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Artificial intelligence-based classification of motor unit action potentials in real-world needle EMG recordings

Deborah Hubers, Wouter V. Potters, Olivier Paalvast, Sterre de Jonge, Brian S. Doelkahar, Martijn R. Tannemaat, Luuk Wieske, Camiel Verhamme

2023Clinical Neurophysiology14 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: To develop an artificial neural network (ANN) for classification of motor unit action potential (MUAP) duration in real-word, unselected and uncleaned needle electromyography (n-EMG) recordings. METHODS: Two nested ANN models were trained, the first discerning muscle rest, contraction and artifacts in n-EMG recordings from 2674 individual muscles from 326 patients obtained as part of daily care. The second ANN model subsequently used segments labeled as contraction for prediction of prolonged, normal and shortened MUAPs. Model performance was assessed in one internal and two external validation datasets of 184, 30 and 50 muscles, respectively. RESULTS: The first model discerned rest, contraction and artifacts with an accuracy of 96%. The second model predicted prolonged, normal and shortened MUAPs with an accuracy of 67%, 83% and 68% in the different validation sets. CONCLUSIONS: We developed a two-step ANN that classifies rest, muscle contraction and artifacts from real-world n-EMG recordings with very high accuracy. MUAP duration classification had moderate accuracy. SIGNIFICANCE: This is the first study to show that an ANN can classify MUAPs in real-world n-EMG recordings highlighting the potential for AI assisted MUAP classification as a clinical tool.

Topics & Concepts

ElectromyographyMotor unitComputer scienceArtificial neural networkPattern recognition (psychology)Artificial intelligenceContraction (grammar)Muscle contractionRest (music)Speech recognitionBiomedical engineeringPhysical medicine and rehabilitationAnatomyMedicineCardiologyInternal medicineMuscle activation and electromyography studiesEEG and Brain-Computer InterfacesTranscranial Magnetic Stimulation Studies