2021
DOI: 10.1161/jaha.121.023222
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Real‐Time Arrhythmia Detection Using Hybrid Convolutional Neural Networks

Abstract: Background Accurate detection of arrhythmic events in the intensive care units (ICU) is of paramount significance in providing timely care. However, traditional ICU monitors generate a high rate of false alarms causing alarm fatigue. In this work, we develop an algorithm to improve life threatening arrhythmia detection in the ICUs using a deep learning approach. Methods and Results This study involves a total of 953 independent life‐threatening arrhythm… Show more

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Cited by 17 publications
(15 citation statements)
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“…The benefits of neural network-based approaches rely on the inherent ability of a NN to recognize patterns and extract features from raw data without extensive pre-processing and hardcoded feature engineering, which makes them particularly appealing for implementation in monitoring devices. Convolutional deep neural networks have been used to extract features from ECG to identify arrhythmias [ 33 ], predict atrial fibrillation [ 34 ] and hyperkalemia [ 35 ] with promising results. Algorithms to detect asynchronies or weak inspiratory efforts, such as the one developed in this study, could be introduced in ventilators’ software or in monitoring devices connected to the ventilators.…”
Section: Discussionmentioning
confidence: 99%
“…The benefits of neural network-based approaches rely on the inherent ability of a NN to recognize patterns and extract features from raw data without extensive pre-processing and hardcoded feature engineering, which makes them particularly appealing for implementation in monitoring devices. Convolutional deep neural networks have been used to extract features from ECG to identify arrhythmias [ 33 ], predict atrial fibrillation [ 34 ] and hyperkalemia [ 35 ] with promising results. Algorithms to detect asynchronies or weak inspiratory efforts, such as the one developed in this study, could be introduced in ventilators’ software or in monitoring devices connected to the ventilators.…”
Section: Discussionmentioning
confidence: 99%
“…This need to reduce clinically irrelevant alarms should be addressed in collaboration with key stakeholders (e.g., patients and engineers) and health services, taking advantage of the development of technology with better algorithms that reduce false alarms (Bollepalli et al, 2021; Hyland et al, 2020; Ruppel, De Vaux, et al, 2018; Wilken et al, 2019). In addition, the devices must be useful, adjusting the sensitivity and specificity of the alarms, and their operation must be easy to learn (Fernandes et al, 2020; Muroi et al, 2020).…”
Section: Discussionmentioning
confidence: 99%
“…A deep learning architecture based on one-dimensional CNN layers and an LSTM network was found to be timely and accurate for the detection of VF in automated external defibrillators [ 60 ]. Furthermore, ML-based intensive care unit alarm systems have been found to achieve higher positive predictive values for the identification of asystole, extreme bradycardia, VT and VF compared to the bedside monitors used in the PhysioNet 2015 competition [ 9 , 10 , 61 ].…”
Section: Discussionmentioning
confidence: 99%
“…Machine learning (ML) can integrate and interpret data from different domains in settings where conventional statistical methods may not be able to perform [ 8 ]. Recently, the role of ML techniques has been studied in different aspects of medicine, including electronic health records, diagnosis, risk stratification, timely identification of abnormal heart rhythms in the intensive care unit [ 9 , 10 ], on prognosis and guidance of personalized management [ 11 , 12 ]. However, application of ML study findings has been limited due to the lack of a regulatory framework for its implementation and the clinicians’ unfamiliarity in using as well as trusting ML techniques [ 13 ].…”
Section: Introductionmentioning
confidence: 99%