Organic and inorganic antibacterial approaches in combating bacterial infection for biomedical application

In spite of antibiotics, antibacterial agents or specifically known as antiseptics are actively explored for the prevention of infection-associated medical devices. Antibacterial agents are introduced to overcome the complication of bacterial resistance which devoted by antibiotics. It can be classi...

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Veröffentlicht in:	Materials Science & Engineering C 2021-01, Vol.118, p.111382-111382, Article 111382
Hauptverfasser:	Saidin, Syafiqah, Jumat, Mohamad Amin, Mohd Amin, Nur Ain Atiqah, Saleh Al-Hammadi, Abdullah Sharaf
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Schlagworte:	Anti-Bacterial Agents - pharmacology Anti-Infective Agents Antibacterial Antibacterial activity Antibacterial agents Antibiotics Antiinfectives and antibacterials Antiseptics Bacteria Bacterial diseases Bacterial infections Bacterial Infections - drug therapy Biomaterials Biomedical Biomedical materials Chlorhexidine Gram-Negative Bacteria Gram-positive bacteria Humans Infection Infections Infectious diseases Inorganic Materials science Medical electronics Medical equipment Microbial Sensitivity Tests Organic Polyanilines Polyethyleneimine Silver Triclosan
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description	In spite of antibiotics, antibacterial agents or specifically known as antiseptics are actively explored for the prevention of infection-associated medical devices. Antibacterial agents are introduced to overcome the complication of bacterial resistance which devoted by antibiotics. It can be classified into inorganic and organic, that prominently have impacted bacterial retardation in their own killing mechanism patterns. Therefore, this review paper aimed to provide information on most common used inorganic and organic antibacterial agents which have potential to be utilized in biomedical applications, thus, classifying the trends of antibacterial mechanism on Gram-negative and Gram-positive bacteria. In the beginning, infectious diseases and associated biomedical infections were stated to expose current infection scenarios on medical devices. The general view, application, susceptible bacteria and activation mechanism of inorganic (silver, copper, gold and zinc) and organic (chlorhexidine, triclosan, polyaniline and polyethylenimine) antibacterial agents that are widely proposed for biomedical area, were then gathered and reviewed. In the latter part of the study, the intact mechanisms of inorganic and organic antibacterial agents in retarding bacterial growth were classified and summarized based on its susceptibility on Gram-negative and Gram-positive bacteria. Most of inorganic antibacterial agents are in the form of metal, which release its ions to retard prominently Gram-negative bacteria. While organic antibacterial agents are susceptible to Gram-positive bacteria through organelle modification and disturbance of bio-chemical pathway. However, the antibacterial effects of each antibacterial agent are also depending on its effective mechanism and the species of bacterial strain. These compilation reviews and classification mechanisms are beneficial to assist the selection of antibacterial agents to be incorporated on/within biomaterials, based on its susceptible bacteria. Besides, the combination of several antibacterial agents with different susceptibilities will cover a wide range of antibacterial spectrum. •Inorganic (Ag, Cu, Au and Zn) antibacterial agents, commonly used in biomedical area.•Among variety of organic (CHX, triclosan, PANI and PEI) antibacterial agents•Most inorganic agents are susceptible to Gram-negative bacteria through ion dissolution.•Organic agents are retarding Gram-positive bacteria through bio-chemical routes.•Antibacteria
doi_str_mv	10.1016/j.msec.2020.111382
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Antibacterial agents are introduced to overcome the complication of bacterial resistance which devoted by antibiotics. It can be classified into inorganic and organic, that prominently have impacted bacterial retardation in their own killing mechanism patterns. Therefore, this review paper aimed to provide information on most common used inorganic and organic antibacterial agents which have potential to be utilized in biomedical applications, thus, classifying the trends of antibacterial mechanism on Gram-negative and Gram-positive bacteria. In the beginning, infectious diseases and associated biomedical infections were stated to expose current infection scenarios on medical devices. The general view, application, susceptible bacteria and activation mechanism of inorganic (silver, copper, gold and zinc) and organic (chlorhexidine, triclosan, polyaniline and polyethylenimine) antibacterial agents that are widely proposed for biomedical area, were then gathered and reviewed. In the latter part of the study, the intact mechanisms of inorganic and organic antibacterial agents in retarding bacterial growth were classified and summarized based on its susceptibility on Gram-negative and Gram-positive bacteria. Most of inorganic antibacterial agents are in the form of metal, which release its ions to retard prominently Gram-negative bacteria. While organic antibacterial agents are susceptible to Gram-positive bacteria through organelle modification and disturbance of bio-chemical pathway. However, the antibacterial effects of each antibacterial agent are also depending on its effective mechanism and the species of bacterial strain. These compilation reviews and classification mechanisms are beneficial to assist the selection of antibacterial agents to be incorporated on/within biomaterials, based on its susceptible bacteria. Besides, the combination of several antibacterial agents with different susceptibilities will cover a wide range of antibacterial spectrum. •Inorganic (Ag, Cu, Au and Zn) antibacterial agents, commonly used in biomedical area.•Among variety of organic (CHX, triclosan, PANI and PEI) antibacterial agents•Most inorganic agents are susceptible to Gram-negative bacteria through ion dissolution.•Organic agents are retarding Gram-positive bacteria through bio-chemical routes.•Antibacterial effects are also depending on effective mechanism and bacterial species.</description><identifier>ISSN: 0928-4931</identifier><identifier>EISSN: 1873-0191</identifier><identifier>DOI: 10.1016/j.msec.2020.111382</identifier><identifier>PMID: 33254989</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Anti-Bacterial Agents - pharmacology ; Anti-Infective Agents ; Antibacterial ; Antibacterial activity ; Antibacterial agents ; Antibiotics ; Antiinfectives and antibacterials ; Antiseptics ; Bacteria ; Bacterial diseases ; Bacterial infections ; Bacterial Infections - drug therapy ; Biomaterials ; Biomedical ; Biomedical materials ; Chlorhexidine ; Gram-Negative Bacteria ; Gram-positive bacteria ; Humans ; Infection ; Infections ; Infectious diseases ; Inorganic ; Materials science ; Medical electronics ; Medical equipment ; Microbial Sensitivity Tests ; Organic ; Polyanilines ; Polyethyleneimine ; Silver ; Triclosan</subject><ispartof>Materials Science & Engineering C, 2021-01, Vol.118, p.111382-111382, Article 111382</ispartof><rights>2020</rights><rights>Copyright © 2020. 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In the latter part of the study, the intact mechanisms of inorganic and organic antibacterial agents in retarding bacterial growth were classified and summarized based on its susceptibility on Gram-negative and Gram-positive bacteria. Most of inorganic antibacterial agents are in the form of metal, which release its ions to retard prominently Gram-negative bacteria. While organic antibacterial agents are susceptible to Gram-positive bacteria through organelle modification and disturbance of bio-chemical pathway. However, the antibacterial effects of each antibacterial agent are also depending on its effective mechanism and the species of bacterial strain. These compilation reviews and classification mechanisms are beneficial to assist the selection of antibacterial agents to be incorporated on/within biomaterials, based on its susceptible bacteria. 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Antibacterial agents are introduced to overcome the complication of bacterial resistance which devoted by antibiotics. It can be classified into inorganic and organic, that prominently have impacted bacterial retardation in their own killing mechanism patterns. Therefore, this review paper aimed to provide information on most common used inorganic and organic antibacterial agents which have potential to be utilized in biomedical applications, thus, classifying the trends of antibacterial mechanism on Gram-negative and Gram-positive bacteria. In the beginning, infectious diseases and associated biomedical infections were stated to expose current infection scenarios on medical devices. The general view, application, susceptible bacteria and activation mechanism of inorganic (silver, copper, gold and zinc) and organic (chlorhexidine, triclosan, polyaniline and polyethylenimine) antibacterial agents that are widely proposed for biomedical area, were then gathered and reviewed. In the latter part of the study, the intact mechanisms of inorganic and organic antibacterial agents in retarding bacterial growth were classified and summarized based on its susceptibility on Gram-negative and Gram-positive bacteria. Most of inorganic antibacterial agents are in the form of metal, which release its ions to retard prominently Gram-negative bacteria. While organic antibacterial agents are susceptible to Gram-positive bacteria through organelle modification and disturbance of bio-chemical pathway. However, the antibacterial effects of each antibacterial agent are also depending on its effective mechanism and the species of bacterial strain. These compilation reviews and classification mechanisms are beneficial to assist the selection of antibacterial agents to be incorporated on/within biomaterials, based on its susceptible bacteria. Besides, the combination of several antibacterial agents with different susceptibilities will cover a wide range of antibacterial spectrum. •Inorganic (Ag, Cu, Au and Zn) antibacterial agents, commonly used in biomedical area.•Among variety of organic (CHX, triclosan, PANI and PEI) antibacterial agents•Most inorganic agents are susceptible to Gram-negative bacteria through ion dissolution.•Organic agents are retarding Gram-positive bacteria through bio-chemical routes.•Antibacterial effects are also depending on effective mechanism and bacterial species.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>33254989</pmid><doi>10.1016/j.msec.2020.111382</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	Anti-Bacterial Agents - pharmacology Anti-Infective Agents Antibacterial Antibacterial activity Antibacterial agents Antibiotics Antiinfectives and antibacterials Antiseptics Bacteria Bacterial diseases Bacterial infections Bacterial Infections - drug therapy Biomaterials Biomedical Biomedical materials Chlorhexidine Gram-Negative Bacteria Gram-positive bacteria Humans Infection Infections Infectious diseases Inorganic Materials science Medical electronics Medical equipment Microbial Sensitivity Tests Organic Polyanilines Polyethyleneimine Silver Triclosan
title	Organic and inorganic antibacterial approaches in combating bacterial infection for biomedical application
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