Machine learning applications in medical imaging for early diagnosis of cardiovascular diseases
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Abstract
Since cardiovascular diseases (CVDs) continue to be the primary cause of morbidity and death worldwide, better patient outcomes depend on early and precise diagnosis. Although they are essential for clinical decision-making, traditional cardiovascular imaging methods such as computed tomography (CT), cardiac magnetic resonance (CMR), and echocardiography sometimes rely on subjective evaluations that are prone to inter-observer variability. A revolutionary method for improving diagnostic automation, efficiency, and accuracy is the incorporation of machine learning (ML) into medical imaging. Large amounts of imaging data can be analyzed using ML algorithms, such as supervised and unsupervised learning models, which can also extract complex patterns and accurately detect small cardiovascular abnormalities. Accurate measurement of cardiac structures and functions is made possible by deep learning models and convolutional neural networks (CNNs), which further enhance feature extraction and classification. By enabling early identification, lowering diagnostic errors, and improving patient prognosis, ML-driven diagnostic technologies have the potential to completely transform cardiovascular healthcare, notwithstanding obstacles relating to data privacy, ethical issues, and regulatory compliance. With a focus on its contribution to the advancement of automated diagnostics and precision medicine, this paper examines the present uses, difficulties, and potential of machine learning in cardiovascular imaging.
Description
2025