Medizinische Universität Graz Austria/Österreich - Forschungsportal - Medical University of Graz

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"Köpfe" der aktuellen Meldungen:

Teresa Maria Kränke

Federica Piani

Samantha Hasenleithner

Angela Horvath

Eva Reininghaus

Vanessa Stadlbauer-Köllner

Elena Osto

Petra Schwingenschuh

Ruth Birner-Grünberger

Johannes Nikolaus Woltsche

Daniel Arian Kraus

Christian Pacher-Deutsch

Florian Moik

Stefan Fürst

David Zweiker

Alexander Peikert

Maximilian Nepel

Jordi Heijman

Nicolas Dominik Verheyen

Matthias Gsell

Christian Diener

Christoph Augustin

Martin Hönigl

Harald Sourij

Gabor Kovacs

Michael Payer

Anton Prassl

Philipp Klaritsch

Markus Seidel

Gernot Plank

Helmut Karl Lackner

Rainer Hofmann-Wellenhof

Josef Simbrunner

Gewählte Publikation:

SHR Neuro Krebs Kardio Lipid Stoffw Microb

Häring, V; Selzam, V; Martin-Rodriguez, JF; Schwingenschuh, P; Tamás, G; Köhler, L; Raethjen, J; Paschen, S; Goltz, F; Mulroy, E; Latorre, A; Mir, P; Helmich, RC; Bhatia, KP; Volkmann, J; Peach, R; Schreglmann, SR.
Phenotypical Differentiation of Tremor Using Time Series Feature Extraction and Machine Learning.
Mov Disord. 2025; Doi: 10.1002/mds.70032
PubMed FullText FullText_MUG

Co-Autor*innen der Med Uni Graz: Schwingenschuh Petra
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Abstract:: BACKGROUND: The clinical diagnosis of tremor disorders depends on the interpretation of subtle movement characteristics, signs, and symptoms. Given the absence of a universally accepted biomarker, differentiation between essential tremor (ET) and tremor-dominant Parkinson's disease (PD) frequently proves to be non-trivial. OBJECTIVE: To identify generalizable tremor characteristics to differentiate ET and PD using feature extraction and machine learning (ML). METHODS: Hand accelerometer recordings from 414 patients, clinically diagnosed at six academic centers, formed an exploratory (158 ET, 172 PD) and a validation dataset (30 ET, 54 PD). Established, standardized tremor characteristics were assessed for their cross-center accuracy and validity. Supervised ML was applied to massive higher-order feature extraction of the same recordings to achieve optimal stratification and mechanistic exploration. RESULTS: While classic tremor characteristics did not consistently differentiate between conditions across centers, the feature combination identified via our ML approach was successfully validated. In comparison with the tremor stability index (TSI), feature-based analysis provided better classification accuracy (81.8% vs. 70.4%), sensitivity (86.4% vs. 70.8%), and specificity (76.6% vs. 70.2%), substantially improving disease stratification. The interpretation of identified features indicates fundamentally different dynamics in tremor-generating circuits: while different discrete but stable signal states in PD indicate several central oscillators, signal characteristics in ET point towards a singular pacemaker. CONCLUSION: This study establishes the use of feature-based ML as a powerful method to explore accelerometry-derived tremor signals. The combination of hypothesis-free, data-driven analyses and a large, multicenter dataset represents a relevant step towards big data analysis in tremor disorders. © 2025 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.