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Predicting Amyotrophic Lateral Sclerosis Mortality With Machine Learning in Diverse Patient Databases.


ABSTRACT:

Introduction

Predicting mortality in Amyotrophic Lateral Sclerosis (ALS) guides personalized care and clinical trial optimization. Existing statistical and machine learning models often rely on baseline or diagnosis visit data, assume fixed predictor-survival relationships, lack validation in non-Western populations, and depend on features like genetic tests and imaging not routinely available. This study developed ALS mortality prediction models that address these limitations.

Methods

We trained Royston-Parmar and eXtreme Gradient Boosting models on the PRO-ACT database for 6- and 12-month mortality predictions. Each visit was labeled positive (for death) if death occurred within 6 or 12 months, negative if survival was confirmed beyond that, and excluded if follow-up was insufficient, assuming patients were alive up to their last recorded visit. Models were validated on independent datasets from the North American Celecoxib trial and a Singapore ALS clinic population. Feature importance and the impact of reducing predictors on performance were evaluated.

Results

Models predicted mortality from any clinical visit with area under the curve (AUC) of 0.768-0.819, rising to 0.865 for 12-month prediction using 3-month windows. Albumin was the top predictor, reflecting nutritional and inflammatory status. Other key predictors included ALS Functional Rating Scale-Revised slope, limb onset, absolute basophil count, forced vital capacity, bicarbonate, body mass index, and respiratory rate. Models maintained robust performance on the independent datasets and after reducing inputs to seven key predictors.

Discussion

These visit-agnostic models, validated across diverse populations, identify key prognostic features and demonstrate the potential of predictive modeling to enhance ALS care and trial design.

SUBMITTER: Guo L 

PROVIDER: S-EPMC12435129 | biostudies-literature | 2025 Oct

REPOSITORIES: biostudies-literature

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Publications

Predicting Amyotrophic Lateral Sclerosis Mortality With Machine Learning in Diverse Patient Databases.

Guo Ling L   Xu Ian Qian IQ   Nag Sonakshi S   Xu Jing J   Chai Josiah J   Simmons Zachary Z   Ramasamy Savitha S   Yeo Crystal Jing Jing CJJ  

Muscle & nerve 20250728 4


<h4>Introduction</h4>Predicting mortality in Amyotrophic Lateral Sclerosis (ALS) guides personalized care and clinical trial optimization. Existing statistical and machine learning models often rely on baseline or diagnosis visit data, assume fixed predictor-survival relationships, lack validation in non-Western populations, and depend on features like genetic tests and imaging not routinely available. This study developed ALS mortality prediction models that address these limitations.<h4>Method  ...[more]

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