1. Optical coherence tomography and Raman spectroscopy of the ex‐vivo retina
- Author
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Evans, Julia W, Zawadzki, Robert J, Liu, Rui, Chan, James W, Lane, Stephen M, and Werner, John S
- Subjects
Analytical Chemistry ,Medicinal and Biomolecular Chemistry ,Chemical Sciences ,Eye Disease and Disorders of Vision ,Bioengineering ,Biomedical Imaging ,Detection ,screening and diagnosis ,4.1 Discovery and preclinical testing of markers and technologies ,Eye ,Animals ,Feasibility Studies ,Humans ,Image Processing ,Computer-Assisted ,In Vitro Techniques ,Phantoms ,Imaging ,Retina ,Spectrum Analysis ,Raman ,Systems Integration ,Time Factors ,Tomography ,Optical Coherence ,optical coherence tomography ,Raman spectroscopy ,retinal imaging ,Optical Physics ,Medical Biotechnology ,Optoelectronics & Photonics ,Analytical chemistry ,Medicinal and biomolecular chemistry - Abstract
Imaging the structure and correlating it with the biochemical content of the retina holds promise for fundamental research and for clinical applications. Optical coherence tomography (OCT) is commonly used to image the 3D structure of the retina and while the added functionality of biochemical analysis afforded by Raman scattering could provide critical molecular signatures for clinicians and researchers, there are many technical challenges to combine these imaging modalities. We describe an OCT microscope for ex-vivo imaging combined with Raman spectroscopy capable of collecting morphological and molecular information about a sample simultaneously. We present our first results and discuss the challenges to further development of this dual-mode instrument and limitations for future in-vivo retinal imaging.
- Published
- 2009