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  Vol. 124 No. 3, March 2006 TABLE OF CONTENTS
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Confocal Scanning Laser Doppler Flowmetry in the Rat Retina

Origin of Flow Signals and Dependence on Scan Depth

Balwantray C. Chauhan, PhD; Paula K. Yu, PhD; Stephen J. Cringle, PhD; Dao-Yi Yu, MD, PhD

Arch Ophthalmol. 2006;124:397-402.

Objective  To investigate the origin of signals from scanning laser Doppler flowmetry (SLDF) and the influence of axial scan depth on the measurement of blood flow in the rat retina.

Methods  We performed SLDF in 5 adult Sprague-Dawley rats using a specially modified Heidelberg retina flowmeter. Axial scans were obtained from +2 diopters (D) to –3 D (in steps of 0.25 D) or from +1 D to –2 D (in steps of 0.125 D) relative to the retinal surface. Fluorescein isothiocyanate–dextran angiograms were obtained in whole-mounted retinas to visualize the angioarchitecture and identify measurement locations in the SLDF flow maps. Axial SLDF flow profiles were obtained in an artery, vein, arteriole, venule, and capillary bed using the mean blood flow values in 2 x 2–, 4 x 4–, and 10 x 10–pixel measurement windows.

Results  The SLDF images showed good correspondence with the angiograms and resolution to third-order arterioles and venules; however, neither the superficial nor deep capillary circulations were visualized. Flow was imaged from large choroidal vessels. Measured flow from capillaries was independent of depth and indistinguishable from background levels.

Conclusion  The technique of SLDF images blood flow in larger retinal vessels but not in capillaries.

Clinical Relevance  Scanning laser Doppler flowmetry may not reliably measure capillary blood flow.


Author Affiliations: Retina and Optic Nerve Research Laboratory, Department of Ophthalmology and Visual Sciences, and Department of Physiology and Biophysics, Dalhousie University, Halifax, Nova Scotia (Dr Chauhan); and Centre for Ophthalmology and Visual Science, Lions Eye Institute, University of Western Australia, Nedlands (Drs Cringle, P. K. Yu, and D.-Y. Yu).







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