'Educators in Biomedical Optics and Biophotonics have been long awaiting a comprehensive text to accompany their teaching in this rapidly growing field and this is as good as it gets. Educators may have their own bias, but this text provides a balanced approach giving due weight to the topics within the field and covering them comprehensively for most undergraduate and graduate courses in the field … There is sufficient depth, detail and reference material for very specialized researchers to use this as their 'bible' and it should be on the desk of every serious educator and researcher in biomedical optics.' Martin Leahy, National University of Ireland, Galway

1. Nomenclature; 2. Overview of tissue optical properties; 3. Introduction to biomedical statistics for diagnostic applications; 4. General concepts of tissue spectroscopy and instrumentation; 5. Autofluorescence spectroscopy and reporter fluorescence; 6. Raman and infrared spectroscopy of vibrational modes; 7. Elastic and quasi-elastic scattering from cells and small structures; 8. Diffuse reflectance spectroscopy at small source-detector separations; 9. Transport theory and the diffusion equation; 10. Continuous-wave methods for tissue spectroscopy; 11. Time-domain methods for tissue spectroscopy in the diffusion regime; 12. Frequency-domain methods for tissue spectroscopy in the diffusion regime; 13. Instrumentation and experimental methods for diffuse tissue spectroscopy; 14. Diffuse optical imaging and tomography; 15. In vivo applications of diffuse optical spectroscopy and imaging; 16. Combining light and ultrasound: acousto-optics and opto-acoustics; 17. Modern optical microscopy for biomedical applications; 18. Optical coherence tomography; 19. Optical tweezers and laser-tissue interactions.