Heart Diseases Diagnosis Using Artificial Neural Networks

Information technology has virtually altered every aspect of human life in the present era. The application of informatics in the health sector is rapidly gaining prominence and the benefits of this innovative paradigm are being realized across the globe. This evolution produced large number of patients’ data that can be employed by computer technologies and machine learning techniques, and turned into useful information and knowledge. This data can be used to develop expert systems to help in diagnosing some life-threating diseases such as heart diseases, with less cost, processing time and improved diagnosis accuracy. Even though, modern medicine is generating huge amount of data every day, little has been done to use this available data to solve challenges faced in the successful diagnosis of heart diseases. Highlighting the need for more research into the usage of robust data mining techniques to help health care professionals in the diagnosis of heart diseases and other debilitating disease conditions. Based on the foregoing, this thesis aims to develop a health informatics system for the classification of heart diseases using data mining techniques focusing on Radial Basis functions and emerging Neural Networks approach. The presented research involves three development stages; firstly, the development of a preliminary classification system for Coronary Artery Disease (CAD) using Radial Basis Function (RBF) neural networks. The research then deploys the deep learning approach to detect three different types of heart diseases i.e. Sleep Apnea, Arrhythmias and CAD by designing two novel classification systems; the first adopt a novel deep neural network method (with Rectified Linear unit activation) design as the second approach in this thesis and the other implements a novel multilayer kernel machine to mimic the behaviour of deep learning as the third approach. Additionally, this thesis uses a dataset obtained from patients, and employs normalization and feature extraction means to explore it in a unique way that facilitates its usage for training and validating different classification methods. This unique dataset is useful to researchers and practitioners working in heart disease treatment and diagnosis. The findings from the study reveal that the proposed models have high classification performance that is comparable, or perhaps exceed in some cases, the existing automated and manual methods of heart disease diagnosis. Besides, the proposed deep-learning models provide better performance when applied on large data sets (e.g., in the case of Sleep Apnea), with reasonable performance with smaller data sets. The proposed system for clinical diagnoses of heart diseases, contributes to the accurate detection of such disease, and could serve as an important tool in the area of clinic support system. The outcome of this study in form of implementation tool can be used by cardiologists to help them make more consistent diagnosis of heart diseases

Algorithms for automated diagnosis of cardiovascular diseases based on ECG data: A comprehensive systematic review

The prevalence of cardiovascular diseases is increasing around the world. However, the technology is evolving and can be monitored with low-cost sensors anywhere at any time. This subject is being researched, and different methods can automatically identify these diseases, helping patients and healthcare professionals with the treatments. This paper presents a systematic review of disease identification, classification, and recognition with ECG sensors. The review was focused on studies published between 2017 and 2022 in different scientific databases, including PubMed Central, Springer, Elsevier, Multidisciplinary Digital Publishing Institute (MDPI), IEEE Xplore, and Frontiers. It results in the quantitative and qualitative analysis of 103 scientific papers. The study demonstrated that different datasets are available online with data related to various diseases. Several ML/DP-based models were identified in the research, where Convolutional Neural Network and Support Vector Machine were the most applied algorithms. This review can allow us to identify the techniques that can be used in a system that promotes the patient’s autonomy.N/

Medical Diagnostic Systems Using Artificial Intelligence (AI) Algorithms : Principles and Perspectives

Funding Information: This work was supported in part by the National Research Foundation of Korea grant funded by the Korean Government, Ministry of Science and ICT, under Grant NRF-2020R1A2B5B02002478, and in part by Sejong University through its Faculty Research Program.Peer reviewe

HEART RHYTHM CLASSIFICATION FROM STATIC AND ECG TIME-SERIES DATA USING HYBRID MULTIMODAL DEEP LEARNING

Cardiovascular arrhythmia diseases are considered as the most common diseases that cause death around the world. Abnormal arrhythmia diseases can be identified by analyzing heart rhythm using an electrocardiogram (ECG). However, this analysis is done manually by cardiologists, which may be subjective and susceptible to different cardiologist observations and experiences, as well as to noise and irregularities in those signals. This can lead to misdiagnosis. Motivated by this challenge, an automated heart rhythm diagnosis approach from ECG signals using Deep Learning has been proposed. In order to achieve this goal, three research problems have been addressed. First, recognize the role of each single-lead of a 12-lead ECG to classify heart rhythms. Second, understanding the importance of static data (e.g., demographics and clinical profile) in classifying heart rhythms. Third, realizing whether the static data can be combined with the ECG time series data for better classification performance. In this thesis, different deep learning models have been proposed to address these problems and satisfactory results are achieved. Therefore, using this knowledge, an effective hybrid deep learning model to classify heart rhythms has been proposed. As per knowledge obtained from relevant literature, this is the first work to identify the importance of individual lead and combined lead as well as the importance of combining static data with ECG time series data in classifying heart rhythms. Extensive experiments have been performed to evaluate this algorithm on a 12-lead ECG database that contains data from more than 10,000 individual subjects and obtained a high average of accuracy (up to 98.7%) and F1-measure (up to 98.7%). Moreover, in this thesis, the distribution of heart rhythms from the database based on heart rhythm type, gender, and age group have been analyzed, which will be valuable for further improvement of classification performance. This study will provide valuable insights and will prove to be an effective tool in automated heart rhythm classification and will assist cardiologists in effectively and accurately diagnosing heart disease

Recent Advances in Machine Learning Applied to Ultrasound Imaging

Machine learning (ML) methods are pervading an increasing number of fields of application because of their capacity to effectively solve a wide variety of challenging problems. The employment of ML techniques in ultrasound imaging applications started several years ago but the scientific interest in this issue has increased exponentially in the last few years. The present work reviews the most recent (2019 onwards) implementations of machine learning techniques for two of the most popular ultrasound imaging fields, medical diagnostics and non-destructive evaluation. The former, which covers the major part of the review, was analyzed by classifying studies according to the human organ investigated and the methodology (e.g., detection, segmentation, and/or classification) adopted, while for the latter, some solutions to the detection/classification of material defects or particular patterns are reported. Finally, the main merits of machine learning that emerged from the study analysis are summarized and discussed. © 2022 by the authors. Licensee MDPI, Basel, Switzerland

Neuropsychological predictors of the outcome in non-demented subjects with cognitive complaints

Tese de doutoramento, Ciências Biomédicas (Neurociências), Universidade de Lisboa, Faculdade de Medicina, 2012Nowadays, life expectancy has increased and gradually the prevalence of neurodegenerative disorders in the aging population began to represent a major public health problem. Alzheimer’s disease (AD) is the most common dementia and affects millions of older adults. Despite recent advances in the knowledge of AD biomarkers of pathophysiological processes, clearly the phenotype remains aetiologically heterogeneous. Understanding the clinical phenotype variation contingent to the neuropathological progression is crucial to provide intervention in the earliest phases of neurodegeneration. Newly research biomarkers have been proposed for early diagnosis of AD, however cognitive impairment remains a prominent and early feature of AD. Neuropsychological markers could offer a relatively inexpensive and noninvasive indicator of future progression to dementia because biological markers are expensive, some of them only available at few specialized centers, and, in the case of lumbar puncture, invasive. Therefore, it would not be reasonable to offer the newer and expensive biomarker techniques to all patients with cognitive complaints. Importantly, new treatments of disease modification approach require the selection of those patients with higher risk of conversion to dementia. Thus, the main goal of the present thesis was to improve the predictive value of neuropsychological measures to future conversion to dementia of patients presenting with cognitive complaints who do not fulfil the dementia criteria. Four steps were conducted in order to reach that main goal: 1. º Original published articles reporting values of sensitivity, specificity and effect sizes for neuropsychological tests to predict conversion to dementia in patients at risk of future cognitive decline were analysed in a systematic review of literature. Twenty-four studies published in the last 20 years were selected. Neuropsychological tests administered vary considerably among studies, yet the battery of tests applied generally assessed verbal memory performances, and many included also cognitive areas such as executive functions, attention and language. Methodological constrains limited the ability to provide reasonable predictive values; some studies have reported rather disparate global sensitivity and specificity rates for the neuropsychological tests to predict conversion to dementia. Conversely, other studies reported high and balanced sensitivity/specificity ratios (≥80%), mainly for verbal episodic memory tests, however the follow-up period of those studies was generally short (≈2 years). Certainly, it would be important to achieve a consensus according to the more feasible and accurate neuropsychological tests to administer for the assessment of patients at risk of conversion to dementia. On the other hand, cohort studies with longer follow-up periods would be important to propose neuropsychological tests with higher predictive accuracy and clinical relevance regarding conversion to dementia. 2. º Newer statistical classification methods derived from data mining and machine learning methods were applied to improve accuracy, sensitivity and specificity of predictors obtained from neuropsychological testing. Data used to perform the comparison of classification methods was extracted from a cohort study (CCC – Cognitive Complaints Cohort) with 775 elderly non-demented patients with cognitive complaints referred for neuropsychological evaluation. Seven non-parametric classifiers derived from data mining methods (Multilayer Perceptrons Neural Networks, Radial Basis Function Neural Networks, Support Vector Machines, CART, CHAID and QUEST Classification Trees and Random Forests) were compared to three traditional classifiers (Linear Discriminant Analysis, Quadratic Discriminant Analysis and Logistic Regression) in terms of overall classification accuracy, specificity, sensitivity, Area under the ROC curve and Press’Q. Model predictors were 10 neuropsychological tests currently used in the diagnosis of dementia. Comparison of classifiers highlighted three methods more adequate to study the predictive value of neuropsychological tests in longitudinal clinical cohort studies. Support Vector Machines demonstrated the larger overall classification accuracy (Median (Me) = 0.76) and area under the ROC (Me =0.90). However, this method showed high specificity (Me = 1.0) but very low sensitivity (Me = 0.3). Random Forests ranked second in overall accuracy (Me = 0.73) with high area under the ROC (Me = 0.73), specificity (Me = 0.73) and sensitivity (Me = 0.64). Linear Discriminant Analysis also showed acceptable overall accuracy (Me = 0.66), with acceptable area under the ROC (Me = 0.72), specificity (Me = 0.66) and sensitivity (Me = 0.64). Results indicated the innovative data mining method of Random Forests, along with more traditional methods, namely the Linear Discriminant Analysis, should be the option in cohort studies of neuropsychological predictors of future dementia. 3. º Verbal memory is one of the first cognitive areas to decline, therefore, the predictive value of Mild Cognitive Impairment (MCI) for the conversion to dementia when using four different verbal memory tests (Logical Memory, LM; California Verbal Learning Test, CVLT; Verbal Paired-Associate Learning, VPAL; and Digit Span, DS) was analysed. Participants were consecutive patients with subjective cognitive complaints who performed a comprehensive neuropsychological evaluation and were not demented, observed in a memory clinic setting. At baseline, 272 patients from CCC reporting subjective cognitive complaints and not demented were included. During the follow-up time (3.0±1.9 years), 58 patients converted to dementia, and 214 did not. Statistically significant differences between the converters and non-converters were present in LM, VPAL and CVLT. A multivariate Cox regression analysis combining the 4 memory tests revealed that only the CVLT test remained significant as predictor of conversion to dementia. Non-demented patients with cognitive complaints diagnosed as MCI according to abnormal (< 1.5 SD) learning in the CVLT test had 3.6 higher risk of becoming demented in the follow-up. As so, the verbal memory assessment using the CVLT should be preferred in the diagnostic criteria of MCI for a more accurate prediction of conversion to dementia. 4. º The predictive value for future conversion to dementia of a comprehensive neuropsychological battery applied to a cohort of nondemented patients followed-up for 5 years was presented. Two hundred and fifty subjects were selected from CCC having cognitive complaints, assessment with a comprehensive neuropsychological battery, and follow-up of at least 5 years (if patients have not converted to dementia earlier). During the follow-up period (2.6±1.8 years for converters and 6.1±2.1 for non converters), 162 patients (64.8%) progressed to dementia (mostly Alzheimer’s disease), and 88 (35.2%) did not. A Linear Discriminant Analysis (LDA) model constituted by Digit Span backward, Semantic Fluency, Logical Memory (immediate recall) and Forgetting Index significantly discriminated converters from non-converters (λ Wilks=0.64; χ2(4)=81.95; p<0.001; RCanonical=0.60). Logical Memory (immediate recall) was the strongest predictor with a standardized canonical discriminant function coefficient of 0.70. The LDA classificatory model showed good sensitivity, specificity and accuracy values (78.8%, 79.9% and 78.6%, respectively) of the neuropsychological tests to predict long-term conversion to dementia. Results showed that it is possible to predict, on the basis of the initial clinical and neuropsychological evaluation, namely with routine tests from a comprehensive neuropsychological battery, whether non-demented patients with cognitive complaints will probably convert to dementia, or remain stable. This prediction is obtained with very good accuracy values (≈80%), similar to those reported for the newly research biomarkers, and at a reasonably long and clinically relevant term (5 years).A esperança média de vida tem vindo a aumentar e consequentemente, de modo gradual, também a prevalência de doenças neurodegenerativas, representando actualmente na população mais envelhecida um alarmante problema de saúde pública. A doença de Alzheimer é a forma mais comum de demência e afecta milhões de indivíduos adultos. Recentemente tem sido possível alcançar avanços significativos na compreensão e no conhecimento sobre os biomarcadores que traduzem os processos patofisiológicos associados à doença de Alzheimer, no entanto, é importante salientar que o fenótipo manifestado pode ainda ser de etiologia heterogénea. Compreender melhor a variação das expressões de fenótipo contigentes ao processo neuropatológico é essencial para uma identificação e intervenção mais precoce no processo neurodegenerativo. Recentemente foram propostos novos biomarcadores, ainda limitados ao âmbito da investigação, com o propósito de realizar mais cedo o diagnóstico de doença de Alzheimer. Não obstante o seu potencial, será de referir que a presença de significativas alterações cognitivas continua a ser um elemento de diagnóstico incontornável e um indicador precoce da doença de Alzheimer. Os marcadores neuropsicológicos poderão oferecer indicadores de uma futura progressão para demência que serão economicamente mais acessíveis e clinicamente menos invasivos do que a realização dos métodos necessários aos marcadores biológicos, que além de serem mais dispendiosos, apenas se encontram disponíveis em alguns centros médicos especializados e serão em alguns casos métodos invasivos (e.g., recolha de líquido cefalorraquidiano através de punção lombar). Por conseguinte, não será razoável assumir que se irá disponibilizar a todos os indivíduos com manifestas queixas subjectivas de alterações cognitivas os recentes biomarcadores, por requerem técnicas dispendiosas e/ou invasivas. Por outro lado, é importante referir que a abordagem em presente desenvolvimento para tratar a doença incidindo na modificação dos seus factores causais requer uma selecção inicial do maior número possível de indivíduos para os quais o risco de progressão para demência seja significativo. Assim sendo, o objectivo central da presente tese foi o de melhorar o valor preditivo das medidas neuropsicológicas para a determinação de uma futura progressão para demência de indivíduos com queixa de alterações cognitivas que contudo não preenchem ainda os critérios para o diagnóstico de demência. De modo a concretizar o objectivo central, quatro estudos foram desenvolvidos: 1.º - Uma revisão sistemática da literatura foi realizada com base em estudos originais publicados sobre o valor preditivo da avaliação neuropsicológica de uma futura progressão para demência, apresentando para tal os valores de sensibilidade, especificidade e magnitude do efeito para cada uma das provas neuropsicológicas. A selecção dos artigos permitiu a identificação de 24 artigos publicados nos últimos 20 anos. Os testes neuropsicológicos aplicados mudavam consideravelmente consoante o estudo em questão, contudo verificava-se que no conjunto de estudos era consistente a aplicação de provas de avaliação da memória verbal, mas também de avaliação de funções executivas, capacidade de atenção e linguagem. A presença de limitações metodológicas condicionou a potencialidade de apresentar valores preditivos razoáveis em alguns estudos, além disso, noutros estudos os valores de sensibilidade e especificidade apresentados para as provas neuropsicológicas enquanto preditoras de futura progressão para demência eram consideravelmente díspares. No entanto será importante salientar que também foi possível identificar em parte dos estudos descritos a presença de valores muito positivos e de razões equilibradas entre sensibilidade e especificidade (≥80%), principalmente para provas de avaliação da memória verbal episódica, contudo os tempos de seguimento eram na sua maioria curtos (aproximadamente 2 anos). Com certeza que seria relevante encontrar um consenso que pudesse futuramente guiar uma escolha viável e precisa das provas neuropsicológicas a aplicar para melhor predizer uma futura progressão para demência. Por outro lado, a existência de estudos de coorte longitudinais com períodos de seguimento mais alargados seria essencial para melhorar a precisão dos valores preditivos da avaliação neuropsicológica, tornando-se estes clinicamente mais relevantes no que respeita a uma futura progressão para demência. 2.º Os novos métodos de classificação estatística associados a técnicas de Prospecção de dados (em inglês data mining) e Sistemas de Aprendizagem (em inglês machine learning) foram aplicados com o intuito de melhorar a precisão, sensibilidade e especificidade dos preditores obtidos pela avaliação neuropsicológica. Para a comparação dos métodos classificatórios recorreu-se à base de dados CCC (CCC – Cognitive Complaints Cohort) que era constituída na altura por 775 casos de pacientes idosos não-dementes com queixas de alterações cognitivas e que foram referenciados para realizarem uma avaliação neuropsicológica. A comparação dos métodos estatísticos realizou-se entre 7 classificadores não-paramétricos provenientes de métodos de Prospecção de dados (Redes Neuronais com Perceptrões Multicamada; Redes Neuronais com Funções de Base Radial; Máquinas de Vectores de Suporte; CART; CHAID; Árvores de Classificação QUEST e Árvores de Classificação Aleatória) que foram comparados com três classificadores tradicionais (Análise Discriminante Linear; Análise Discriminante Quadrática, e Regressão Logística) em termos de precisão classificatória, especificidade, sensibilidade, área abaixo da curva ROC e Press’Q. O modelo para a predição consistia em 10 testes neuropsicológicos utilizados recorrentemente para o diagnóstico de demência. A comparação de classificadores identificou três métodos como os mais adequados para testar o valor preditivo dos testes neuropsicológicos em estudos longitudinais de coortes clínicas. As Máquinas de Vectores de Suporte demonstraram valores mais elevados de precisão classificatória (Mediana (Me)= 0,76) e de área abaixo da curva ROC (Me= 0,90). De salientar que, no que respeita à especificidade, este método revelou um valor elevado (Me= 1,0), contudo o valor de sensibilidade era consideravelmente baixo (Me= 0,30). As Florestas Aleatórias foram o segundo método com melhores resultados em termos de precisão (Me= 0,73), área abaixo da curva ROC (Me= 0,73), especificidade (Me= 0,73) e sensibilidade (Me= 0,64). A Análise Discriminante Linear demonstrou igualmente valores razoáveis de precisão (Me= 0,66), área abaixo da curva ROC (Me= 0,72), especificidade (Me= 0,66) e sensibilidade (Me= 0,64). Os resultados apresentados indicam que os melhores métodos classificatórios para analisar os preditores neuropsicológicos de futura progressão para demência correspondem às Florestas Aleatórias no âmbito dos mais inovadores métodos de Prospecção de dados e à Análise Discriminante Linear, enquanto método de eleição de entre os mais tradicionais para classificação de dados. 3.º A memória verbal é considerada uma das primeiras áreas cognitivas a manifestar declínio nos casos de Doença de Alzheimer. Por conseguinte, o valor preditivo de progressão para demência (Doença de Alzheimer) associado ao Defeito Cognitivo Ligeiro (DCL) foi analisado contemplando para o diagnóstico de DCL quatro testes diferentes de avaliação da memória verbal (Memória Lógica (LM); Teste de Aprendizagem Verbal de Califórnia (CVLT); Aprendizagem Verbal Associativa com Pares de Palavras (VPAL); e, Memória de Dígitos (DS)). Para o estudo foi seleccionada uma amostra consecutiva de pacientes com queixas de alterações cognitivas que em consequência das mesmas foram referenciados para realizar uma avaliação neuropsicológica pormenorizada numa clínica de memória, mas que não preenchiam ainda os critérios para o diagnóstico de demência. Uma amostra inicial de 272 pacientes com queixas cognitivas e não-dementes foram seleccionados da coorte CCC para o presente estudo. No decurso do período de seguimento (3,0±1,9 anos) ocorreu a conversão para demência em 58 pacientes, enquanto 214 permaneceram cognitivamente estáveis. Nas provas de LM, VPAL e CVLT verificaram-se diferenças estatisticamente significativas entre o grupo que converteu e o que não converteu. Através de uma análise de Regressão Multivariada de COX com um modelo constituído pelas quatro provas de memória verbal demonstrou-se que apenas a prova CVLT mantém a significância enquanto preditor de futura conversão para demência. Assim sendo, pacientes que não se encontram dementes mas que manifestam queixas de alterações cognitivas, com o diagnóstico de DCL recorrendo à pontuação na prova CVLT, se apresentarem defeito nesta prova (< 1,5 desvios-padrão abaixo da média de referência) têm um risco acrescido de evoluir para demência dentro do período de seguimento. Consequentemente, uma avaliação neuropsicológica incluindo a prova CVLT deve ser contemplada para os critérios de diagnóstico de DCL de modo a predizer com maior precisão uma futura conversão para demência. 4.º Uma coorte constituída por 250 indivíduos (seleccionados da base de dados CCC) com queixas cognitivas mas sem critérios de demência e com seguimento clínico superior a 5 anos (com excepção para os casos que evoluíram para demência antes dos 5 anos) foi analisada com vista à determinação do valor preditivo dos testes neuropsicológicos a longo prazo. Durante o período de seguimento (2,6±1,8 anos para os indivíduos que evoluíram para demência e 6,1±2,1 anos para os que permaneceram estáveis a nível cognitivo) 162 indivíduos (64,8%) apresentaram os critérios para o diagnóstico de demência (principalmente para Doença de Alzheimer), enquanto que 88 (35,2%) permaneceram estáveis. Foi possível discriminar entre os indivíduos que progrediram para demência e os que permaneceram estáveis através de um modelo de Análise Discriminante Linear (ADL) com os resultados iniciais da avaliação nas provas: Memória de Dígitos inversa, Fluência Semântica, Memória Lógica (evocação imediata), e o Índice de Esquecimento da Memória Lógica (λ Wilks= 0,64; χ2 (4)= 81,95; p< 0,001; RCanonical= 0,60). O preditor neuropsicológico mais robusto, com coeficiente estandardizado da função discriminante (canónica) de 0,70, foi a prova de Memória Lógica (evocação imediata). O modelo classificatório da ADL demonstrou valores muito positivos para a sensibilidade, especificidade e precisão classificatória (78,8%, 79,9% e 78,6%, respectivamente), dos testes neuropsicológicos para predizer uma futura progressão para demência a longo prazo. Os resultados apresentados evidenciam a possibilidade de predizer, com base numa avaliação inicial, clínica e neuropsicológica, com uma bateria de provas cognitivas aplicada na rotina clínica, se o indivíduo que apresenta queixas cognitivas irá evoluir para demência ou permanecer estável nos próximos anos. Será de salientar que o valor preditivo foi obtido com uma precisão bastante aceitável (≈ 80%), na ordem dos valores obtidos para os biomarcadores mais recentes, e no âmbito de um período de seguimento consideravelmente longo e portanto clinicamente relevante (5 anos)

Implementing decision tree-based algorithms in medical diagnostic decision support systems

As a branch of healthcare, medical diagnosis can be defined as finding the disease based on the signs and symptoms of the patient. To this end, the required information is gathered from different sources like physical examination, medical history and general information of the patient. Development of smart classification models for medical diagnosis is of great interest amongst the researchers. This is mainly owing to the fact that the machine learning and data mining algorithms are capable of detecting the hidden trends between features of a database. Hence, classifying the medical datasets using smart techniques paves the way to design more efficient medical diagnostic decision support systems. Several databases have been provided in the literature to investigate different aspects of diseases. As an alternative to the available diagnosis tools/methods, this research involves machine learning algorithms called Classification and Regression Tree (CART), Random Forest (RF) and Extremely Randomized Trees or Extra Trees (ET) for the development of classification models that can be implemented in computer-aided diagnosis systems. As a decision tree (DT), CART is fast to create, and it applies to both the quantitative and qualitative data. For classification problems, RF and ET employ a number of weak learners like CART to develop models for classification tasks. We employed Wisconsin Breast Cancer Database (WBCD), Z-Alizadeh Sani dataset for coronary artery disease (CAD) and the databanks gathered in Ghaem Hospital’s dermatology clinic for the response of patients having common and/or plantar warts to the cryotherapy and/or immunotherapy methods. To classify the breast cancer type based on the WBCD, the RF and ET methods were employed. It was found that the developed RF and ET models forecast the WBCD type with 100% accuracy in all cases. To choose the proper treatment approach for warts as well as the CAD diagnosis, the CART methodology was employed. The findings of the error analysis revealed that the proposed CART models for the applications of interest attain the highest precision and no literature model can rival it. The outcome of this study supports the idea that methods like CART, RF and ET not only improve the diagnosis precision, but also reduce the time and expense needed to reach a diagnosis. However, since these strategies are highly sensitive to the quality and quantity of the introduced data, more extensive databases with a greater number of independent parameters might be required for further practical implications of the developed models

Taylor-Bird Swarm Optimization-Based Deep Belief Network For Medical Data Classification

Heart disease classification is considered a challenging and complex task in the field of medical informatics. Various medical data classification methods are developed in the existing research works, but achieving higher classification accuracy is a great challenge in the medical sector due to the presence of noisy, and high-dimensional data. Fuzzy clustering-based filtering methods are introduced for essential feature selection. From the selected features, deep learning has become an important stage for disease diagnosis. However, finding the most appropriate deep learning algorithm for a medical classification problem along with its optimal parameters becomes a difficult task. Deep Belief Network (DBN) is a sophisticated learning system that requires a high level of approach and executes well. The major contribution of this research is to introduce a Taylor-Bird Swarm optimization-based Deep Belief Network (Taylor-BSA-based DBN) for medical data classification. Firstly, the pre-processing of medical data is done using log-transformation that converts the data to its uniform value range. Then, the feature selection process is performed using sparse fuzzy-c-means (FCM) for selecting significant features to classify medical data. Incorporating sparse FCM for the feature selection process provides more benefits for interpreting the models, as this sparse technique provides important features for detection and can be utilized for handling high-dimensional data. Then, the selected features are given as input to the DBN classifier which is trained using the Taylor-based bird swarm algorithm (Taylor-BSA). Taylor-BSA is designed by combining the Taylor series and bird swarm algorithm (BSA)