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E-grāmata: Fluorescence Lifetime Spectroscopy and Imaging: Principles and Applications in Biomedical Diagnostics

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Edited by (University of California, Davis, USA), Edited by (Imperial College London, UK), Edited by (Imperial College London, UK)
  • Formāts: 570 pages
  • Izdošanas datums: 17-Jul-2014
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439861684
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Fluorescence Lifetime Spectroscopy and Imaging: Principles and Applications in Biomedical DiagnosticsPalielināt
  • Formāts: 570 pages
  • Izdošanas datums: 17-Jul-2014
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439861684
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Biomedical engineers and other contributors from medical and physical sciences summarize current perspectives on tissue fluorescence lifetime metrology and imaging, and their application to the biomedical investigation of intact tissues and medical diagnosis within the broader context of fluorescence spectroscopy and of important clinical applications. They have sought to make their treatment accessible to graduate and senior undergraduate students while also providing useful information to established researchers in biomedical optics, molecular imaging, and biomedical engineering. Annotation ©2014 Ringgold, Inc., Portland, OR (protoview.com)

During the past two decades, there has been an increasing appreciation of the significant value that lifetime-based techniques can add to biomedical studies and applications of fluorescence. Bringing together perspectives of different research communities, Fluorescence Lifetime Spectroscopy and Imaging: Principles and Applications in Biomedical Diagnostics explores the remarkable advances in time-resolved fluorescence techniques and their role in a wide range of biological and clinical applications.

Broadly accessible, the book captures the state-of-the-art of fluorescence lifetime metrology and imaging and provides current perspectives on their applications to biomedical studies of intact tissues and medical diagnosis. The text introduces these techniques within the wider context of fluorescence spectroscopy and describes basic principles underlying current instrumentation for fluorescence lifetime imaging and metrology (FLIM). It also covers the wide range of methods, including single channel (point) spectroscopy, fluorescence lifetime imaging microscopy, and single- and multi-photon excitation.

Edited by pioneers in this field, with contributions from leading experts, the book includes an overview of complementary techniques that help researchers beginning FLIM research. It offers a comprehensive treatment of fundamental principles, instrumentation, analytical methods, and applications. It also provides an overview of the label-free contrast available from lifetime measurements of tissue autofluorescence and the prospects for exploiting this for clinical applications and biomedical research including drug discovery.

Recenzijas

"This highly recommended comprehensive volume is a good resource for investigators who wish to apply these techniques. It is a self-contained book in which the physics and the analytical methods are carefully worked out in detail. The discussions of fluorescence, the design and use of lifetime instrumentation, the various methods to analyze the data, and the biomedical applications are all current and well-illustrated." Optics & Photonics News (OPN), October 2014

" a timely and comprehensive review of the state of the art by internationally leading experts in the field. It provides excellent coverage of the basic principles, as well as a thorough appraisal of the latest methods and applications. The book represents a major resource for researchers, students, and technologists." Jem Hebden, Ph.D., Professor and Head, Department of Medical Physics and Bioengineering, University College London

"This book provides comprehensive coverage on key aspects of fluorescence lifetime imaging, an emerging technique for life sciences and clinical diagnosis. The instrumentation and analysis sections include both well-known techniques and recent developments." Dr. Qiyin Fang, Associate Professor of Engineering Physics, McMaster University

Preface ix Editors xi
Contributors xiii
PART I OVERVIEW OF FLUORESCENCE MEASUREMENTS AND CONCEPTS
1(84)
1 Overview of fluorescence lifetime imaging and metrology
3(20)
Daniel S. Elson
Laura Marcu
Paul M. W. French
2 Photophysics of fluorescence
23(24)
Klaus Suhling
3 Tissue fluorophores and their spectroscopic characteristics
47(38)
Alzbeta Chorvatova
Dusan Chorvat
PART II PRINCIPLES OF FLUORESCENCE LIFETIME INSTRUMENTATION
85(148)
4 Pulse sampling technique
87(16)
Diego R. Yankelevich
Daniel S. Elson
Laura Marcu
5 Single-point probes for lifetime spectroscopy: Time-correlated single-photon counting technique
103(14)
Christopher Dunsby
Paul M. W. French
6 Optical instrumentation design for fluorescence lifetime spectroscopy and imaging
117(48)
Peter T. C. So
Heejin Choi
Christopher J. Rowlands
Vijay R. Singh
7 Fluorescence lifetime imaging techniques: Frequency-domain FLIM
165(22)
John Paul Eichorst
Kai wen Teng
Robert M. Clegg
8 Fluorescence lifetime imaging techniques: Time-gated fluorescence lifetime imaging
187(16)
James McGinty
Christopher Dunsby
Paul M. W. French
9 Fluorescence lifetime imaging techniques: Time-correlated single-photon counting
203(30)
Wolfgang Becker
PART III ANALYSIS OF FLUORESCENCE LIFETIME DATA
233(90)
10 The phasor approach to fluorescence lifetime imaging: Exploiting phasor linear properties
235(14)
Michelle A. Digman
Enrico Gratton
11 Analysis of time-domain fluorescence measurements using least-squares deconvolution
249(20)
Jing Liu
Daniel S. Elson
Laura Marcu
12 Global analysis of FLIM-FRET data
269(14)
Hernan E. Grecco
Peter J. Verveer
13 Fluorescence lifetime imaging in turbid media
283(40)
Vadim Y. Soloviev
Teresa M. Correia
Simon R. Arridge
PART IV TISSUE AUTOFLUORESCENCE LIFETIME SPECTROSCOPY AND IMAGING: APPLICATIONS
323(136)
14 Oncology applications: Optical diagnostics of cancer
325(20)
Alzbeta Chorvatova
Dusan Chorvat
15 Oncology applications: Brain
345(18)
Pramod V. Butte
Adam N. Mamelak
Laura Marcu
16 Oncology applications: Skin cancer
363(16)
Rakesh Patalay
Paul M. W. French
Christopher Dunsby
17 Oncology applications: Gastrointestinal cancer
379(8)
Sergio Coda
Paul M. W. French
Christopher Dunsby
18 Oncology applications: Intraoperative diagnosis of head and neck carcinoma
387(12)
D. Gregory Farwell
Laura Marcu
19 Fluorescence lifetime techniques in cardiovascular disease diagnostics
399(24)
Jennifer E. Phipps
Yang Sun
Laura Marcu
20 Ophthalmic applications of FLIM
423(26)
Dietrich Schweitzer
21 Fluorescence lifetime imaging applications in tissue engineering
449(10)
Bernard Y. Binder
J. Kent Leach
Laura Marcu
PART V FLUORESCENCE LIFETIME IMAGING BASED ON EXOGENOUS PROBES
459(76)
22 Tomographic fluorescence lifetime imaging
461(16)
Anand T. N. Kumar
23 Photosensitizers and PDT
477(20)
Rinaldo Cubeddu
Paola Taroni
Gianluca Valentini
24 Fluorescence lifetime imaging of ions in biological tissues
497(38)
Christoph Biskup
Thomas Gensch
Index 535
Laura Marcu, Paul M. W. French, Daniel S. Elson
Biežāk uzdotie jautājumi par e-grāmatām Biežāk uzdotie jautājumi par e-grāmatām
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