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Literature DB >> 19238898

The classification of obesity disease in logistic regression and neural network methods.

Abstract

The aim of this study is to establish an automated system to recognize and to follow-up obesity. In this study, the areas affected from obesity were examined with a classification considering the divergent arteries and body mass index of 30 healthy and 52 obese people by using two different mathematical models such as the traditional statistical method based on logistic regression and a multilayer perception (MLP) neural network, and then classifying performances of logistic regression and neural network were compared. As a result of this comparison, it is observed that the classifying performance of neural network is better than logistic regression; also the reasons of this result were examined. Furthermore, after these classifications it is observed that in obesity the body mass index is more affected than the divergent arteries.

Entities: Disease Species

Mesh：

Year: 2009 PMID： 19238898 DOI： 10.1007/s10916-008-9165-5

Source DB: PubMed Journal: J Med Syst ISSN： 0148-5598 Impact factor: 4.460

17 in total

1. Cardiac morphology and left ventricular function in normotensive morbidly obese patients with and without congestive heart failure, and effect of weight loss.

Authors: M A Alpert; B E Terry; M Mulekar; M V Cohen; C V Massey; T M Fan; H Panayiotou; V Mukerji
Journal: Am J Cardiol Date: 1997-09-15 Impact factor: 2.778

2. Association of central obesity and insulin resistance with high prevalence of diabetes and cardiovascular disease in an elderly population with low fat intake and lower than normal prevalence of obesity: the Indian paradox.

Authors: R B Singh; S S Rastogi; M A Niaz; A Postiglione
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3. Modeling obesity using abductive networks.

Authors: R E Abdel-Aal; A M Mangoud
Journal: Comput Biomed Res Date: 1997-12

4. Risk of morbidity and in-hospital mortality in obese patients undergoing coronary artery bypass surgery.

Authors: Manoj Kuduvalli; Antony D Grayson; Aung Y Oo; Brian M Fabri; Abbas Rashid
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5. Obesity and coronary artery surgery.

Authors: M Ranucci; A Cazzaniga; G Soro; L Morricone; R Enrini; F Caviezel
Journal: J Cardiothorac Vasc Anesth Date: 1999-06 Impact factor: 2.628

6. The meaning and use of the area under a receiver operating characteristic (ROC) curve.

Authors: J A Hanley; B J McNeil
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7. Effects of cardiac rehabilitation, exercise training, and weight reduction on exercise capacity, coronary risk factors, behavioral characteristics, and quality of life in obese coronary patients.

Authors: C J Lavie; R V Milani
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8. Predictions of coronary artery stenosis by artificial neural network.

Authors: B A Mobley; E Schechter; W E Moore; P A McKee; J E Eichner
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10. Application of FFT analyzed cardiac Doppler signals to fuzzy algorithm.

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1. Extracting Information from Electronic Medical Records to Identify the Obesity Status of a Patient Based on Comorbidities and Bodyweight Measures.

Authors: Rosa L Figueroa; Christopher A Flores
Journal: J Med Syst Date: 2016-07-11 Impact factor: 4.460