Machine Learning Applied to Visual Fields of Dominant Optic Atrophy Patients.
Coutinho Catarina P, Zanchetta Ferdinando, Carbonelli Michele, Battista Marco, Galzignato Alice, La Morgia Chiara, Amore Giulia, Romagnoli Martina, Savini Giacomo, Brotto Luigi
AI Summary
Machine learning identified characteristic visual field patterns in dominant optic atrophy, showing central/ceco-central defects are common. This tool can objectively quantify disease progression and link genotype to functional severity.
Abstract
Purpose
Identification and quantification of characteristic visual field (VF) patterns in patients with dominant optic atrophy (DOA) using the archetypal analysis (AA) machine learning algorithm.
Methods
In this retrospective study, we collected 30-2 or 24-2 VFs performed with Humphrey Visual Field analyzer from 144 patients (280 eyes) affected by molecularly confirmed DOA carrying OPA1 heterozygous mutation. The VFs were randomly separated into a training set (224 VFs, 80%) and test set (56 VFs, 20%). An AA model was developed by decomposing the VFs of the training set into archetypes (ATs). Spearman correlations were calculated between ATs' weights and mean deviation (MD) and visual acuity (VA). Statistical comparison was performed between ATs weights according to mutation subtype groups.
Results
The DOA-AA model was composed of eight ATs with a high performance in the test set (R2 = 0.88). According to the Ocular Hypertension Treatment Study (OHTS) classification, the central/ceco-central scotoma resembling ATs presented the highest weights (24%) followed by superior defects (13%). ATs with more abnormal VF resembling defects correlated most with MD (AT5-8), whereas only the total loss AT7 with VA (P value < 0.01). Subtype mutations linked with worse clinical features had statistically significantly higher weights for worse ATs (AT7, P < 0.001).
Conclusions
The developed AA model allowed the identification and quantification of VF patterns in DOA. Furthermore, a clinical genotype-phenotype association was supported by the comparison of severity at VF AA decomposition.
Translational relevance: AA enables an objective identification of quantifiable visual field defects intrinsic to DOA providing functional details based on genotype.
MeSH Terms
Shields Classification
Key Concepts5
The dominant optic atrophy (DOA)-AA model, developed using archetypal analysis (AA) machine learning algorithm on visual fields of 144 patients (280 eyes) with molecularly confirmed DOA carrying OPA1 heterozygous mutation, was composed of eight archetypes (ATs) and demonstrated high performance in the test set (R2 = 0.88).
In patients with dominant optic atrophy (DOA), visual field (VF) archetypes (ATs) resembling central/ceco-central scotoma, classified according to the Ocular Hypertension Treatment Study (OHTS), presented the highest weights (24%) in the DOA-AA model, followed by superior defects (13%).
In patients with dominant optic atrophy (DOA), archetypes (ATs) with more abnormal visual field (VF) defects (AT5-8) correlated most with mean deviation (MD), while only the total loss archetype AT7 correlated with visual acuity (VA) (P value < 0.01).
In patients with dominant optic atrophy (DOA) carrying OPA1 heterozygous mutation, subtype mutations linked with worse clinical features had statistically significantly higher weights for worse archetypes (AT7, P < 0.001) in the visual field (VF) archetypal analysis (AA) model.
A retrospective study collected 30-2 or 24-2 visual fields (VFs) performed with Humphrey Visual Field analyzer from 144 patients (280 eyes) affected by molecularly confirmed dominant optic atrophy (DOA) carrying OPA1 heterozygous mutation, separating VFs into a training set (224 VFs, 80%) and test set (56 VFs, 20%) for archetypal analysis (AA) model development.
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