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Nanostructures for antimicrobial and antibiofilm applications

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Nanostructures for antimicrobial and antibiofilm applications/ edited by Ram Prasad, Busi Siddhardha, Madhu Dyavaiah.
其他作者:	Prasad, Ram.
出版者:	Cham :Springer International Publishing : : 2020.,
面頁冊數:	xiv, 458 p. :ill., digital ;24 cm.
內容註:	Preface -- Polymer Macromolecules to Polymeric Nanostructures: Efficient antibacterial candidates -- Algal Nanoparticles -- Green and bio-mechanochemical synthesis of silver nanoparticles and their antibacterial activity -- Novel antimicrobial compounds from indigenous plants and microbes -- Antimicrobial properties of prodigionins from bacteria -- Immobilized systems based on secondary metabolites produced by microorganisms -- Nanomaterials as Therapeutic agents for antimicrobial therapy -- Antivral natural compounds -- A Review of Next-Generation Nano-Antimicrobials in orthopaedics -- Recent advances in the design and synthesis of antibacterial and biofilm nanoplatforms -- Recent nanotechnological tools for irradication of biofilms on medical devices -- Recent Trends in Antimicrobial or Biofilms with Advanced Specificity at gene level treatment -- Current and Future Prospects of Nanotechnology for the Study of Infectious Diseases -- Nanostructures for antimicrobial and antibiofilm photodynamic therapy -- Nanoparticle-based antimicrobial coating on medical implants -- Anti-quorum sensing systems and biofilm formation -- Antibiofilm, antifouling and anticorrosive biomaterials and nanomaterials for marine applications -- A review of applications and challenges of silver nanoparticles as antimicrobial agents -- Estimating the effect of ZnO nanoparticles using CS/PVA/MC3 biofilms for antimicrobial activity -- Mesoporous silica nanomaterials as antibacterial and antibiofilm agents -- Index.
Contained By:	Springer eBooks
標題:	Nanostructured materials. -
電子資源:	https://doi.org/10.1007/978-3-030-40337-9
ISBN:	9783030403379

Nanostructures for antimicrobial and antibiofilm applications
Nanostructures for antimicrobial and antibiofilm applications[electronic resource] /edited by Ram Prasad, Busi Siddhardha, Madhu Dyavaiah. - Cham :Springer International Publishing :2020. - xiv, 458 p. :ill., digital ;24 cm. - Nanotechnology in the life sciences,2523-8027. - Nanotechnology in the life sciences..

Preface -- Polymer Macromolecules to Polymeric Nanostructures: Efficient antibacterial candidates -- Algal Nanoparticles -- Green and bio-mechanochemical synthesis of silver nanoparticles and their antibacterial activity -- Novel antimicrobial compounds from indigenous plants and microbes -- Antimicrobial properties of prodigionins from bacteria -- Immobilized systems based on secondary metabolites produced by microorganisms -- Nanomaterials as Therapeutic agents for antimicrobial therapy -- Antivral natural compounds -- A Review of Next-Generation Nano-Antimicrobials in orthopaedics -- Recent advances in the design and synthesis of antibacterial and biofilm nanoplatforms -- Recent nanotechnological tools for irradication of biofilms on medical devices -- Recent Trends in Antimicrobial or Biofilms with Advanced Specificity at gene level treatment -- Current and Future Prospects of Nanotechnology for the Study of Infectious Diseases -- Nanostructures for antimicrobial and antibiofilm photodynamic therapy -- Nanoparticle-based antimicrobial coating on medical implants -- Anti-quorum sensing systems and biofilm formation -- Antibiofilm, antifouling and anticorrosive biomaterials and nanomaterials for marine applications -- A review of applications and challenges of silver nanoparticles as antimicrobial agents -- Estimating the effect of ZnO nanoparticles using CS/PVA/MC3 biofilms for antimicrobial activity -- Mesoporous silica nanomaterials as antibacterial and antibiofilm agents -- Index.

In the pursuit of technological advancement in the field of biotechnology and pharmaceutical industries to counteract health issues, bacterial infections remain a major cause of morbidity and mortality. The ability of bacterial pathogens to form biofilms further agglomerates the situation by showing resistance to conventional antibiotics. To overcome this serious issue, bioactive metabolites and other natural products were exploited to combat bacterial infections and biofilm-related health consequences. Natural products exhibited promising results in vitro, however; their efficacy in in vivo conditions remain obscured due to their low-solubility, bioavailability, and biocompatibility issues. In this scenario, nanotechnological interventions provide a multifaceted platform for targeted delivery of bioactive compounds by slow and sustained release of drug-like compounds. The unique physico-chemical properties, biocompatibility and eco-friendly nature of bioinspired nanostructures has revolutionized the field of biology to eradicate microbial infections and biofilm-related complications. The green-nanotechnology based metal and metal oxide nanoparticles and polymeric nanoparticles have been regularly employed for antimicrobial and antibiofilm applications without causing damage to host tissues. The implications of these nanoparticles toward achieving sustainability in agriculture by providing systemic resistance against a variety of phytopathogens therefore plays crucial role in growth and crop productivity. Also the advent of smart and hybrid nanomaterials such as metal-based polymer nanocomposites, lipid-based nanomaterials and liposomes have the inherent potential to eradicate bacterial biofilm-related infections in an efficient manner. The recent development of carbon-based nanomaterials such as carbon nanotubes (CNTs) and silica based nanomaterials such as mesoporous silica nanoparticles (MSNs) also exploit a target of dreadful healthcare conditions such as cancer, immunomodulatory diseases, and microbial infections, as well as biofilm-related issues owing to their stability profile, biocompatibility, and unique physio-chemical properties. Recently novel physical approaches such as photothermal therapy (PTT) and antimicrobial photodynamic therapy (aPDT) also revolutionized conventional strategies and are engaged in eradicating microbial biofilm-related infections and related health consequences. These promising advancements in the development of novel strategies to treat microbial infections and biofilm-related multidrug resistance (MDR) phenomenon may provide new avenues and aid to conventional antimicrobial therapeutics.

ISBN: 9783030403379

Standard No.: 10.1007/978-3-030-40337-9doiSubjects--Topical Terms:

584856
Nanostructured materials.

LC Class. No.: TA418.9.N35 / N366 2020

Dewey Class. No.: 620.115

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520 $a In the pursuit of technological advancement in the field of biotechnology and pharmaceutical industries to counteract health issues, bacterial infections remain a major cause of morbidity and mortality. The ability of bacterial pathogens to form biofilms further agglomerates the situation by showing resistance to conventional antibiotics. To overcome this serious issue, bioactive metabolites and other natural products were exploited to combat bacterial infections and biofilm-related health consequences. Natural products exhibited promising results in vitro, however; their efficacy in in vivo conditions remain obscured due to their low-solubility, bioavailability, and biocompatibility issues. In this scenario, nanotechnological interventions provide a multifaceted platform for targeted delivery of bioactive compounds by slow and sustained release of drug-like compounds. The unique physico-chemical properties, biocompatibility and eco-friendly nature of bioinspired nanostructures has revolutionized the field of biology to eradicate microbial infections and biofilm-related complications. The green-nanotechnology based metal and metal oxide nanoparticles and polymeric nanoparticles have been regularly employed for antimicrobial and antibiofilm applications without causing damage to host tissues. The implications of these nanoparticles toward achieving sustainability in agriculture by providing systemic resistance against a variety of phytopathogens therefore plays crucial role in growth and crop productivity. Also the advent of smart and hybrid nanomaterials such as metal-based polymer nanocomposites, lipid-based nanomaterials and liposomes have the inherent potential to eradicate bacterial biofilm-related infections in an efficient manner. The recent development of carbon-based nanomaterials such as carbon nanotubes (CNTs) and silica based nanomaterials such as mesoporous silica nanoparticles (MSNs) also exploit a target of dreadful healthcare conditions such as cancer, immunomodulatory diseases, and microbial infections, as well as biofilm-related issues owing to their stability profile, biocompatibility, and unique physio-chemical properties. Recently novel physical approaches such as photothermal therapy (PTT) and antimicrobial photodynamic therapy (aPDT) also revolutionized conventional strategies and are engaged in eradicating microbial biofilm-related infections and related health consequences. These promising advancements in the development of novel strategies to treat microbial infections and biofilm-related multidrug resistance (MDR) phenomenon may provide new avenues and aid to conventional antimicrobial therapeutics.
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