Advanced Optical Techniques in Biosciences is an interdisciplinary resource that deals with the in-depth analysis of several industrially and economically important physicochemical properties that have a wide range of applications for the pharmaceutical sector, food sciences, the textile industry, drug delivery and tissue engineering.
Advanced Optical Techniques in Biosciences is an interdisciplinary resource that deals with the in-depth analysis of several industrially and economically important physicochemical properties that have a wide range of applications for the pharmaceutical sector, food sciences, the textile industry, drug delivery and tissue engineering. This comprehensive volume explores cutting-edge optical technologies revolutionizing biomedical research and diagnostics. From molecular-level investigations using carbon nanotubes to advanced imaging techniques like fluorescence lifetime imaging microscopy (FLIM) and quantitative phase imaging (QPI), readers will discover how optical science is transforming our understanding of biological systems. The text covers innovative approaches including photoacoustic imaging for regenerative medicine, quantum dot applications in high-resolution microscopy, and terahertz spectroscopy for biomedical research. Practical applications range from analyzing millet starch digestibility and detecting adulterated vegetable oils to quantifying exosomes and adapting expansion microscopy for virus research. The final chapter examines how deep learning (DL) models are enhancing computer-assisted diagnosis of Alzheimer's disease, highlighting the intersection of optical technologies with artificial intelligence. This essential resource provides graduate students, researchers and clinicians with a thorough understanding of modern optical diagnostic tools and their transformative potential in addressing critical biomedical challenges.
Key Features:
- Provides comprehensive coverage of cutting-edge optical technologies
- Discusses interdisciplinary applications across multiple industries.
- Highlights the integration of artificial intelligence into optical technologies.
1. Biosciences At Molecular Levels Illuminated by Near-infrared Optical
Responses of Single-walled Carbon Nanotubes
2. Evaluation of Modern Optical Diagnostics Tools
3. Fluorescence Lifetime Imaging Data Analysis and Interpretation
4. Fluorescence Lifetime Imaging Microscopy (FLIM)
5. Quantitative Phase Imaging (QPI) in Biomedical Research
6. Advances in Photoacoustic Imaging for Regenerative Medicine and Stem Cell
Therapy
7. Leveraging Quantum Dot Probes for High-Resolution and Multiplexed
Microscopy
8. Spectroscopic and Microscopic Characterization of Millet Starch
Digestibility
9. Advancement in Virus Research with an Adaptation of Expansion Microscopy
10. Development of an Optimized Method for the Rapid Quantification of
Exosomes
11. Terahertz Spectroscopy in Biomedical Research
12. Purity Analysis of Adulterated Vegetable Oils by Optical Spectroscopy
13. A Study of Computer Assisted Diagnosis of Alzheimers Disease by Deep
Learning Models
Dr. Nirmal Mazumder is an Associate Professor at the Department of Biophysics, Manipal School of Life Sciences, Manipal Academy of Higher Education (MAHE), Manipal, India. His research interests include development of microscopy-spectroscopy techniques, biomedical devices, biophotonics, smart materials, and microfluidics and its biomedical applications. He has published more than 125 research articles in the peer-reviewed international journals, 20 books, 45 book chapters, and several poster/oral/invited presentations in National and International conferences.
Dr. Yury V. Kistenev is a Professor at the Tomsk State University (TSU). He received his PhD degree in optics in 1987 and a doctoral degree in physics and mathematics in 1997. He is the author of more than 150 journal papers and has written four books as author and editor. His current research interests include laser molecular imaging, laser spectroscopy, and machine learning.
Dr. Igor K. Lednev is a Distinguished Professor and Williams-Raycheff Endowed Chair in Chemistry at the University at Albany, State University of New York. He earned his PhD from the Moscow Institute of Physics and Technology. Dr. Lednev is the founding director of the Center for Biophotonics Technology and Artificial Intelligence and co-founder of two startup companies. He served as an advisory member on the White House Subcommittee for Forensic Science and has co-authored over 300 publications and 12 patents, achieving an h-index of 80. His honors include the Charles Mann Award for Applied Raman Spectroscopy and the Gold Medal Award from the Society for Applied Spectroscopy.
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