Abstract Details

Title Identifying Advanced Disability in Multiple Sclerosis With Routine Clinical and Imaging Data: Internal Validation of a Supervised Machine-learning Model

Topic Multiple Sclerosis

Presentation(s) P5 - Poster Session 5 (11:45 AM-12:45 PM)

Poster/Presentation
Number 18-001

Objective

To develop and internally validate a clinically deployable supervised machine-learning (ML) model for identifying advanced disability in multiple sclerosis (MS), defined as Expanded Disability Status Scale (EDSS) ≥ 6, using routinely collected clinical and magnetic resonance imaging (MRI) variables; and to quantify the marginal discriminative contribution of MRI, particularly cervical-cord metrics, beyond clinical features.

Background

Anticipating advanced disability in routine care remains difficult. Prior models often use small cohorts, omit spinal measures, or rely on non-routine inputs. A clinic-ready tool that operates on standard data and reports uncertainty is needed.

Design/Methods

We analyzed a harmonized real-world registry (N = 5,018), randomly split 80/20 with stratification. Predictors reflected standard care: demographics; MS type; clinical history and examination (initial EDSS, disease duration, Symbol Digit Modalities Test (SDMT)); and brain/spinal MRI fields, including cervical-cord measures. A gradient-boosting classifier (HistGradientBoosting) was trained within a preprocessing pipeline (imputation, scaling, one-hot encoding). Test-set discrimination was summarized by AUC with bootstrap 95% confidence intervals (CI); statistical significance was evaluated via label permutation. Feature influence was estimated on the test set using permutation ΔAUC.

Results

The model identified EDSS ≥ 6 with AUC 0.961 (95% CI 0.940–0.978); permutation p < 0.001. The most influential clinical features were MS type (ΔAUC 0.0645), initial EDSS (ΔAUC 0.0551), age (ΔAUC 0.0166), disease duration (ΔAUC 0.0109), and SDMT (ΔAUC 0.0080). MRI provided supportive information, with cervical-cord metrics conferring incremental discrimination beyond clinical variables.

Conclusions

A supervised ML approach using routine clinical inputs, complemented by cervical-cord MRI, achieved high discrimination for advanced disability. Clinical variables drove performance, while MRI added value. These findings support immediate test-bed implementation with prospective and external validation, workflow integration, and assessment of clinical impact.

Authors/Disclosures
Elham Moases Ghaffary, PhD PRESENTER	Dr. Moases Ghaffary has nothing to disclose.
Omid Mirmosayyeb, MD (University at Buffalo)	Dr. Mirmosayyeb has nothing to disclose.
Gerald J. Wyckoff, PhD	Prof. Wyckoff has received personal compensation in the range of $0-$499 for serving as a Consultant for Zorilla Research LLC. Prof. Wyckoff has stock in Eir Pharmaceutical. Prof. Wyckoff has received personal compensation in the range of $500-$4,999 for serving as a advisor, Ethical AI in Healthcare board with Center for Practical Bioethics.
Vahid Shaygannejad, MD	Dr. Shaygannejad has nothing to disclose.

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