Biomedical photonics is defined as the science of harnessing light and other forms of radiant energy to address problems in medicine and biology. The field has experienced explosive growth due to the non-invasive or minimally invasive nature and cost-effectiveness of photonic modalities in medical diagnostics and therapy. The second volume focuses on biomedical diagnostic technologies and applications from the bench to the bedside. It is an authoritative reference source for those involved in the research, teaching, learning, and practice of medical technologies.
Biomedical photonics is defined as the science of harnessing light and other forms of radiant energy to address problems in medicine and biology. The field has experienced explosive growth due to the non-invasive or minimally invasive nature and cost-effectiveness of photonic modalities in medical diagnostics and therapy. The second volume focuses on biomedical diagnostic technologies and applications from the bench to the bedside. It is an authoritative reference source for those involved in the research, teaching, learning, and practice of medical technologies.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Tuan Vo-Dinh is the R. Eugene and Susie E. Goodson Distinguished Professor of biomedical engineering, professor of chemistry, and director of the Fitzpatrick Institute for Photonics at Duke University. He received a B.S. in physics in 1970 from EPFL (Ecole Polytechnique Federal de Lausanne) in Lausanne and a Ph.D. in physical chemistry in 1975 from ETH (Swiss Federal Institute of Technology) in Zurich, Switzerland. Dr. Vo-Dinh has authored over 350 publications in peer-reviewed scientific journals. He is the author of a textbook on spectroscopy and editor of 6 books. He has received numerous awards and holds over 37 U.S. and international patents.
Inhaltsangabe
Biomedical Analysis, Sensing and Imaging. Biosensors for Medical Applications. Glucose Monitoring. Biochips and MicroArrays: Tools for the New Medicine. Atomic Spectroscopy for Biological and Clinical Analysis. Flow Cytometry. Capillary Electrophoresis Techniques in Biomedical Analysis. Surface Plasmon Resonance Imaging: Principle, Development, and Biomedical Applications. Surface-Enhanced Raman Scattering (SERS) for Biomedical Diagnostics. Functional Imaging with Diffusing Light. Molecular Contrast Optical Coherence Tomography. Multiscale Photoacoustic Microscopy and Macroscopy. Polarized light for Medical Diagnostics. Optical Pumping and MRI of Hyperpolarized Spins. Biomedical Diagnostics and Optical Biopsy. Fluorescence Spectroscopy for Biomedical Diagnostics. Elastic-Scattering Spectroscopy and Diffuse Reflectance. Quantitative Diffuse Reflectance Imaging of Tumor Margins. Near Infrared Fluorescence Imaging and Spectroscopy in Random Media and Tissues. Interferometric light scattering techniques for measuring nuclear morphology and detecting dysplasia. Ultrasonically Modulated Optical Imaging. Optoacoustic Tomography. Raman Spectroscopy: From Benchtop to Bedside. Fourier Transform Infrared (FTIR) Microspectroscopic Methods for Biomedical Analyses: From Single Point Detection to Two-Dimensional Imaging. Photon Migration Spectroscopy Frequency-Domain Techniques.
Biomedical Analysis, Sensing and Imaging. Biosensors for Medical Applications. Glucose Monitoring. Biochips and MicroArrays: Tools for the New Medicine. Atomic Spectroscopy for Biological and Clinical Analysis. Flow Cytometry. Capillary Electrophoresis Techniques in Biomedical Analysis. Surface Plasmon Resonance Imaging: Principle, Development, and Biomedical Applications. Surface-Enhanced Raman Scattering (SERS) for Biomedical Diagnostics. Functional Imaging with Diffusing Light. Molecular Contrast Optical Coherence Tomography. Multiscale Photoacoustic Microscopy and Macroscopy. Polarized light for Medical Diagnostics. Optical Pumping and MRI of Hyperpolarized Spins. Biomedical Diagnostics and Optical Biopsy. Fluorescence Spectroscopy for Biomedical Diagnostics. Elastic-Scattering Spectroscopy and Diffuse Reflectance. Quantitative Diffuse Reflectance Imaging of Tumor Margins. Near Infrared Fluorescence Imaging and Spectroscopy in Random Media and Tissues. Interferometric light scattering techniques for measuring nuclear morphology and detecting dysplasia. Ultrasonically Modulated Optical Imaging. Optoacoustic Tomography. Raman Spectroscopy: From Benchtop to Bedside. Fourier Transform Infrared (FTIR) Microspectroscopic Methods for Biomedical Analyses: From Single Point Detection to Two-Dimensional Imaging. Photon Migration Spectroscopy Frequency-Domain Techniques.
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