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Nanobiosensors for Personalized and Onsite Biomedical Diagnosis

Chandra Pranjal
Innbundet / 2016 / Engelsk

Produktdetaljer

ISBN
9781849199506
Publisert
2016-07-15
Utgiver
Vendor
Institution of Engineering and Technology
Høyde
234 mm
Bredde
156 mm
Aldersnivå
UP, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
640

Redaktør
Chandra Pranjal

Om bidragsyterne

Dr. Pranjal Chandra is currently working as Assistant Professor and Principal Investigator in the Department of Biosciences and Bioengineering at the Indian Institute of Technology Guwahati (IITG), Guwahati, India. He earned his PhD from the Institute of Biophysio Sensor Technology, Pusan National University, South Korea and did postdoctoral research at Technion - Israel Institute of Technology, Israel. His research group is working towards the development of cheap diagnostic methods based on nanobiosensors, microfluidic systems, paper based sensors for biomedical diagnostics and environmental monitoring. He is the recipient of several awards and fellowships including the Ramanujan Fellowship awarded by the Government of India. Dr. Chandra is an editorial board member of various journals including World Journal of Methodology, USA.

Nanobiosensors for Personalized and Onsite Biomedical Diagnosis

Chandra Pranjal
Innbundet / 2016 / Engelsk
Chandra Pranjal
Innbundet / 2016 / Engelsk
Nettpris:
1.946,-
Levering 7-20 dager
Sjekk lagerstatus i butikk
Nanobiosensors have been successful for in vitro as well as in vivo detection of several biomolecules and it is expected that this technology will revolutionize point-of-care and personalized diagnostics, and will be extremely applicable for early disease detection and therapeutic applications. This book describes the emerging nanobiosensor technologies which are geared towards onsite clinical applications and those which can be used as a personalised diagnostic device. Biosensor technologies and materials covered include electrochemical biosensors; implantable microbiosensors; microfluidic technology; surface plasmon resonance-based technologies; optical and fibre-optic sensors; lateral flow biosensors; lab on a chip; nanomaterials based (graphene, nanoparticles, nanocomposites, and other carbon nanomaterial) sensors; metallic nanobiosensors; wearable and doppler-based non-contact vital signs biosensors; and technologies for smartphone based disease diagnosis. Clinical applications of these technologies covered in this book include detection of various protein biomarkers, small molecules, cancer and bacterial cells; detection of foodborne pathogens; generation and optimisation of antibodies for biosensor applications; microRNAs and their applications in diagnosis for osteoarthritis; detection of circulating tumor cells; online heartbeat monitoring; analysis of drugs in body fluids; sensing of nucleic acids; and monitoring oxidative stress.
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This book describes the emerging nanobiosensor technologies which are geared towards onsite clinical applications and those which can be used as a personalised diagnostic device.
Chapter 1: Gold nanoparticle-based electrochemical biosensors for biomedical diagnosis applicationsChapter 2: Development and application of microbiosensors for in-vivo diagnosticsChapter 3: Electrochemical biosensors: fabrication and applications in biodiagnosticsChapter 4: Microchip-based separation and detection methods for chemically and biologically valuable analytesChapter 5: Biosensors of in vitro detection of cancer and bacterial cellsChapter 6: Biacore - a surface plasmon resonance-based technologyChapter 7: Implantable microbiosensors: towards in vivo monitoringChapter 8: Nanomaterials based biosensors: a smart approach towards on-site clinical diagnosisChapter 9: Optical waveguide-based biosensor for label-free monitoring of living cellsChapter 10: Optical biosensors for the detection of food borne pathogensChapter 11: Generation and optimisation of antibodies for biosensor applicationsChapter 12: Smartphone-based in vitro diagnostic technologies for personalized healthcare monitoring and managementChapter 13: Lateral flow biosensorsChapter 14: MicroRNAs and their applications in diagnosis for osteoarthritisChapter 15: Electrochemical capacitive biosensors for point-of-care diagnostics: principles and applicationsChapter 16: AC electrokinetics-based capacitive biosensor as a platform technology for on-site detection of biospecific interactionsChapter 17: Fibre optical technology for monitoring and diagnostic applicationsChapter 18: Nanobiosensors for the detection of circulating tumor cellsChapter 19: Design investigations for robust and continuous online heartbeat monitoring using wearable vs. Doppler-based non-contact vital signs biosensorsChapter 20: Lab on a chip for point-of-care analysis of drugs in body fluidsChapter 21: Hydrogel-based biosensors: fundamentals and applicationsChapter 22: Applications of graphene microelectrodes in clinical analysisChapter 23: Sensing of nucleic acids and cancer cells using nanostructure-SPR integrated with microfluidic chipChapter 24: Surface plasmon resonance based miniaturized biosensors for medical applicationsChapter 25: Methods for monitoring oxidative stress using conventional and advanced nanodiagnostics methodsChapter 26: Metallic nanobiosensors for biological analysis and medical diagnosticsChapter 27: Carbon nanomaterial based biosensors for onsite biomedical diagnosisChapter 28: Nanoparticle-based sensing of oligonucleotides and proteins
Les mer

Relaterte produkter

Nanobiosensors have been successful for in vitro as well as in vivo detection of several biomolecules and it is expected that this technology will revolutionize point-of-care and personalized diagnostics, and will be extremely applicable for early disease detection and therapeutic applications. This book describes the emerging nanobiosensor technologies which are geared towards onsite clinical applications and those which can be used as a personalised diagnostic device. Biosensor technologies and materials covered include electrochemical biosensors; implantable microbiosensors; microfluidic technology; surface plasmon resonance-based technologies; optical and fibre-optic sensors; lateral flow biosensors; lab on a chip; nanomaterials based (graphene, nanoparticles, nanocomposites, and other carbon nanomaterial) sensors; metallic nanobiosensors; wearable and doppler-based non-contact vital signs biosensors; and technologies for smartphone based disease diagnosis. Clinical applications of these technologies covered in this book include detection of various protein biomarkers, small molecules, cancer and bacterial cells; detection of foodborne pathogens; generation and optimisation of antibodies for biosensor applications; microRNAs and their applications in diagnosis for osteoarthritis; detection of circulating tumor cells; online heartbeat monitoring; analysis of drugs in body fluids; sensing of nucleic acids; and monitoring oxidative stress.
Les mer
This book describes the emerging nanobiosensor technologies which are geared towards onsite clinical applications and those which can be used as a personalised diagnostic device.
Chapter 1: Gold nanoparticle-based electrochemical biosensors for biomedical diagnosis applicationsChapter 2: Development and application of microbiosensors for in-vivo diagnosticsChapter 3: Electrochemical biosensors: fabrication and applications in biodiagnosticsChapter 4: Microchip-based separation and detection methods for chemically and biologically valuable analytesChapter 5: Biosensors of in vitro detection of cancer and bacterial cellsChapter 6: Biacore - a surface plasmon resonance-based technologyChapter 7: Implantable microbiosensors: towards in vivo monitoringChapter 8: Nanomaterials based biosensors: a smart approach towards on-site clinical diagnosisChapter 9: Optical waveguide-based biosensor for label-free monitoring of living cellsChapter 10: Optical biosensors for the detection of food borne pathogensChapter 11: Generation and optimisation of antibodies for biosensor applicationsChapter 12: Smartphone-based in vitro diagnostic technologies for personalized healthcare monitoring and managementChapter 13: Lateral flow biosensorsChapter 14: MicroRNAs and their applications in diagnosis for osteoarthritisChapter 15: Electrochemical capacitive biosensors for point-of-care diagnostics: principles and applicationsChapter 16: AC electrokinetics-based capacitive biosensor as a platform technology for on-site detection of biospecific interactionsChapter 17: Fibre optical technology for monitoring and diagnostic applicationsChapter 18: Nanobiosensors for the detection of circulating tumor cellsChapter 19: Design investigations for robust and continuous online heartbeat monitoring using wearable vs. Doppler-based non-contact vital signs biosensorsChapter 20: Lab on a chip for point-of-care analysis of drugs in body fluidsChapter 21: Hydrogel-based biosensors: fundamentals and applicationsChapter 22: Applications of graphene microelectrodes in clinical analysisChapter 23: Sensing of nucleic acids and cancer cells using nanostructure-SPR integrated with microfluidic chipChapter 24: Surface plasmon resonance based miniaturized biosensors for medical applicationsChapter 25: Methods for monitoring oxidative stress using conventional and advanced nanodiagnostics methodsChapter 26: Metallic nanobiosensors for biological analysis and medical diagnosticsChapter 27: Carbon nanomaterial based biosensors for onsite biomedical diagnosisChapter 28: Nanoparticle-based sensing of oligonucleotides and proteins
Les mer

Produktdetaljer

ISBN
9781849199506
Publisert
2016-07-15
Utgiver
Vendor
Institution of Engineering and Technology
Høyde
234 mm
Bredde
156 mm
Aldersnivå
UP, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
640

Redaktør
Chandra Pranjal

Om bidragsyterne

Dr. Pranjal Chandra is currently working as Assistant Professor and Principal Investigator in the Department of Biosciences and Bioengineering at the Indian Institute of Technology Guwahati (IITG), Guwahati, India. He earned his PhD from the Institute of Biophysio Sensor Technology, Pusan National University, South Korea and did postdoctoral research at Technion - Israel Institute of Technology, Israel. His research group is working towards the development of cheap diagnostic methods based on nanobiosensors, microfluidic systems, paper based sensors for biomedical diagnostics and environmental monitoring. He is the recipient of several awards and fellowships including the Ramanujan Fellowship awarded by the Government of India. Dr. Chandra is an editorial board member of various journals including World Journal of Methodology, USA.

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