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The role of optical coherence tomography criteria and machine learning in multiple sclerosis and optic neuritis diagnosis

Item Type:Article
Title:The role of optical coherence tomography criteria and machine learning in multiple sclerosis and optic neuritis diagnosis
Creators Name:Kenney, R.C. and Liu, M. and Hasanaj, L. and Joseph, B. and Al-Hassan, A.A. and Balk, L.J. and Behbehani, R. and Brandt, A. and Calabresi, P.A. and Frohman, E. and Frohman, T.C. and Havla, J. and Hemmer, B. and Jiang, H. and Knier, B. and Korn, T. and Leocani, L. and Martinez-Lapiscina, E.H. and Papadopoulou, A. and Paul, F. and Petzold, A. and Pisa, M. and Villoslada, P. and Zimmermann, H. and Thorpe, L.E. and Ishikawa, H. and Schuman, J.S. and Wollstein, G. and Chen, Y. and Saidha, S. and Galetta, S. and Balcer, L.J.
Abstract:BACKGROUND AND OBJECTIVES: Recent studies have suggested that inter-eye differences (IEDs) in peripapillary retinal nerve fiber layer (pRNFL) or ganglion cell+inner plexiform (GCIPL) thickness by spectral-domain optical coherence tomography (SD-OCT) may identify people with a history of unilateral optic neuritis (ON). However, this requires further validation. Machine learning classification may be useful for validating thresholds for OCT IEDs and for examining added utility for visual function tests, such as low-contrast letter acuity (LCLA), in the diagnosis of people with multiple sclerosis (PwMS) and for unilateral ON history. METHODS: Participants were from 11 sites within the International Multiple Sclerosis Visual System (IMSVISUAL) consortium. pRNFL and GCIPL thicknesses were measured using SD-OCT. A composite score combining OCT and visual measures was compared individual measurements to determine the best model to distinguish PwMS from controls. These methods were also used to distinguish those with history of ON among PwMS. ROC curve analysis was performed on a training dataset (2/3 of cohort), then applied to a testing dataset (1/3 of cohort). Support vector machine (SVM) analysis was used to assess whether machine learning models improved diagnostic capability of OCT. RESULTS: Among 1,568 PwMS and 552 controls, variable selection models identified GCIPL IED, average GCIPL thickness (both eyes), and binocular 2.5% LCLA as most important for classifying PwMS vs. controls. This composite score performed best, with AUC=0.89 (95% CI 0.85, 0.93), sensitivity=81% and specificity=80%. The composite score ROC curve performed better than any of the individual measures from the model (p<0.0001). GCIPL IED remained the best single discriminator of unilateral ON history among PwMS (AUC=0.77, 95% CI 0.71,0.83, sensitivity=68%, specificity=77%). SVM analysis performed comparably to standard logistic regression models. CONCLUSIONS: A composite score combining visual structure and function improved the capacity of SD-OCT to distinguish PwMS from controls. GCIPL IED best distinguished those with history of unilateral ON. SVM performed as well as standard statistical models for these classifications. CLASSIFICATION OF EVIDENCE: The study provides Class III evidence that SD-OCT accurately distinguishes multiple sclerosis from normal controls as compared to clinical criteria.
Keywords:Multiple Sclerosis, Optic Nerve, Diagnostic Test Assessment, Class III
Source:Neurology
ISSN:0028-3878
Publisher:American Academy of Neurology
Volume:99
Number:11
Page Range:e1100-e1112
Date:13 September 2022
Official Publication:https://doi.org/10.1212/wnl.0000000000200883
PubMed:View item in PubMed

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