Discovering biomarkers associated and predicting cardiovascular disease with high accuracy using a novel nexus of machine learning techniques for precision medicine

DeGroat, William; Abdelhalim, Habiba; Patel, Kush; Mendhe, Dinesh; Zeeshan, Saman; Ahmed, Zeeshan

doi:10.1101/2023.09.08.553995

Cited by 2 publications

(1 citation statement)

References 58 publications

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“…Accuracy: The greatest accuracy of 0.90 was achieved by neural networks, indicating their remarkable ability to correctly categorize occurrences as having cardiac disease or not [17]. Random forests ran a close second, showing excellent performance with a precision of 0.88.…”

Section: A Comparative Performance Analysis: 1)mentioning

confidence: 99%

Prediction Of Cardiovascular Disorders Using Machine Learning

Ramya Sri Bhuvana,

Rohith,

Swathi

et al. 2024

eatp

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Heart diseases are one of the world's most pressing health challenges numerous deaths each year. They encompass various cardiovascular conditions like Coronary Artery disease, heart failure, and arrhythmias. Detecting these diseases early is crucial for effectively managing and preventing complications. Predictive modeling emerges as a pivotal tool in this endeavor, utilizing advanced data analysis methodologies to anticipate the probability of encountering heart-related conditions. Timely detection facilitates prompt intervention, empowering healthcare practitioners to enact preventive strategies and customize treatment regimens to suit each patient's unique requirements. Predictive modeling serves as a valuable tool in pinpointing individuals at elevated risk of heart diseases, leveraging variables like medical background, lifestyle choices, and genetic inclinations. Through the identification of risk elements and prognostication of potential outcomes, healthcare providers can intervene proactively, potentially forestalling the onset or reducing the impact of heart diseases [1]. Within this framework, Leveraging predictive model methodologies, notably machine learning algorithms, has garnered significant Cognitive workload management for healthcare domain. These algorithms possess the capability to scrutinize extensive datasets comprising patient data, uncovering intricate patterns and ARTICLE INFO ABSTRACTThe paper delves into the application of various Machine Learning (ML) algorithms for the early identification and prediction of heart diseases. It examines the effectiveness of these algorithms in analyzing diverse datasets related to cardiac health, including medical history, lifestyle factors, and diagnostic tests results. By leveraging ML techniques such as Decision Trees, Support Vector Machines, and Neural Networks, researchers aim to develop robust predictive models capable of identifying individuals at risk of heart conditions with high accuracy. Additionally, the paper discusses the challenges associated with data collection, preprocessing, and model validation in the context of Heart Disease prediction, highlighting the need for further research and innovation in this critical area of healthcare. By scrutinizing datasets comprising patient data and clinical records, our objective is to construct resilient predictive models. Through meticulous evaluation and comparison of different algorithms, our study endeavors to identify the most efficient approaches for precise prediction. Ultimately, our research endeavors to facilitate proactive interventions and tailored healthcare interventions to mitigate the impact of heart diseases more efficiently.

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Section: A Comparative Performance Analysis: 1)mentioning

confidence: 99%

Prediction Of Cardiovascular Disorders Using Machine Learning

Ramya Sri Bhuvana,

Rohith,

Swathi

et al. 2024

eatp

View full text Add to dashboard Cite

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IntelliGenes: a novel machine learning pipeline for biomarker discovery and predictive analysis using multi-genomic profiles

DeGroat,

Mendhe,

Bhusari

et al. 2023

Bioinformatics

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Summary In this article, we present IntelliGenes, a novel machine learning (ML) pipeline for the multi-genomics exploration to discover biomarkers significant in disease prediction with high accuracy. IntelliGenes is based on a novel approach, which consists of nexus of conventional statistical techniques and cutting-edge ML algorithms using multi-genomic, clinical, and demographic data. IntelliGenes introduces a new metric, i.e. Intelligent Gene (I-Gene) score to measure the importance of individual biomarkers for prediction of complex traits. I-Gene scores can be utilized to generate I-Gene profiles of individuals to comprehend the intricacies of ML used in disease prediction. IntelliGenes is user-friendly, portable, and a cross-platform application, compatible with Microsoft Windows, macOS, and UNIX operating systems. IntelliGenes not only holds the potential for personalized early detection of common and rare diseases in individuals, but also opens avenues for broader research using novel ML methodologies, ultimately leading to personalized interventions and novel treatment targets. Availability and implementation The source code of IntelliGenes is available on GitHub (https://github.com/drzeeshanahmed/intelligenes) and Code Ocean (https://codeocean.com/capsule/8638596/tree/v1).

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Discovering biomarkers associated and predicting cardiovascular disease with high accuracy using a novel nexus of machine learning techniques for precision medicine

Cited by 2 publications

References 58 publications

Prediction Of Cardiovascular Disorders Using Machine Learning

Prediction Of Cardiovascular Disorders Using Machine Learning

IntelliGenes: a novel machine learning pipeline for biomarker discovery and predictive analysis using multi-genomic profiles

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