An algorithm for automatic detection of repeater F-waves and MUNE studies

Publication date: May 2019Source: Biomedical Signal Processing and Control, Volume 51Author(s): N. Tuğrul Artuğ, N. Görkem Şirin, Emel Oğuz Akarsu, M. Baris Baslo, A. Emre ÖgeAbstractThe present study aims to develop an algorithm and software that automatically detects repeater F-waves which are very difficult to analyze when elicited as high number of recordings in motor unit number estimation studies. The main strategy of the study was to take the repeater F waves discriminated by the neurologist, from limited number of recordings, as the gold standard and to test the conformity of the results of the new automated method.Ten patients with ALS and ten healthy controls were evaluated. 90 F-waves with supramaximal stimuli and 300 F-waves with submaximal stimuli were recorded. Supramaximal recordings were evaluated both manually by an expert neurologist and automatically by the developed software to test the performance of the algorithm. The results both acquired from the neurologist and from the software were found compatible. Therefore, the main expected impact of the present study is to make the analysis of repeater F waves easier primarily in motor unit number estimation studies, since there is currently a continuing need for such automated programs in clinical neurophysiology.Submaximal recordings were examined only by the developed software. The extracted features were: maximum M response amplitude, mean power of M response, mean of sMUP values, MUNE value, number o...
Source: Biomedical Signal Processing and Control - Category: Biomedical Science Source Type: research