Toward Continuous Neurocognitive Monitoring: Integrating Speech AI with Relational Graph Transformers for Rare Neurological Diseases
Norel, Raquel, Merler, Michele, Modi, Pavitra
–arXiv.org Artificial Intelligence
Patients with rare neurological diseases report cognitive symptoms--"brain fog"--invisible to traditional tests. Proof-of-concept in phenylketonuria (PKU) shows speech-derived "Proficiency in Verbal Discourse" correlates Success would transform episodic neurology into continuous personalized monitoring for millions globally. In phenylketonuria (PKU), adults describe "brain fog" and working memory deficits [ We envision smartphone-based speech analysis integrated with medical databases via RELGT, enabling continuous neurocog-nitive monitoring--transforming reactive episodic care into proactive precision neurology. Parkinson's disease involves hypophonia and speech fluctuations tied to medication Huntington's disease reflects CAG-repeat-driven degrneration and progressive motor-cognitive decline. Wilson's disease presents with dysarthria linked to copper accumulation.
arXiv.org Artificial Intelligence
Dec-5-2025
- Country:
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- Fredericton (0.05)
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- Canada > New Brunswick
- North America
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- Research Report (0.65)
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- Health & Medicine > Therapeutic Area > Neurology > Parkinson's Disease (0.50)
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