Computational Intelligence and Data Sciences
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Computational Intelligence and Data Sciences

Paradigms in Biomedical Engineering

Ayodeji Olalekan Salau, Shruti Jain, Meenakshi Sood, Ayodeji Olalekan Salau, Shruti Jain, Meenakshi Sood

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eBook - ePub

Computational Intelligence and Data Sciences

Paradigms in Biomedical Engineering

Ayodeji Olalekan Salau, Shruti Jain, Meenakshi Sood, Ayodeji Olalekan Salau, Shruti Jain, Meenakshi Sood

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Información del libro

This book presents futuristic trends in computational intelligence including algorithms as applicable to different application domains in health informatics covering bio-medical, bioinformatics, and biological sciences. Latest evolutionary approaches to solve optimization problems under biomedical engineering field are discussed. It provides conceptual framework with a focus on application of computational intelligence techniques in the domain of biomedical engineering and health informatics including real-time issues.

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Información

Editorial
CRC Press
Año
2022
ISBN
9781000541762
Edición
1
Categoría
Computer Science
Categoría
Data Mining

1 Performance of Diverse Machine Learning Algorithms for Heart Disease Prognosis

Dhruv Kaliraman, Gauri Kamath, Suchitra Khoje, and Prajakta Pardeshi
MIT WPU
DOI: 10.1201/9781003224068-1

Contents

  1. 1.1 Introduction
  2. 1.2 Literature Review
  3. 1.3 Materials and Methods
    1. 1.3.1 Data
    2. 1.3.2 Outlier Detection
    3. 1.3.3 Data Preprocessing
    4. 1.3.4 Dimensionality Reduction
    5. 1.3.5 Ensemble Methods of Machine Learning
  4. 1.4 Proposed Approach for the Classification Model
    1. 1.4.1 Logistic Regression
    2. 1.4.2 Random Forest
    3. 1.4.3 Gradient Boosting
    4. 1.4.4 Extra-Trees Classifier
    5. 1.4.5 AdaBoost
    6. 1.4.6 MLP
    7. 1.4.7 Decision Tree Classifier
  5. 1.5 Results
  6. 1.6 Conclusions
  7. References

1.1 Introduction

Heart failure is the prime cause of death. It is one of the most chronic illnesses, and it can lead to disabilities and pose financial problems to patients. As per World Health Organization records, 17.5 million individuals die every year from cardiovascular disease [1]. The prognosis of heart disease is challenging for doctors as some of the symptoms experienced can be related to other illnesses or may be indicators of aging [2]. When the arteries of the heart lose the ability to transport blood that is rich in oxygen, heart disease is likely to occur. A common cause is plaque buildup in the lining of larger coronary arteries. It may partially or entirely block the blood flow in the heart’s large arteries. This condition may occur as a result of an illness or accident that changes the way the heart arteries function [3]. Electrocardiogram (ECG), Holter screening, echocardiogram, stress examination, cardiac catheterization, cardiac computerized tomography (CT) scan, and cardiac magnetic resonance imaging are some of the medical tests that doctors and experts run to detect cardiovascular disease [4].
Diagnosis is a difficult, and critical process must be completed correctly and quickly. The availability of high-quality treatments at reasonable prices is a major concern for healthcare organizations such as hospitals and emergency centers [5]. However, if the coronary disease is diagnosed early enough, it can be successfully treated by a combination of dietary modifications, medical treatments, and surgical procedures [3]. The complications of heart disease can be decreased, and the heart’s rhythm can be increased with the proper therapy [6].
Factors: After a lot of research, experts have classified the risk factors that can cause heart disease into two categories: risk factors that can be controlled and managed, and risk factors that will remain unaffected even after the treatment. Risk factors that don’t have a scope of improvement include family background, ethnicity, and age. High levels of blood pressure, cholesterol, frequent alcohol intake, and physical inactivity are all risk factors that can be controlled to a certain extent. Hypertension is a condition that can harm the blood arteries, making it a highly likely risk factor for heart disease. Blood arteries may be damaged by high blood pressure. Tobacco consumption of any type increases the risk of CVD. Chemicals used to prepare tobacco products too have detrimental effects on the blood vessels. When high levels of cholesterol are detected in the body, heart disease is most likely to occur. Obesity or being overweight raises the risk of heart failure as well [7]. The precise timing of disease diagnosis determines the extent to which the disease can be controlled. The proposed research aims to diagnose these heart conditions early to prevent catastrophic effects [8].
Health researchers have produced a vast collection of medical evidence that can be analyzed, and useful information can be extracted from it. Data mining techniques are methods for retrieving useful information from vast amounts of data [9]. Large networks of data in a medical database are discrete [10]. As a consequence, making decisions based on discrete data becomes a daunting challenge. Machine learning (ML), a subfield of data mining, excels at handling massive, well-formatted, normalized datasets. ML is a tool that can be used to diagnose, track, and forecast different diseases in the medical field [11]. The goal is to make the process easier and to deliver successful care to patients while avoiding serious repercussions [12]. The role of ML in detecting hidden discrete patterns and analyzing the data is critical. Following data processing and dimensionality reduction, ML methods aid in the early detection and speedy diagnosis of heart disease. This chapter aims at testing the efficacy and the potential of numerous ML and deep learning [13] techniques for predicting cardiac disease at an early level (Figure 1.1).
This figure gives the complete overview of the model that has been implemented in this research.
FIGURE 1.1 Prediction model flowchart.

1.2 Literature Review

Bayu and Sun [14] suggested a new method to build a double-tier ensemble. Random forest, gradient boosting, and extreme gradient boosting were the three ensemble learners that were merged with the help of a stacked architecture. To determine which feature set was the most important for each dataset, a particle swarm optimization-based attribute selection was performed. They also carried out a double-layered statistical test to buttress their postulations and to show that they were not based on suppositions. They also implemented tenfold cross-validation to improve their results.
Emmanuel et al. [15] aimed at implementing dimensionality reduction and a feature extraction technique by searching attributes that can cause cardiovascular disease. Phenomenal results were obtained when chi-square analysis and principal component analysis (PCA) were applied together to random forest and the accuracy that was obtained was 98.7% using Cleveland, 99.0% using Hungarian, and 99.4% using Cleveland–Hungarian datasets. According to the outcomes obtained from different models, the amalgamation of chi-square and PCA produced stronger results. The models were evaluated based on the accuracy, recall, precision, f1 ranking, Matthews correlation coefficient, and finally Cohen’s kappa coefficient.
Ludi et al. [16] focused on congestive heart failure detection that suggests an ensemble methodology and employs heart rate variability data as well as deep neural networks. The databases employed in this study were the BIDMC Congestive Heart Failure Database (BIDMC-CHF), Congestive Heart Failure RR Interval Database (CHF-RR), MIT-BIH Normal Sinus Rhythm (NSR) Database, Fantasia Database (FD), and Normal Sinus Rhythm RR Interval Database (NSR-RR). After extracting the expert features of RR intervals, a deep learning feature extraction network based on a long short-term memory convolutional neural network was built. Taking the BIDMC-CHF, NSR, and FD data, the propose...

Índice

  1. Cover
  2. Half Title
  3. Title Page
  4. Copyright Page
  5. Table of Contents
  6. Preface
  7. Acknowledgments
  8. Editors
  9. Contributors
  10. Chapter 1 Performance of Diverse Machine Learning Algorithms for Heart Disease Prognosis
  11. Chapter 2 Intelligent Ovarian Detection and Classification in Ultrasound Images Using Machine Learning Techniques
  12. Chapter 3 On Effective Use of Feature Engineering for Improving the Predictive Capability of Machine Learning Models
  13. Chapter 4 Artificial Intelligence Emergence in Disruptive Technology
  14. Chapter 5 An Optimal Diabetic Features-Based Intelligent System to Predict Diabetic Retinal Disease
  15. Chapter 6 Cross-Recurrence Quantification Analysis for Distinguishing Emotions Induced by Indian Classical Music
  16. Chapter 7 Pattern Recognition and Classification of Remotely Sensed Satellite Imagery
  17. Chapter 8 Viability of Information and Correspondence Innovation for the Improvement of Communication Abilities in the Healthcare Industry
  18. Chapter 9 Application of 5G/6G Smart Systems to Overcome Pandemic and Disaster Situations
  19. Chapter 10 Risk Perception, Risk Management, and Safety Assessments: A Review of an Explosion in the Fireworks Industry
  20. Chapter 11 High-Utility Itemset Mining: Fundamentals, Properties, Techniques and Research Scope
  21. Chapter 12 A Corpus Based Quantitative Analysis of Gurmukhi Script
  22. Chapter 13 An Analysis of Protein Interaction and Its Methods, Metabolite Pathway and Drug Discovery
  23. Chapter 14 Biosensors for Disease Diagnosis
  24. Index
Estilos de citas para Computational Intelligence and Data Sciences

APA 6 Citation

Salau, A. O., Jain, S., & Sood, M. (2022). Computational Intelligence and Data Sciences (1st ed.). CRC Press. Retrieved from https://www.perlego.com/book/3267271/computational-intelligence-and-data-sciences-paradigms-in-biomedical-engineering-pdf (Original work published 2022)

Chicago Citation

Salau, Ayodeji Olalekan, Shruti Jain, and Meenakshi Sood. (2022) 2022. Computational Intelligence and Data Sciences. 1st ed. CRC Press. https://www.perlego.com/book/3267271/computational-intelligence-and-data-sciences-paradigms-in-biomedical-engineering-pdf.

Harvard Citation

Salau, A. O., Jain, S. and Sood, M. (2022) Computational Intelligence and Data Sciences. 1st edn. CRC Press. Available at: https://www.perlego.com/book/3267271/computational-intelligence-and-data-sciences-paradigms-in-biomedical-engineering-pdf (Accessed: 15 October 2022).

MLA 7 Citation

Salau, Ayodeji Olalekan, Shruti Jain, and Meenakshi Sood. Computational Intelligence and Data Sciences. 1st ed. CRC Press, 2022. Web. 15 Oct. 2022.