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Neural Processing Letters

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30-01-2022

Prediction of Heart Attacks Using Biological Signals Based on Recurrent GMDH Neural Network

Authors: Alireza Mehrankia, Mohammad Reza Mollakhalili Meybodi, Kamal Mirzaie

Published in: Neural Processing Letters | Issue 2/2022

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Abstract

In today's world of medicine, there is a large volume of volatile and disordered data on various diseases. This dilemma prevents us from obtaining desired results. Neural networks can be used to overcome this problem and obtain valuable relationships between risk factors involved in diseases. Heart disease is one of the most important causes of mortality, and its early diagnosis is one of the most important challenges, since it endangers the lives of millions of people annually. Therefore, it is necessary to improve the diagnostic measures and treatment of these diseases. Nowadays, in medicine, we encounter extensive data on heart diseases. Studying the data and obtaining useful results and models using data mining techniques and neural networks can contribute to early detection of such diseases. This study presents a method investigating factors influencing heart attacks using the recurrent group model of data handling neural network. We also compare the results of the proposed method to the results of four neural network models, namely long short-term memory, gated recurrent unit, redial basis function, and probabilistic neural network. The results indicate that the proposed method outperforms the four other methods.

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Naderpour H, Rezazadeh D, Fakharian P, Rafiean AH, Kalantari M (2020) A new proposed approach for moment capacity estimation of ferrocement members using Group Method of Data Handling. Eng Sci Technol Int J 23:382–391

Narimanzadeh N, Darvizeh A, Darvizeh M, Gharababaei H (2002) Modelling of explosive cutting process of plates using GMDH-type neural network and singular value decomposition. Mater Process Technol 128:80–87CrossRef

Nguyen TN, Lee S, Nguyen-Xuan H, Lee J (2019) A novel analysis-prediction approach for geometrically nonlinearproblems using group method of data handling. Comput Methods Appl Mech Eng 354:506–526CrossRef

Sanz JA, Galar M, Jurio A, Brugos A, Pagola M, Bustince H (2014) Medical diagnosis of cardiovascular diseases using an interval-valued fuzzy rule-based classification system. Appl Soft Comput 20:103–111CrossRef

Jabbar MA, Deekshatulu BL, Chandra P (2013) Classification of heart disease using K-nearest neighbor and genetic algorithm. In: International conference on computational intelligence, vol 10, pp 85–94

Abdar M, NiakanKalhori SR, Sutikno T, Subroto I, Arji G (2015) Comparing performance of data mining algorithms in prediction heart diseases. Int J Electr Comput Eng 5:1569–1576

Tayefi M, Tajfard M, Saffar S, Hanachi P, Moohebati M (2017) hs-CRP is strongly associated with coronary heart disease (CHD): a data mining approach using decision tree algorithm. Comput Methods Programs Biomed 141:105–109CrossRef

Shaghaghi S, Bonakdari H, Gholami A, Ebtehaj I, Zeinolabedini M (2017) Comparative analysis of GMDH neural network based on genetic algorithm and particle swarm optimization in stable channel design. Appl Math Comput 313:271–286

Assaad M, Bone R, Cardot H (2008) A new boosting algorithm for improved time-series forecasting with recurrent neural networks. Inf Fusion 354:506–526

10.

Bekhet R, Wu Y, Wang N, Geng X, Zhi D (2018) A study of generalizability of recurrent neural network-based predictive models for heart failure onset risk using a large and heterogeneous EHR data set. J Biomed Inform 84:11–16CrossRef

11.

Benhar H, Idri A (2020) Data preprocessing for heart disease classification: a systematic literature review. Comput Methods Programs Biomed 195:197–210CrossRef

12.

Singh S, Pandey SK, Pawar U, Janghel R (2018) Classification of ECG arrhythmiausing recurrent neural networks. Procedia Comput Sci 132:1290–1297CrossRef

13.

Austin PC, Tu JV, Ho JE, Levy D, Lee DS (2013) Using methods from the data -mining and machine-learning literature for disease classification and prediction: a case study examining classification of heart failure subtypes. J Clin Epidemiol 66:398–407CrossRef

14.

Mehrabi S, Maghsoudloo M, Arabalibeik H, Noormand R, Nozari Y (2009) Application of multilayer perceptron and radial basis function neural networks in differentiating between chronic obstructive pulmonary and congestive heart failure diseases. Expert Syst Appl 36:6956–6959CrossRef

15.

Beulah C, Carolin S (2019) Improving the accuracy of prediction of heart disease risk based on ensemble classification techniques. Inf Med Unlocked 16:100203CrossRef

16.

Shao E, Hou D, Chiu C (2014) Hybrid intelligent modeling schemes for heart disease classification. Appl Soft Comput 14:47–52CrossRef

17.

Chen J, Xing Y, Zhao D, Wang J (2007) A comparison of four data mining models: Bayes, neural network, SVM and decision trees in identifying syndromes in coronary heart disease international symposium on neural networks, pp 1274–1279

18.

Arabasadi Z, Alizadehsani R, Roshanzamir AM, Moosaei H, Yarifard A (2017) Computer aided decision making for heart disease detection using hybrid neural network-Genetic algorithm. Comput Methods Programs Biomed 141:19–26CrossRef

19.

Wu H, Yang S, Huang Z, He J, Wang X (2018) Type 2 diabetes mellitus prediction model based on data mining. Inform Med Unlocked 10:100–107CrossRef

20.

Yang H, PhoebeChen Y (2015) Data mining in lung cancer pathologic staging diagnosis: correlation between clinical and pathology information. Expert Syst Appl 42:6168–6176CrossRef

21.

Mathan K, Malarvizh P, Manogaran G, Varadharajan R (2018) A novel Gini index decision tree data mining method with neural network classifiers for prediction of heart disease. Des Autom Embed Syst 22:225–242CrossRef

22.

Xie J, Chen B, Gu X, Liang F, Xu X (2019) Self-attention-based BiLSTM model for short text fine-grained segment classification. In: Computers and information processing, computational and artificial intelligence, IEEE

23.

Reddy GT, Reddy MPK, Lakshmanna K, Rajput DS, Kaluri R, Srivastava G (2020) Hybrid genetic algorithm and a fuzzy logic classifier for heart disease diagnosis. Evol Intel 13:185–196CrossRef

24.

Yildirim O, Baloglu UB, Tan S, Ciaccio EJ, Acharya UR (2019) A new approach for arrhythmia classification using deep coded features and LSTM networks. Comput Methods Programs Biomed 176:121–133CrossRef

25.

Lynn HM, Pan SB, Kim P (2019) A deep bidirectional GRU network model for biometric electrocardiogram classification based on recurrent neural networks. Natl Res Found 7:145395–145405

26.

Arslan AK, Colak C, Sarihan ME (2016) Different medical data mining approaches based prediction of ischemic stroke. Comput Methods Programs Biomed 130:87–92CrossRef

27.

Rady A, Anwar S (2019) Prediction of kidney disease stages using data mining algorithms. Inf Med Unlocked 15:100178CrossRef

28.

Oh L, Ng K, Tan S, Acharya R (2018) Automated diagnosis of arrhythmia using combination of CNN and LSTM techniques with variable length heart beats. Comput Biol Med 102:278–287CrossRef

29.

Williams E, Mosley H, Kop J, Couper J, Welch L, Rosamond D (2010) Vital exhaustion as a risk factor for adverse cardiac events (from the atherosclerosis risk in communities [ARIC] study). Am J Cardiol 105:1661–1665CrossRef

30.

Mehrabi S, Maghsoudloo M, Arabalibeik H, Noormand R, Nazari Y (2009) Application of multilayer perceptron and radial basis function neural networks in differentiating between chronic obstructive pulmonary and congestive heart failure diseases. J Expert Syst Appl 36:6956–6959CrossRef

31.

Mair J, Puschendorf A, Smidt J, Lechleitner P, Dienst F (1995) A decision tree for the early diagnosis of acute myocardial infarction in nontraumatic chest pain patients at hospital admission. Chest 108:1502–1509CrossRef

32.

Gudadhe M, Wankhade K, Dongre S (2010) Decision support system for heart disease based on support vector machine and artificial neural network. In: International conference on computer and communication technology, IEEE

33.

Abiodun I, Jantan A, Omolara E, Dada V, Arshad H (2018) State-of-the-art in artificial neural network applications: a survey. Heliyon 4:e00938CrossRef

34.

Thippa Reddy G, Praveen Kumar Reddy M, Omolara E, Dada V, Dharmendra Singh Rajput K, Gautam Srivastava R (2019) Hybrid genetic algorithm and a fuzzy logic classifier for heart disease diagnosis. Evol Intell 13:185–196CrossRef

35.

Thippa Reddy G, Bhattacharya S, Maddikunta P, Hakak S, Khan W, Bashir A, Jolfaei A (2020) Antlion re-sampling based deep neural network model for classification of imbalanced multimodal stroke dataset. Multimedia Tools Appl. https://doi.org/10.1007/s11042-020-09988-yCrossRef

36.

Rajput D, Basha M, ThippaReddy G, Kalori R, Lakshmanna K, Maddikunta P (2021) Providing diagnosis on diabetes using cloud computing environment to the people living in rural areas of India. J Ambient Intell Hum Comput. https://doi.org/10.1007/s12652-021-03154-4CrossRef

37.

Beritelli F, Capizzi G, Sciuto G, Napoli C, Scaglione F (2017) Automatic heart activity diagnosis based on Gram polynomials and probabilistic neural networks. J Korean Soc Med Biol Eng 8:77–85

38.

Warwick K, Gasson N, Burgedd G (2010) Predition of Parkinson’s disease tremor onset using a radial basis function neural network based on particle swarm optimization. Int J Neural Syst 20:109–116CrossRef

39.

Beritelli F, Capizzi G, Sciuto G, Napoli C, Scaglione F (2017) Automatic heart activity diagnosis based on Gram polynomials and probabilistic neural networks. In: Korean society of medical and biological engineering and Springer

40.

Bascil M, Oztekin H (2012) A study on hepatitis disease diagnosis using probabilistic neural network. Springer, New York, vol 36, pp 1603–1606

41.

Shree N, Kumar T (2018) Identification and classification of brain tumor MRI images with feature extraction using DWT and probabilistic neural network. Brain Inf 20:109–116

42.

Modaresi F, Araghinejad S (2014) A comparative assessment of support vector machines, probabilistic neural networks, and K-nearest neighbor algorithms for water quality classification. Water Resour Manag 28:4095–4111CrossRef

43.

Alexandridis M, Chondrodima E (2014) A medical diagnostic tool based on radial basis function classifiers and evolutionary simulated annealing. J Biomed Inf 49:61–72CrossRef

Title: Prediction of Heart Attacks Using Biological Signals Based on Recurrent GMDH Neural Network
Authors: Alireza Mehrankia
Mohammad Reza Mollakhalili Meybodi
Kamal Mirzaie
Publication date: 30-01-2022
Publisher: Springer US
Published in: Neural Processing Letters / Issue 2/2022
Print ISSN: 1370-4621
Electronic ISSN: 1573-773X
DOI: https://doi.org/10.1007/s11063-021-10667-8

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