Lim and colleagues conducted a retrospective study to establish the normalized NBFI using OCTA and test if that index is sufficiently sensitive for detecting early DR.
Reviewed by Jennifer I. Lim, MD
The normalized blood flow index (NBFI) detected using optical coherence tomography angiography (OCTA) of the superficial capillary plexus (SCP) and the deep capillary plexus (DCP) may be a sensitive biomarker to detect diabetic retinopathy (DR), with the latter being the more sensitive of the two.1
Jennifer I. Lim, MD, the Marion H. Schenk Chair, UIC Distinguished Professor of Ophthalmology, Vice Chair for Diversity & Inclusion, University of Illinois at Chicago, reported these findings at the 2023 annual meeting of the American Society of Retina Specialists in Seattle.
A previous study2 found that the blood vessel density (BVD) in both the superficial and deep tissue was a sensitive marker of DR but provides only limited blood flow information compared with blood flow flux (BFF); BVD detects only the presence and absence of flow. In contrast, according to Lim, the BFF is a more robust measure that provides data on both the blood velocity andblood vessel size.3-5
Lim explained that the BFF provides absolute (non-binarized) decorrelation intensity values from OCTA images. The magnitude of the values is affected by background variabilities, such as ocular pigmentation, and noise, such as the eye blink/ movement, which will affect the differential BFF analysis among patients.
So, the bottom line is that the signal needs to be standardized.
With this in mind, Lim and colleagues conducted a retrospective study to establish the normalized NBFI using OCTA and test if that index is sufficiently sensitive for detecting early DR.
In this study, the investigators went through a series of steps to reach the NBFI.
They compared the BFF (defined as the mean pixel intensities of the nonbinarized OCTA images), BVD, and NBFI on OCTA images from patients with diabetes mellitus (DM) without diabetic retinopathy (no DR) and DM with mild nonproliferative DR (NPDR) and from healthy controls.
The investigators created a binarized vessel map of the BVD from the OCTA images after using an algorithm to remove background and noise. A NBFI perfusion map was created from the areas of the OCTA images that corresponded to the vessel map; a NBFI noise map was created from the areas of the OCTA images not represented by the vessel map, ie, the inverse of the perfusion map, she explained.
Finally, the NBFI was created by dividing the mean values of the perfusion map by the standard deviation of the noise map.
When the BFF and the NBFI were compared among the study participants, ie, 20 healthy subjects, 15 without DR, and 22 with mild NPDR, the data showed the following results:
The take-home messages of the study are that quantitative OCTA analysis using the NBFI of the SCP and DCP is a useful OCTA biomarker for detecting early DR and the NBFI of the DCP is the most sensitive bloodflow parameter to distinguish among eyes with no DR, mild NPDR, and control eyes.
Jennifer I. Lim, MD
Marion H. Schenk Chair, UIC Distinguished Professor of Ophthalmology
Vice Chair for Diversity & Inclusion, University of Illinois at Chicago. She has no financial interest in this subject matter.