Deep learning-based correction of cataract-induced influence on macular pigment optical density measurement by autofluorescence spectroscopy

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Abstract

Purpose Measurements of macular pigment optical density (MPOD) using the autofluorescence spectroscopy yield underestimations of actual values in eyes with cataracts. Previously, we proposed a correction method for this error using deep learning (DL); however, the correction performance was validated through internal cross-validation. This cross-sectional study aimed to validate this approach using an external validation dataset. Methods MPODs at 0.25◦, 0.5◦, 1◦, and 2◦ eccentricities and macular pigment optical volume (MPOV) within 9◦eccentricity were measured using SPECTRALIS (Heidelberg Engineering, Heidelberg, Germany) in 197 (training dataset inherited from our previous study) and 157 eyes (validating dataset) before and after cataract surgery. A DL model was trained to predict the corrected value from the pre-operative value using the training dataset, and we measured the discrepancy between the corrected value and the actual postoperative value. Subsequently, the prediction performance was validated using a validation dataset. Results Using the validation dataset, the mean absolute values of errors for MPOD and MPOV corrected using DL ranged from 8.2 to 12.4%, which were lower than values with no correction (P < 0.001, linear mixed model with Tukey’s test). The error depended on the autofluorescence image quality used to calculate MPOD. The mean errors in high and moderate quality images ranged from 6.0 to 11.4%, which were lower than those of poor quality images. Conclusion The usefulness of the DL correction method was validated. Deep learning reduced the error for a relatively good autofluorescence image quality. Poor-quality images were not corrected.

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Obana, A., Ote, K., Gohto, Y., Yamada, H., Hashimoto, F., Okazaki, S., & Asaoka, R. (2024). Deep learning-based correction of cataract-induced influence on macular pigment optical density measurement by autofluorescence spectroscopy. PLoS ONE, 19(2 February). https://doi.org/10.1371/journal.pone.0298132

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