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Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease
Genetics
Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease

18, Apr 2026

2
Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis

18, Apr 2026

3
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis
Genetics
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis

17, Apr 2026

4
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same
Genetics
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same

16, Apr 2026

5
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample
Genetics
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample

15, Apr 2026

Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease
Genetics
Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease

Alper Bülbül

18, Apr 2026

This blog post explores a recent scientific study investigating how machine learning models classify multiple sclerosis and Alzheimer’s disease using genomic data from the UK Biobank. It highlights the surprising robustness of logistic regression, compares machine learning with polygenic risk scores, and explains how the results revealed distinct genetic architectures for the two diseases—one dominated by a major risk variant in APOE, the other shaped by a broad immune-related polygenic landscape.

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Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis

18, Apr 2026

Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis
Genetics
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis

17, Apr 2026

Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same
Genetics
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same

16, Apr 2026

Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample
Genetics
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample

15, Apr 2026

TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis
Genetics
TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis

14, Apr 2026