In vivo clinical imaging and diagnosis /
In vivo clinical imaging and diagnosis /
James W. Tunnell, editor
- xvi, 363 p. : ill. (chiefly col.) ; 24 cm.
- McGraw-Hill biophotonics .
- McGraw-Hill biophotonics. .
Includes bibliographical references and index.
Machine generated contents note: Section I. Advances in Microscopic Imaging a. Confocal Microscopy of cancer i. Rebecca Richards-Kortum, Rice University ii. Allen Halpern, Memorial Sloan-Kettering Cancer Center b. Non-linear microscopy of cancer and brain function i. Peter So, MIT ii. Jerome Mertz, Boston University iii. Elizabeth Hillman, Hillman, Columbia University c. Optical Coherence Tomography of cancer and ocular disease i. Steven Boppart, University of Illinois ii. James Fujimoto, MIT iii. Yu Chen, University of Maryland d. Microscopic Endoscopy in the GI Tract i. Brett Bouma/Gary Tearney, Harvard University ii. Thomas Wang, University of Michigan iii. Chris Contag, O. Solgaard, G. Kino, Stanford University Section II. Macroscopic/Wide Field Imaging a. Opto-acoustic imaging of cancer i. Lihong Wang, Washington University ii. Stas Emelianov, University of Texas b. Molecular Imaging for proteomics, genomics andcancer i. Vasilis Ntziachristos, Helmholz Center Munich ii. Ralph Weissleder, Harvard University iii. John Frangioni, Harvard University c. Diffuse Optical Tomography of breast cancer andbrain function i. Arjun Yodh, University of Pennsylvania ii. David Boas, Massachusetts General Hospital iii. Keith Paulsen, Dartmouth College d. Speckle imaging of brain function for stroke i. Andrew Dunn, University of Texas ii. Bernard Choi, University of California, Irvine e. Hyperspectral imaging of cancer i. Brian Sorg, University of Florida ii. Tuan Vo-Dinh, Duke University Section III. Clinical Spectroscopy Systems a. Reflectance/Fluorescence diagnosis of breast,skin, ovary and cervical cancer i. Irving Bigio, Boston University ii. Michael Feld, MITiii. Nirmala Ramanujam, Duke University iv. Bruce Tromberg, Beckman Laser Institute and Medical Clinic, University of California, Irvinev. Rebekah Drezek, Rice University Raman Spectroscopy of brain and breast cancer i. Anita Mahadevan-Jansen, Vanderbilt University ii. Abbey Haka/Michael Feld, MIT -- Breast Cancer c. Novel spectroscopic techniques for prostatecancer detection i. Adam Wax, Duke University ii. Vadim Backman, Northwestern University.
"Photonics holds a unique position in medical imaging and diagnostics for applications that require functional and/or high resolution imaging. This state-of-the-art photonic imaging book is written for biomedical engineering professionals and biophotonic imaging professionals providing detailed descriptions of leading edge imaging technology and diagnostic techniques with full color, high resolution images"--Provided by publisher.
9780071626835 (hardback : alk. paper) 0071626832 (hardback : alk. paper)
2011000089
101550539 DNLM
Diagnostic imaging.
Photonics.
Spectrum analysis.
Diagnostic Imaging--methods.
Luminescence--diagnostic use.
Photons--diagnostic use.
Spectrum Analysis--methods.
616.0754
Includes bibliographical references and index.
Machine generated contents note: Section I. Advances in Microscopic Imaging a. Confocal Microscopy of cancer i. Rebecca Richards-Kortum, Rice University ii. Allen Halpern, Memorial Sloan-Kettering Cancer Center b. Non-linear microscopy of cancer and brain function i. Peter So, MIT ii. Jerome Mertz, Boston University iii. Elizabeth Hillman, Hillman, Columbia University c. Optical Coherence Tomography of cancer and ocular disease i. Steven Boppart, University of Illinois ii. James Fujimoto, MIT iii. Yu Chen, University of Maryland d. Microscopic Endoscopy in the GI Tract i. Brett Bouma/Gary Tearney, Harvard University ii. Thomas Wang, University of Michigan iii. Chris Contag, O. Solgaard, G. Kino, Stanford University Section II. Macroscopic/Wide Field Imaging a. Opto-acoustic imaging of cancer i. Lihong Wang, Washington University ii. Stas Emelianov, University of Texas b. Molecular Imaging for proteomics, genomics andcancer i. Vasilis Ntziachristos, Helmholz Center Munich ii. Ralph Weissleder, Harvard University iii. John Frangioni, Harvard University c. Diffuse Optical Tomography of breast cancer andbrain function i. Arjun Yodh, University of Pennsylvania ii. David Boas, Massachusetts General Hospital iii. Keith Paulsen, Dartmouth College d. Speckle imaging of brain function for stroke i. Andrew Dunn, University of Texas ii. Bernard Choi, University of California, Irvine e. Hyperspectral imaging of cancer i. Brian Sorg, University of Florida ii. Tuan Vo-Dinh, Duke University Section III. Clinical Spectroscopy Systems a. Reflectance/Fluorescence diagnosis of breast,skin, ovary and cervical cancer i. Irving Bigio, Boston University ii. Michael Feld, MITiii. Nirmala Ramanujam, Duke University iv. Bruce Tromberg, Beckman Laser Institute and Medical Clinic, University of California, Irvinev. Rebekah Drezek, Rice University Raman Spectroscopy of brain and breast cancer i. Anita Mahadevan-Jansen, Vanderbilt University ii. Abbey Haka/Michael Feld, MIT -- Breast Cancer c. Novel spectroscopic techniques for prostatecancer detection i. Adam Wax, Duke University ii. Vadim Backman, Northwestern University.
"Photonics holds a unique position in medical imaging and diagnostics for applications that require functional and/or high resolution imaging. This state-of-the-art photonic imaging book is written for biomedical engineering professionals and biophotonic imaging professionals providing detailed descriptions of leading edge imaging technology and diagnostic techniques with full color, high resolution images"--Provided by publisher.
9780071626835 (hardback : alk. paper) 0071626832 (hardback : alk. paper)
2011000089
101550539 DNLM
Diagnostic imaging.
Photonics.
Spectrum analysis.
Diagnostic Imaging--methods.
Luminescence--diagnostic use.
Photons--diagnostic use.
Spectrum Analysis--methods.
616.0754