermidis and Candida albicans, the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of C. albicans hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs.Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of Staphylococcus epidermidis and Candida albicans, the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of C. albicans hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs. Sutures are widely used materials for closing the surgical wounds, and being an inert material, sutures are often colonized with drug-resistant polymicrobial biofilms. Surgical site infection (SSI) is a hospital-acquired infection caused by bacteria and fungi specifically in the sutured sites. Although most of the currently available sutures possess antibacterial property, their ability to prevent biofilm colonization by polymicrobial communities is underexplored. So, the present study shows that extracted chitosan (EC) from crab shells prevented the adherence of Staphylococcus epidermidis and Candida albicans , the predominant members that exist as mixed species at the site of SSI. In comparison with a commercial chitosan, EC showed profound inhibition of slime formation and mixed species biofilm inhibition. Intriguingly, EC-coated sutures could inhibit the growth of both bacterial and fungal pathogens when comparing with a commercial triclosan-coated suture which was active only against the bacterial pathogen. Scanning electron microscopy results revealed inhibition of C. albicans hyphal formation by the EC-coated sutures that is a crucial virulence factor responsible for tissue invasiveness. Collectively, the results of the present study showed that EC from crab shells (discarded material as a recalcitrant biowaste) could be used as an alternative to combat drug-resistant biofilms which are the prime cause for SSIs. |
| Author | Nithyanand, Paramasivam Hari, B Narayanan Vedha Prabha, Subramani Aruni, Wilson Ram, Parepalli Janaki Venkata Sai Sowndarya, Jothipandiyan Rubini, Durairajan |
| Author_xml | – sequence: 1 givenname: Subramani surname: Prabha fullname: Prabha, Subramani organization: Biofilm Biology Laboratory, Centre for Research on Infectious Diseases [CRID], School of Chemical and Biotechnology, SASTRA Deemed University – sequence: 2 givenname: Jothipandiyan surname: Sowndarya fullname: Sowndarya, Jothipandiyan organization: Biofilm Biology Laboratory, Centre for Research on Infectious Diseases [CRID], School of Chemical and Biotechnology, SASTRA Deemed University – sequence: 3 givenname: Parepalli Janaki Venkata Sai surname: Ram fullname: Ram, Parepalli Janaki Venkata Sai organization: Biofilm Biology Laboratory, Centre for Research on Infectious Diseases [CRID], School of Chemical and Biotechnology, SASTRA Deemed University – sequence: 4 givenname: Durairajan surname: Rubini fullname: Rubini, Durairajan organization: Biofilm Biology Laboratory, Centre for Research on Infectious Diseases [CRID], School of Chemical and Biotechnology, SASTRA Deemed University – sequence: 5 givenname: B Narayanan Vedha surname: Hari fullname: Hari, B Narayanan Vedha organization: Department of Pharmacy, School of Chemical and Biotechnology, SASTRA Deemed University – sequence: 6 givenname: Wilson surname: Aruni fullname: Aruni, Wilson organization: US Department of Veteran Affairs, California University of Science and Medicine, Sathyabama Institute of Science and Technology – sequence: 7 givenname: Paramasivam surname: Nithyanand fullname: Nithyanand, Paramasivam email: pnithyanand@gmail.com organization: Biofilm Biology Laboratory, Centre for Research on Infectious Diseases [CRID], School of Chemical and Biotechnology, SASTRA Deemed University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33389059$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | antibacterial properties Bacteria biofilm Biofilms Biomedical and Life Sciences Biotechnology Candida albicans Chitosan Chitosan - pharmacology Coating Coatings Colonization crabs cross infection Drug resistance Fungi hyphae Infectious diseases Invasiveness Life Sciences Microbial activity Microbiology Microbiota Microorganisms Nosocomial infections Pathogens Pharmaceutical Preparations Scanning electron microscopy Shells Slime Staphylococcus epidermidis Surgery Surgical site infections Sutures Triclosan Virulence Virulence factors wastes |
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| Title | Chitosan-Coated Surgical Sutures Prevent Adherence and Biofilms of Mixed Microbial Communities |
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