Optical Coherence Tomography for Optical Biopsy : Properties and Demonstration of Vascular Pathology

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Circulation. 1996;93:1206-1213

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(Circulation. 1996;93:1206-1213.)
© 1996 American Heart Association, Inc.

Articles

Optical Coherence Tomography for Optical Biopsy

Properties and Demonstration of Vascular Pathology

Mark E. Brezinski, MD, PhD; Guillermo J. Tearney, BA, SM; Brett E. Bouma, PhD; Joseph A. Izatt, PhD; Michael R. Hee, BA, SM; Eric A. Swanson, SM; James F. Southern, MD, PhD; James G. Fujimoto, PhD

From the Cardiac Unit (M.E.B.) and the Pathology Department (J.F.S.), Massachusetts General Hospital and Harvard Medical School, Boston; the Department of Electrical Engineering and Computer Science and Research Laboratory of Electronics (G.J.T., B.E.B., J.A.I., M.R.H., J.G.F.), Massachusetts Institute of Technology, Cambridge; and Lincoln Laboratory (E.A.S.), Massachusetts Institute of Technology, Lexington.

Correspondence to James G. Fujimoto, PhD, Office 36-361, Massachusetts Institute of Technology, Cambridge, MA 02139.

Background Optical coherence tomography (OCT) is a recently developedmedical diagnostic technology that uses back-reflected infraredlight to perform in situ micron scale tomographic imaging. Inthis work, we investigate the ability of OCT to perform micronscale tomographic imaging of the internal microstructure ofin vitro atherosclerotic plaques.

Methods and Results Aorta and relevant nonvascular tissue were obtainedat autopsy. Two-dimensional cross-sectional imaging of the exposedsurface of the arterial segments was performed in vitro withOCT. A 1300-nm wavelength, superluminescent diode light sourcewas used that allows an axial spatial resolution of 20 µm.The signal-to-noise ratio was 109 dB. Images were displayedin gray scale or false color. Imaging was performed over 1.5mm into heavily calcified tissue, and a high contrast was notedbetween lipid- and water-based constituents, making OCT attractivefor intracoronary imaging. The 20-µm axial resolutionof OCT allowed small structural details such as the width ofintimal caps and the presence of fissures to be determined.The extent of lipid collections, which had a low backscatteringintensity, also were well documented.

Conclusions OCT represents a promising new technology for imagingvascular microstructure with a level of resolution not previouslyachieved with the use of other imaging modalities. It does notrequire direct contact with the vessel wall and can be performed witha catheter integrated with a relatively inexpensive opticalfiber. The high contrast among tissue constituents, high resolution,and ability to penetrate heavily calcified tissue make OCT anattractive new imaging technology for intracoronary diagnostics.

Key Words: atherosclerosis • lasers • imaging

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				C. Pitris, K. T. Saunders, J. G. Fujimoto, and M. E. Brezinski High-Resolution Imaging of the Middle Ear With Optical Coherence Tomography: A Feasibility Study Arch Otolaryngol Head Neck Surg, June 1, 2001; 127(6): 637 - 642. [Abstract] [Full Text] [PDF]

				M. Brezinski, K. Saunders, C. Jesser, X. Li, and J. Fujimoto Index Matching to Improve Optical Coherence Tomography Imaging Through Blood Circulation, April 17, 2001; 103(15): 1999 - 2003. [Abstract] [Full Text] [PDF]

				T. S. Hatsukami, R. Ross, N. L. Polissar, and C. Yuan Visualization of Fibrous Cap Thickness and Rupture in Human Atherosclerotic Carotid Plaque In Vivo With High-Resolution Magnetic Resonance Imaging Circulation, August 29, 2000; 102(9): 959 - 964. [Abstract] [Full Text] [PDF]

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