Diamond-like carbon coating to inner surface of polyurethane tube reduces Staphylococcus aureus bacterial adhesion and biofilm formation

Staphylococcus aureus is one of the main causative bacteria for polyurethane catheter and artificial graft infection. Recently, we developed a unique technique for coating diamond-like carbon (DLC) inside the luminal resin structure of polyurethane tubes. This study aimed to elucidate the infection-...

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Veröffentlicht in:	Journal of artificial organs 2024-06, Vol.27 (2), p.108-116
Hauptverfasser:	Kuwada, Noriaki, Fujii, Yasuhiro, Nakatani, Tatsuyuki, Ousaka, Daiki, Tsuji, Tatsunori, Imai, Yuichi, Kobayashi, Yasuyuki, Oozawa, Susumu, Kasahara, Shingo, Tanemoto, Kazuo
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Schlagworte:	Antiinfectives and antibacterials Antimicrobial activity Bacteria Bacterial Adhesion - drug effects Biofilms Biofilms - drug effects Biomedical Engineering and Bioengineering Carbon Carbon - chemistry Carbon - pharmacology Cardiac Surgery Catheters Coated Materials, Biocompatible - pharmacology Coating Coatings Diamond - chemistry Diamond-like carbon films Fluid flow Humans Medical instruments Medicine Medicine & Public Health Nephrology Original Original Article Polyurethane Polyurethane resins Polyurethanes - pharmacology Scanning electron microscopy Smoothness Staphylococcus aureus Staphylococcus aureus - drug effects Staphylococcus aureus - physiology Surface Properties Tubes Zeta potential
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container_title	Journal of artificial organs
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creator	Kuwada, Noriaki Fujii, Yasuhiro Nakatani, Tatsuyuki Ousaka, Daiki Tsuji, Tatsunori Imai, Yuichi Kobayashi, Yasuyuki Oozawa, Susumu Kasahara, Shingo Tanemoto, Kazuo
description	Staphylococcus aureus is one of the main causative bacteria for polyurethane catheter and artificial graft infection. Recently, we developed a unique technique for coating diamond-like carbon (DLC) inside the luminal resin structure of polyurethane tubes. This study aimed to elucidate the infection-preventing effects of diamond-like carbon (DLC) coating on a polyurethane surface against S. aureus . We applied DLC to polyurethane tubes and rolled polyurethane sheets with our newly developed DLC coating technique for resin tubes. The DLC-coated and uncoated polyurethane surfaces were tested in smoothness, hydrophilicity, zeta-potential, and anti-bacterial properties against S. aureus (biofilm formation and bacterial attachment) by contact with bacterial fluids under static and flow conditions. The DLC-coated polyurethane surface was significantly smoother, more hydrophilic, and had a more negative zeta-potential than did the uncoated polyurethane surface. Upon exposure to bacterial fluid under both static and flow conditions, DLC-coated polyurethane exhibited significantly less biofilm formation than uncoated polyurethane, based on absorbance measurements. In addition, the adherence of S. aureus was significantly lower for DLC-coated polyurethane than for uncoated polyurethane under both conditions, based on scanning electron microscopy. These results show that applying DLC coating to the luminal resin of polyurethane tubes may impart antimicrobial effects against S. aureus to implantable medical polyurethane devices, such as vascular grafts and central venous catheters.
doi_str_mv	10.1007/s10047-023-01403-1
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Recently, we developed a unique technique for coating diamond-like carbon (DLC) inside the luminal resin structure of polyurethane tubes. This study aimed to elucidate the infection-preventing effects of diamond-like carbon (DLC) coating on a polyurethane surface against S. aureus . We applied DLC to polyurethane tubes and rolled polyurethane sheets with our newly developed DLC coating technique for resin tubes. The DLC-coated and uncoated polyurethane surfaces were tested in smoothness, hydrophilicity, zeta-potential, and anti-bacterial properties against S. aureus (biofilm formation and bacterial attachment) by contact with bacterial fluids under static and flow conditions. The DLC-coated polyurethane surface was significantly smoother, more hydrophilic, and had a more negative zeta-potential than did the uncoated polyurethane surface. Upon exposure to bacterial fluid under both static and flow conditions, DLC-coated polyurethane exhibited significantly less biofilm formation than uncoated polyurethane, based on absorbance measurements. In addition, the adherence of S. aureus was significantly lower for DLC-coated polyurethane than for uncoated polyurethane under both conditions, based on scanning electron microscopy. These results show that applying DLC coating to the luminal resin of polyurethane tubes may impart antimicrobial effects against S. aureus to implantable medical polyurethane devices, such as vascular grafts and central venous catheters.</description><identifier>ISSN: 1434-7229</identifier><identifier>EISSN: 1619-0904</identifier><identifier>DOI: 10.1007/s10047-023-01403-1</identifier><identifier>PMID: 37227545</identifier><language>eng</language><publisher>Singapore: Springer Nature Singapore</publisher><subject>Antiinfectives and antibacterials ; Antimicrobial activity ; Bacteria ; Bacterial Adhesion - drug effects ; Biofilms ; Biofilms - drug effects ; Biomedical Engineering and Bioengineering ; Carbon ; Carbon - chemistry ; Carbon - pharmacology ; Cardiac Surgery ; Catheters ; Coated Materials, Biocompatible - pharmacology ; Coating ; Coatings ; Diamond - chemistry ; Diamond-like carbon films ; Fluid flow ; Humans ; Medical instruments ; Medicine ; Medicine & Public Health ; Nephrology ; Original ; Original Article ; Polyurethane ; Polyurethane resins ; Polyurethanes - pharmacology ; Scanning electron microscopy ; Smoothness ; Staphylococcus aureus ; Staphylococcus aureus - drug effects ; Staphylococcus aureus - physiology ; Surface Properties ; Tubes ; Zeta potential</subject><ispartof>Journal of artificial organs, 2024-06, Vol.27 (2), p.108-116</ispartof><rights>The Author(s) 2023</rights><rights>2023. 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Recently, we developed a unique technique for coating diamond-like carbon (DLC) inside the luminal resin structure of polyurethane tubes. This study aimed to elucidate the infection-preventing effects of diamond-like carbon (DLC) coating on a polyurethane surface against S. aureus . We applied DLC to polyurethane tubes and rolled polyurethane sheets with our newly developed DLC coating technique for resin tubes. The DLC-coated and uncoated polyurethane surfaces were tested in smoothness, hydrophilicity, zeta-potential, and anti-bacterial properties against S. aureus (biofilm formation and bacterial attachment) by contact with bacterial fluids under static and flow conditions. The DLC-coated polyurethane surface was significantly smoother, more hydrophilic, and had a more negative zeta-potential than did the uncoated polyurethane surface. 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Recently, we developed a unique technique for coating diamond-like carbon (DLC) inside the luminal resin structure of polyurethane tubes. This study aimed to elucidate the infection-preventing effects of diamond-like carbon (DLC) coating on a polyurethane surface against S. aureus . We applied DLC to polyurethane tubes and rolled polyurethane sheets with our newly developed DLC coating technique for resin tubes. The DLC-coated and uncoated polyurethane surfaces were tested in smoothness, hydrophilicity, zeta-potential, and anti-bacterial properties against S. aureus (biofilm formation and bacterial attachment) by contact with bacterial fluids under static and flow conditions. The DLC-coated polyurethane surface was significantly smoother, more hydrophilic, and had a more negative zeta-potential than did the uncoated polyurethane surface. Upon exposure to bacterial fluid under both static and flow conditions, DLC-coated polyurethane exhibited significantly less biofilm formation than uncoated polyurethane, based on absorbance measurements. In addition, the adherence of S. aureus was significantly lower for DLC-coated polyurethane than for uncoated polyurethane under both conditions, based on scanning electron microscopy. These results show that applying DLC coating to the luminal resin of polyurethane tubes may impart antimicrobial effects against S. aureus to implantable medical polyurethane devices, such as vascular grafts and central venous catheters.</abstract><cop>Singapore</cop><pub>Springer Nature Singapore</pub><pmid>37227545</pmid><doi>10.1007/s10047-023-01403-1</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-1340-9828</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Antiinfectives and antibacterials Antimicrobial activity Bacteria Bacterial Adhesion - drug effects Biofilms Biofilms - drug effects Biomedical Engineering and Bioengineering Carbon Carbon - chemistry Carbon - pharmacology Cardiac Surgery Catheters Coated Materials, Biocompatible - pharmacology Coating Coatings Diamond - chemistry Diamond-like carbon films Fluid flow Humans Medical instruments Medicine Medicine & Public Health Nephrology Original Original Article Polyurethane Polyurethane resins Polyurethanes - pharmacology Scanning electron microscopy Smoothness Staphylococcus aureus Staphylococcus aureus - drug effects Staphylococcus aureus - physiology Surface Properties Tubes Zeta potential
title	Diamond-like carbon coating to inner surface of polyurethane tube reduces Staphylococcus aureus bacterial adhesion and biofilm formation
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