Compact Laser Doppler Flowmeter (LDF) Fundus Camera for the Assessment of Retinal Blood Perfusion in Small Animals

Abstract: PurposeNoninvasive techniques for ocular blood perfusion assessment are of crucial importance for exploring microvascular alterations related to systemic and ocular diseases. However, few techniques adapted to rodents are available and most are invasive or not specifically focused on the optic nerve head (ONH), choroid or retinal circulation. Here we present the results obtained with a new rodent-adapted compact fundus camera based on laser Doppler flowmetry (LDF).MethodsA confocal miniature flowmeter was fixe… Show more

“…[1][2][3] Many optical methods have been developed to measure blood flow, including Doppler-based methods (e.g., laser Doppler flowmetry, Doppler optical coherent tomography, and photoacoustic Doppler), [4][5][6] RBC-tracking measurements [e.g., multiphoton laser scanning microscopy (MPLSM), retinal function imager (RFI)], 7,8 and laser speckle contrast imaging (LSCI). 9 Doppler-based methods require a prior knowledge of Doppler angle to recover axial velocity components.…”

Velocity measurements of heterogeneous RBC flow in capillary vessels using dynamic laser speckle signal

“…[1][2][3] Many optical methods have been developed to measure blood flow, including Doppler-based methods (e.g., laser Doppler flowmetry, Doppler optical coherent tomography, and photoacoustic Doppler), [4][5][6] RBC-tracking measurements [e.g., multiphoton laser scanning microscopy (MPLSM), retinal function imager (RFI)], 7,8 and laser speckle contrast imaging (LSCI). 9 Doppler-based methods require a prior knowledge of Doppler angle to recover axial velocity components.…”

Velocity measurements of heterogeneous RBC flow in capillary vessels using dynamic laser speckle signal

“…Retinal blood flow plays a central role in the pathophysiology of many eye diseases [1], either through capillary occlusion, panretinal hypoperfusion or uneveness of flow distribution. Noninvasive analysis of retinal hemodynamics has been achieved through various coherent light schemes including standard laser Doppler velocimetry [2][3][4], spatial [5][6][7] and temporal [8][9][10] speckle contrast analysis, stroboscopic fundus cameras [11], functional optical coherence tomography [12,13] and its fullfield variant [14]. Each of these approaches has its own limits in terms of sensitivity, spatial and/or temporal resolution, or lateral field of view.…”

High speed optical holography of retinal blood flow

Evaluation of optic nerve head blood flow in normal rats and a rodent model of non-arteritic ischemic optic neuropathy using laser speckle flowgraphy