A COMPARATIVE STUDY FOR THE PREDICTION OF HEART ATTACK RISK AND ASSOCIATED FACTORS USING MLP AND RBF NEURAL NETWORKS

Rüstem Yılmaz; Fatma Hilal Yağın

doi:10.52876/jcs.1001680

Araştırma Makalesi

Yıl 2021, Cilt: 6 Sayı: 2, 51 - 54, 30.12.2021

Rüstem Yılmaz Fatma Hilal Yağın

https://doi.org/10.52876/jcs.1001680

Cited By: 3

Öz

Kaynakça

1. Brice JH, Griswell JK, Delbridge TR, Key CB. S TROKE: F ROM R ECOGNITION BY THE P UBLIC TO M ANAGEMENT BY E MERGENCY M EDICAL S ERVICES. Prehospital Emergency Care. 2002;6(1):99-106.
2. Park MH, Jo SA, Jo I, Kim E, Eun S-Y, Han C, et al. No difference in stroke knowledge between Korean adherents to traditional and western medicine–the AGE study: an epidemiological study. BMC Public Health. 2006;6(1):1-9.
3. KUCUKAKCALİ ZT, ÇİÇEK İpB, GÜLDOĞAN E, ÇOLAK C. Assessment of Associative Classification Approach for Predicting Mortality by Heart Failure. The Journal of Cognitive Systems. 2020;5(2):41-5.
4. KÜÇÜKAKÇALI ZT, ÇİÇEK İpB, GÜLDOĞAN E. PERFORMANCE EVALUATION OF THE DEEP LEARNING MODELS IN THE CLASSIFICATION OF HEART ATTACK AND DETERMINATION OF RELATED FACTORS. The Journal of Cognitive Systems.5(2):99-103.
5. ÇİÇEK İpB, KÜÇÜKAKÇALI Z. Classification of Prostate Cancer and Determination of Related Factors with Different Artificial Neural Network. Middle Black Sea Journal of Health Science. 2020;6(3):325-32.
6. ÇİÇEK İpB, KÜÇÜKAKÇALI Z, ÇOLAK C. ASSOCIATIVE CLASSIFICATION APPROACH CAN PREDICT PROSTATE CANCER BASED ON THE EXTRACTED ASSOCIATION RULES. The Journal of Cognitive Systems.5(2):51-4.
7. KÜÇÜKAKÇALI ZT, ÇİÇEK İpB. PERFORMANCE EVALUATION OF THE ENSEMBLE LEARNING MODELS IN THE CLASSIFICATION OF CHRONIC KIDNEY FAILURE. The Journal of Cognitive Systems.5(2):55-9.
8. PERÇİN İ, YAĞIN FH, ARSLAN AK, ÇOLAK C, editors. An Interactive Web Tool for Classification Problems Based on Machine Learning Algorithms Using Java Programming Language: Data Classification Software. 2019 3rd International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT); 2019: IEEE.
9. YAĞIN FH, GÜLDOĞAN E, UCUZAL H, ÇOLAK C. A Computer-Assisted Diagnosis Tool for Classifying COVID-19 based on Chest X-Ray Images. Konuralp Medical Journal.13(S1):438-45.
10. Yegnanarayana B. Artificial neural networks: PHI Learning Pvt. Ltd.; 2009.
11. Orr MJ. Introduction to radial basis function networks. Technical Report, center for cognitive science, University of Edinburgh …; 1996.
12. KARAMAN U, ÇİÇEK İpB. DETERMINATION OF CRYPTOSPORIDIUM SPP. RISK FACTORS USING MULTILAYER PERCEPTRON NEURAL NETWORK AND RADIAL BASED FUNCTIONAL ARTIFICIAL NEURAL NETWORK METHOD. The Journal of Cognitive Systems.5(2):83-7.
13. Després J-P, Lamarche B, Mauriège P, Cantin B, Dagenais GR, Moorjani S, et al. Hyperinsulinemia as an independent risk factor for ischemic heart disease. New England Journal of Medicine. 1996;334(15):952-8.
14. McNeer JF, Margolis JR, Lee KL, Kisslo JA, Peter RH, Kong Y, et al. The role of the exercise test in the evaluation of patients for ischemic heart disease. Circulation. 1978;57(1):64-70.
15. Deo RC. Machine learning in medicine. Circulation. 2015;132(20):1920-30.
16. Sidey-Gibbons JA, Sidey-Gibbons CJ. Machine learning in medicine: a practical introduction. BMC medical research methodology. 2019;19(1):1-18.
17. Perçın İ, Yağin FH, Güldoğan E, Yoloğlu S, editors. ARM: An Interactive Web Software for Association Rules Mining and an Application in Medicine. 2019 International Artificial Intelligence and Data Processing Symposium (IDAP); 2019: IEEE.
18. Al’Aref SJ, Anchouche K, Singh G, Slomka PJ, Kolli KK, Kumar A, et al. Clinical applications of machine learning in cardiovascular disease and its relevance to cardiac imaging. European heart journal. 2019;40(24):1975-86.

A COMPARATIVE STUDY FOR THE PREDICTION OF HEART ATTACK RISK AND ASSOCIATED FACTORS USING MLP AND RBF NEURAL NETWORKS

Yıl 2021, Cilt: 6 Sayı: 2, 51 - 54, 30.12.2021

Rüstem Yılmaz Fatma Hilal Yağın

https://doi.org/10.52876/jcs.1001680

Cited By: 3

Öz

Abstract— Aim: The aim of this study is to develop a predictive classification model that can identify risk factors for heart attack disease.
Materials and Methods: In the study, patients with low and high probability of having a heart attack were examined. Variable importance was calculated to identify risk factors. The radial basis function and multilayer perception neural networks were used to compare the classification prediction results.
Results: MLP model criteria; Accuracy 0.911, F1 score 0.918, Specificity 0.92, Sensitivity 0.903, while RBF model criteria were obtained as accuracy 0.797, F1 score 0.812, Specificity 0.84, Sensitivity 0.765. The first three most important factors that may be associated with having a heart attack were obtained as trestbps, oldpeak, and chol.
Conclusion: According to the prediction results of the heart attack, it can be said that the model created with the MLP neural network has more successful predictions than the model created with the RBF neural network. In addition, estimating the importance values of the factors most associated with heart attack (obtaining the most important biomarkers that may cause heart attack) is a promising result for the diagnosis, treatment and prognosis of the disease.

Keywords— Heart Attack, machine learning, neural networks, classification, variable importance.

Anahtar Kelimeler

Heart Attack, machine learning, neural networks, classification, variable importance

Kaynakça

1. Brice JH, Griswell JK, Delbridge TR, Key CB. S TROKE: F ROM R ECOGNITION BY THE P UBLIC TO M ANAGEMENT BY E MERGENCY M EDICAL S ERVICES. Prehospital Emergency Care. 2002;6(1):99-106.
2. Park MH, Jo SA, Jo I, Kim E, Eun S-Y, Han C, et al. No difference in stroke knowledge between Korean adherents to traditional and western medicine–the AGE study: an epidemiological study. BMC Public Health. 2006;6(1):1-9.
3. KUCUKAKCALİ ZT, ÇİÇEK İpB, GÜLDOĞAN E, ÇOLAK C. Assessment of Associative Classification Approach for Predicting Mortality by Heart Failure. The Journal of Cognitive Systems. 2020;5(2):41-5.
4. KÜÇÜKAKÇALI ZT, ÇİÇEK İpB, GÜLDOĞAN E. PERFORMANCE EVALUATION OF THE DEEP LEARNING MODELS IN THE CLASSIFICATION OF HEART ATTACK AND DETERMINATION OF RELATED FACTORS. The Journal of Cognitive Systems.5(2):99-103.
5. ÇİÇEK İpB, KÜÇÜKAKÇALI Z. Classification of Prostate Cancer and Determination of Related Factors with Different Artificial Neural Network. Middle Black Sea Journal of Health Science. 2020;6(3):325-32.
6. ÇİÇEK İpB, KÜÇÜKAKÇALI Z, ÇOLAK C. ASSOCIATIVE CLASSIFICATION APPROACH CAN PREDICT PROSTATE CANCER BASED ON THE EXTRACTED ASSOCIATION RULES. The Journal of Cognitive Systems.5(2):51-4.
7. KÜÇÜKAKÇALI ZT, ÇİÇEK İpB. PERFORMANCE EVALUATION OF THE ENSEMBLE LEARNING MODELS IN THE CLASSIFICATION OF CHRONIC KIDNEY FAILURE. The Journal of Cognitive Systems.5(2):55-9.
8. PERÇİN İ, YAĞIN FH, ARSLAN AK, ÇOLAK C, editors. An Interactive Web Tool for Classification Problems Based on Machine Learning Algorithms Using Java Programming Language: Data Classification Software. 2019 3rd International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT); 2019: IEEE.
9. YAĞIN FH, GÜLDOĞAN E, UCUZAL H, ÇOLAK C. A Computer-Assisted Diagnosis Tool for Classifying COVID-19 based on Chest X-Ray Images. Konuralp Medical Journal.13(S1):438-45.
10. Yegnanarayana B. Artificial neural networks: PHI Learning Pvt. Ltd.; 2009.
11. Orr MJ. Introduction to radial basis function networks. Technical Report, center for cognitive science, University of Edinburgh …; 1996.
12. KARAMAN U, ÇİÇEK İpB. DETERMINATION OF CRYPTOSPORIDIUM SPP. RISK FACTORS USING MULTILAYER PERCEPTRON NEURAL NETWORK AND RADIAL BASED FUNCTIONAL ARTIFICIAL NEURAL NETWORK METHOD. The Journal of Cognitive Systems.5(2):83-7.
13. Després J-P, Lamarche B, Mauriège P, Cantin B, Dagenais GR, Moorjani S, et al. Hyperinsulinemia as an independent risk factor for ischemic heart disease. New England Journal of Medicine. 1996;334(15):952-8.
14. McNeer JF, Margolis JR, Lee KL, Kisslo JA, Peter RH, Kong Y, et al. The role of the exercise test in the evaluation of patients for ischemic heart disease. Circulation. 1978;57(1):64-70.
15. Deo RC. Machine learning in medicine. Circulation. 2015;132(20):1920-30.
16. Sidey-Gibbons JA, Sidey-Gibbons CJ. Machine learning in medicine: a practical introduction. BMC medical research methodology. 2019;19(1):1-18.
17. Perçın İ, Yağin FH, Güldoğan E, Yoloğlu S, editors. ARM: An Interactive Web Software for Association Rules Mining and an Application in Medicine. 2019 International Artificial Intelligence and Data Processing Symposium (IDAP); 2019: IEEE.
18. Al’Aref SJ, Anchouche K, Singh G, Slomka PJ, Kolli KK, Kumar A, et al. Clinical applications of machine learning in cardiovascular disease and its relevance to cardiac imaging. European heart journal. 2019;40(24):1975-86.

Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Elektrik Mühendisliği
Bölüm	Articles
Yazarlar	Rüstem Yılmaz 0000-0003-0587-3356 Fatma Hilal Yağın 0000-0002-9848-7958
Yayımlanma Tarihi	30 Aralık 2021
Yayımlandığı Sayı	Yıl 2021 Cilt: 6 Sayı: 2

Kaynak Göster

APA	Yılmaz, R., & Yağın, F. H. (2021). A COMPARATIVE STUDY FOR THE PREDICTION OF HEART ATTACK RISK AND ASSOCIATED FACTORS USING MLP AND RBF NEURAL NETWORKS. The Journal of Cognitive Systems, 6(2), 51-54. https://doi.org/10.52876/jcs.1001680

The Journal of Cognitive Systems

Öz

Kaynakça

A COMPARATIVE STUDY FOR THE PREDICTION OF HEART ATTACK RISK AND ASSOCIATED FACTORS USING MLP AND RBF NEURAL NETWORKS

Öz

Anahtar Kelimeler

Kaynakça

Ayrıntılar

Kaynak Göster

Cited By

Genomic Biomarkers of Metastasis in Breast Cancer Patients: A Machine Learning Approach

The Journal of Cognitive Systems

https://doi.org/10.52876/jcs.1211185

Early-stage heart failure disease prediction with deep learning approach

Journal of Scientific Reports-A

https://doi.org/10.59313/jsr-a.1341663

Development of Artificial Intelligence Based Clinical Decision Support System on Medical Images for the Classification of COVID-19

Medical Records

https://doi.org/10.37990/medr.1130194