Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/124114
Title: Towards automatic EEG cyclic alternating pattern analysis: a systematic review
Authors: Mendonça, Fábio
Mostafa, Sheikh Shanawaz
Morgado-Dias, Fernando
Ravelo-García, Antonio G. 
Rosenzweig, Ivana
UNESCO Clasification: 3314 Tecnología médica
Keywords: A Phase
Automatic Classification
Cap
Eeg
Issue Date: 2023
Journal: Biomedical Engineering Letters 
Abstract: This study conducted a systematic review to determine the feasibility of automatic Cyclic Alternating Pattern (CAP) analysis. Specifically, this review followed the 2020 Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines to address the formulated research question: is automatic CAP analysis viable for clinical application? From the identified 1,280 articles, the review included 35 studies that proposed various methods for examining CAP, including the classification of A phase, their subtypes, or the CAP cycles. Three main trends were observed over time regarding A phase classification, starting with mathematical models or features classified with a tuned threshold, followed by using conventional machine learning models and, recently, deep learning models. Regarding the CAP cycle detection, it was observed that most studies employed a finite state machine to implement the CAP scoring rules, which depended on an initial A phase classifier, stressing the importance of developing suitable A phase detection models. The assessment of A-phase subtypes has proven challenging due to various approaches used in the state-of-the-art for their detection, ranging from multiclass models to creating a model for each subtype. The review provided a positive answer to the main research question, concluding that automatic CAP analysis can be reliably performed. The main recommended research agenda involves validating the proposed methodologies on larger datasets, including more subjects with sleep-related disorders, and providing the source code for independent confirmation.
URI: http://hdl.handle.net/10553/124114
ISSN: 2093-9868
DOI: 10.1007/s13534-023-00303-w
Source: Biomedical Engineering Letters [ISSN 2093-9868], v. 13 p. 273-291 (2023)
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