Abstract
Multispectral imaging (MSI) creates a series of en-face fundus spectral sections by leveraging an extensive range of discrete monochromatic light sources and allows for an examination of the retina’s early morphologic changes that are not generally visible with traditional fundus imaging modalities. An Ophthalmologist’s interpretation of MSI images is commonly conducted by qualitatively analyzing the spectral consistency between degenerated areas and normal ones, which characterizes the image variation across different spectra. Unfortunately, an ophthalmologist’s interpretation is practically difficult considering the fact that human perception is limited to the RGB color space, while an MSI sequence contains typically more than ten spectra. In this paper, we propose a method for measuring the spectral inconsistency of MSI images without supervision, which yields quantitative information indicating the pathological property of the tissue. Specifically, we define mathematically the spectral consistency as an existence of a pixel-specific latent feature vector and a spectrum-specific projection matrix, which can be used to reconstruct the representative features of pixels. The spectral inconsistency is then measured using the number of latent feature vectors required to reconstruct the representative features in practice. Experimental results from 54 MSI sequences show that our spectral inconsistency measurement is potentially invaluable for MSI-based ocular disease diagnosis.
Highlights
An Ophthalmologist’s diagnosis with Multispectral imaging (MSI) is commonly carried out by examining the spectral inconsistency of retinal degenerations compared with normal tissues, which reflects the absorbtion variations of light in different www.nature.com/scientificreports/
Our validation database is comprised of 54 MSI image sequences acquired by using an Annidis RHATM instrument (Annidis Health Systems Corp., Ottawa, Canada)
The spectral inconsistency measurement approach we present in this paper offers a score value for each pixel to indicate the probability of this pixel being degenerated
Summary
An Ophthalmologist’s diagnosis with MSI is commonly carried out by examining the spectral inconsistency of retinal degenerations compared with normal tissues, which reflects the absorbtion variations of light in different www.nature.com/scientificreports/. Visual estimation of the MSI spectral inconsistency remains the reference standard for MSI-based diagnostic pathology, with which the ophthalmologist qualitatively assesses image variations across different spectra and compares these variation properties between different locations. We propose a method for measuring MSI spectral inconsistency based on an outlier detection framework, which can be used to detect retinal degenerations and segment the corresponding deteriorated regions. The reconstruction of a spectrally inconsistent pixel requires more than one latent feature vector. One unique property of this algorithm lies in the fact that the latent feature vectors do not need to be explicitly resolved, leading to a robust and fast estimation
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