Cutting-Edge Technologies in Biological Sensing and Analysis
Herausgeber: Nguyen, Anh Hung; Cao, Hung; Sim, Sang Jun
Cutting-Edge Technologies in Biological Sensing and Analysis
Herausgeber: Nguyen, Anh Hung; Cao, Hung; Sim, Sang Jun
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This book aims to cover a broad field of novel technologies used in biological assessment and analysis for humans, animal models and in vitro platforms, in both health monitoring and biological studies.
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This book aims to cover a broad field of novel technologies used in biological assessment and analysis for humans, animal models and in vitro platforms, in both health monitoring and biological studies.
Produktdetails
- Produktdetails
- Verlag: River Publishers
- Seitenzahl: 308
- Erscheinungstermin: 6. Februar 2024
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 658g
- ISBN-13: 9788770223799
- ISBN-10: 8770223793
- Artikelnr.: 68770535
- Verlag: River Publishers
- Seitenzahl: 308
- Erscheinungstermin: 6. Februar 2024
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 658g
- ISBN-13: 9788770223799
- ISBN-10: 8770223793
- Artikelnr.: 68770535
Anh Nguyen is a research scientist for The HERO Laboratory in University of California, Irvine. He received his Ph.D. degree in Chemical and Biological Engineering under the supervision of Dr. Sang Jun Sim. He joined The HERO Lab in 2019 and was promoted to his current position in 2020, working in cardiac regenerations and biosensor engineering. He has published articles in biosensors, molecular biology, and protein engineering. Sim Sang Jun is a Professor of Chemical and Biological Engineering, Korea University, South Korea. He is a renowned leader in biosensors. Hung Cao is an Associate Professor of Electrical Engineering, Biomedical Engineering, and Computer Science at UC Irvine. He is one of the pioneers in developing systems to assess the biomedical signals in zebrafish and rodent models. He directs the HERO Laboratory at UC Irvine.
1. Plasmonic sensors for applications in liquid biopsies 2. Analysis
methods and clinical applications of circulating cell-free DNA and RNA in
human blood 3. Animal models and techniques used in cardiovascular research
4. Phage based biosensors 5. Methods and challenges of tissue clearing
engineering for tissue complexity 6. Novel imaging contrast agents and
systems for biomedical sensing 7. Species-Independent Pipeline for
Quantitative Analysis of Electroencephalogram with Application in
Classification of Traumatic Brain Injury in Mice and Humans 8. Novel Image
processing to restore scattered light-sheet microscopic imaging technique
and its application for quantifying biomechanics 9. Assessment of cardiac
functions in developing zebrafish using imaging techniques
methods and clinical applications of circulating cell-free DNA and RNA in
human blood 3. Animal models and techniques used in cardiovascular research
4. Phage based biosensors 5. Methods and challenges of tissue clearing
engineering for tissue complexity 6. Novel imaging contrast agents and
systems for biomedical sensing 7. Species-Independent Pipeline for
Quantitative Analysis of Electroencephalogram with Application in
Classification of Traumatic Brain Injury in Mice and Humans 8. Novel Image
processing to restore scattered light-sheet microscopic imaging technique
and its application for quantifying biomechanics 9. Assessment of cardiac
functions in developing zebrafish using imaging techniques
1. Plasmonic sensors for applications in liquid biopsies 2. Analysis
methods and clinical applications of circulating cell-free DNA and RNA in
human blood 3. Animal models and techniques used in cardiovascular research
4. Phage based biosensors 5. Methods and challenges of tissue clearing
engineering for tissue complexity 6. Novel imaging contrast agents and
systems for biomedical sensing 7. Species-Independent Pipeline for
Quantitative Analysis of Electroencephalogram with Application in
Classification of Traumatic Brain Injury in Mice and Humans 8. Novel Image
processing to restore scattered light-sheet microscopic imaging technique
and its application for quantifying biomechanics 9. Assessment of cardiac
functions in developing zebrafish using imaging techniques
methods and clinical applications of circulating cell-free DNA and RNA in
human blood 3. Animal models and techniques used in cardiovascular research
4. Phage based biosensors 5. Methods and challenges of tissue clearing
engineering for tissue complexity 6. Novel imaging contrast agents and
systems for biomedical sensing 7. Species-Independent Pipeline for
Quantitative Analysis of Electroencephalogram with Application in
Classification of Traumatic Brain Injury in Mice and Humans 8. Novel Image
processing to restore scattered light-sheet microscopic imaging technique
and its application for quantifying biomechanics 9. Assessment of cardiac
functions in developing zebrafish using imaging techniques