Recent Clinical Applications of Laser Speckle Flowgraphy in Eyes with Retinal Disease.
Kunikata Hiroshi, Nakazawa Toru
AI Summary
LSFG, measuring mean blur rate, non-invasively quantifies ocular blood flow changes in retinal diseases, offering a reproducible tool to evaluate microcirculation in vessels, choroid, and optic nerve head.
Abstract
Retinal diseases related to ischemia, such as diabetic retinopathy, are the main cause of blindness worldwide. However, the pathogenesis of these diseases remains unclear, as does the time course of associated changes in ocular blood flow. Laser speckle flowgraphy (LSFG), which uses the laser speckle phenomenon to detect and quantify ocular circulation, is a promising candidate for a noninvasive method to measure ocular blood flow in living eyes. A recently developed LSFG measurement parameter, mean blur rate (MBR), can serve as a quantitative and reproducible index of retinal blood cell velocity. Mean blur rate can be used in the study of retinal diseases to evaluate microcirculation in the retinal vessels, choroid, and optic nerve head. In addition to overall MBR (MA), LSFG measurements of optic nerve head microcirculation can be divided into vessel-area MBR (MV) and tissue-area MBR (MT). Absolute values for MT have been shown to be linearly correlated with capillary blood flow, regardless of fundus pigmentation. Recently, there has been an increasing number of reports on the clinical applications of LSFG in retinal disease.
MeSH Terms
Shields Classification
Key Concepts5
Laser speckle flowgraphy (LSFG) is a promising noninvasive method to measure ocular blood flow in living eyes, utilizing the laser speckle phenomenon to detect and quantify ocular circulation.
The mean blur rate (MBR), a recently developed Laser speckle flowgraphy (LSFG) measurement parameter, serves as a quantitative and reproducible index of retinal blood cell velocity.
Mean blur rate (MBR) can be utilized in the study of retinal diseases to assess microcirculation in the retinal vessels, choroid, and optic nerve head.
Absolute values for tissue-area MBR (MT) have demonstrated a linear correlation with capillary blood flow, irrespective of fundus pigmentation.
Laser speckle flowgraphy (LSFG) measurements of optic nerve head microcirculation can be categorized into vessel-area MBR (MV) and tissue-area MBR (MT), in addition to overall MBR (MA).
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