Younghoon Cho scite author profile

Rapid diagnosis of myocardial infarction (MI) using electrocardiography (ECG) is the cornerstone of effective treatment and prevention of mortality; however, conventional interpretation methods has low reliability for detecting MI and is difficulty to apply to limb 6-lead ECG based life type or wearable devices. We developed and validated a deep learning-based artificial intelligence algorithm (DLA) for detecting MI using 6-lead ECG. A total of 412,461 ECGs were used to develop a variational autoencoder (VAE) that reconstructed precordial 6-lead ECG using limb 6-lead ECG. Data from 9536, 1301, and 1768 ECGs of adult patients who underwent coronary angiography within 24 h from each ECG were used for development, internal and external validation, respectively. During internal and external validation, the area under the receiver operating characteristic curves of the DLA with VAE using a 6-lead ECG were 0.880 and 0.854, respectively, and the performances were preserved by the territory of the coronary lesion. Our DLA successfully detected MI using a 12-lead ECG or a 6-lead ECG. The results indicate that MI could be detected not only with a conventional 12 lead ECG but also with a life type 6-lead ECG device that employs our DLA.

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A Three-Phase Current Reconstruction Strategy With Online Current Offset Compensation Using a Single Current Sensor

Cho

LaBella

Lai

2012

IEEE Trans. Ind. Electron.

132

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A deep learning algorithm to detect anaemia with ECGs: a retrospective, multicentre study

Kwon

Cho²,

Jeon

et al. 2020

The Lancet Digital Health

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Background Anaemia is an important health-care burden globally, and screening for anaemia is crucial to prevent multi-organ injury, irreversible complications, and life-threatening adverse events. We aimed to establish whether a deep learning algorithm (DLA) that enables non-invasive anaemia screening from electrocardiograms (ECGs) might improve the detection of anaemia.Methods We did a retrospective, multicentre, diagnostic study in which a DLA was developed using ECGs and then internally and externally validated. We used data from two hospitals, Sejong General Hospital (hospital A) and Mediplex Sejong Hospital (hospital B), in South Korea. Data from hospital A was for DLA development and internal validation, and data from hospital B was for external validation. We included individuals who had at least one ECG with a haemoglobin measurement within 1 h of the index ECG and excluded individuals with missing demographic, electrocardiographic, or haemoglobin information. Three types of DLA were developed with 12-lead, 6-lead (limb lead), and single-lead (lead I) ECGs to detect haemoglobin concentrations of 10 g/dL or less. The DLA was built by a convolutional neural network and used 500-Hz raw ECG, age, and sex as input data.

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Younghoon Cho

Design and Analysis of an MPPT Technique for Small-Scale Wind Energy Conversion Systems

Derivation, Analysis, and Implementation of a Boost–Buck Converter-Based High-Efficiency PV Inverter

Artificial intelligence algorithm for detecting myocardial infarction using six-lead electrocardiography

A Three-Phase Current Reconstruction Strategy With Online Current Offset Compensation Using a Single Current Sensor

A deep learning algorithm to detect anaemia with ECGs: a retrospective, multicentre study

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