Nonlinear mathematical model for predicting long term cardiac remodeling in Chagas' heart disease: Introducing the concepts of ‘limiting cardiac function’ and ‘cardiac function deterioration period’

Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functi...

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Published inInternational journal of cardiology Vol. 145; no. 2; pp. 219 - 221
Main Author Benchimol-Barbosa, Paulo Roberto
Format Journal Article
LanguageEnglish
Published Shannon Elsevier Ireland Ltd 19.11.2010
Elsevier
Subjects
Adult
Aged
Biological and medical sciences
Cardiac death
Cardiac remodeling
Cardiology. Vascular system
Cardiovascular
Chagas Cardiomyopathy - physiopathology
Chagas' disease
Disease Progression
Female
Follow-Up Studies
Heart Function Tests - methods
Human protozoal diseases
Humans
Infectious diseases
Long term follow-up
Male
Mathematical modeling
Medical sciences
Middle Aged
Nonlinear Dynamics
Parasitic diseases
Predictive Value of Tests
Protozoal diseases
Time Factors
Trypanosomiasis
Ventricular Remodeling - physiology
Brazil
Brazil, Rio de Janeiro
Mathematical modeling
Chagas' disease
Cardiac remodeling
Cardiac death
Long term follow-up
Heart
Protozoal disease
Cardiac performance
Prognosis
Chagas disease
Cardiovascular disease
Vascular remodeling
Heart disease
Cardiology
Mathematical model
Trypanosomiasis
Concept
Mortality
Period
Parasitosis
Long term
Infection
Deterioration
Follow up study
Death
Online AccessGet full text
ISSN0167-5273
1874-1754
1874-1754
DOI10.1016/j.ijcard.2009.05.010

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Abstract Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3 ± 9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r 2 = 0.956; p < 0.001), indicating that long term cardiac remodeling followed a Verhulst–Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0 · 10 − 3 ± 5.4 · 10 − 4  months − 1 ·% − 1 ; p < 0.001) and an inferior limit for left ventricular ejection fraction (19.0 ± 0.9%; p < 0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
AbstractList Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3±9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r(2)=0.956; p<0.001), indicating that long term cardiac remodeling followed a Verhulst-Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0·10(-3)±5.4·10(-4) months(-1)·%(-1); p<0.001) and an inferior limit for left ventricular ejection fraction (19.0±0.9%; p<0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3 ± 9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r 2 = 0.956; p < 0.001), indicating that long term cardiac remodeling followed a Verhulst–Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0 · 10 − 3 ± 5.4 · 10 − 4  months − 1 ·% − 1 ; p < 0.001) and an inferior limit for left ventricular ejection fraction (19.0 ± 0.9%; p < 0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3 +/- 9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r super(2 = 0.956; p 0.001), indicating that long term cardiac remodeling followed a Verhulst-Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0 ) super(.) 10 super(- 3 +/- 5.4 ) super(.) 10 super(- 4 months) super(-) 1 super(.%) super(-) 1; p 0.001) and an inferior limit for left ventricular ejection fraction (19.0 +/- 0.9%; p 0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
Abstract Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3 ± 9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r2 = 0.956; p < 0.001), indicating that long term cardiac remodeling followed a Verhulst–Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0 · 10 − 3 ± 5.4 · 10 − 4  months − 1 ·% − 1 ; p < 0.001) and an inferior limit for left ventricular ejection fraction (19.0 ± 0.9%; p < 0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3±9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r(2)=0.956; p<0.001), indicating that long term cardiac remodeling followed a Verhulst-Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0·10(-3)±5.4·10(-4) months(-1)·%(-1); p<0.001) and an inferior limit for left ventricular ejection fraction (19.0±0.9%; p<0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function and dimension changes in Chagas' disease. In the present study, an improved mathematical model to equate time course and cardiac functional changes has been proposed. Present model has been derived from previously validated intuitive assumptions and tested on data set of outpatients with chronic Chagas' disease (51.3±9.4 years old), followed for up to 10 years in Rio de Janeiro, Brazil. The variables representing cardiac status at admission were plotted against respective time derivative, which appropriately fit a second order polynomial (adjusted r(2)=0.956; p<0.001), indicating that long term cardiac remodeling followed a Verhulst-Pearl (Logistic) model. The derived Logistic model provided two output constants: a time-function (2.0·10(-3)±5.4·10(-4) months(-1)·%(-1); p<0.001) and an inferior limit for left ventricular ejection fraction (19.0±0.9%; p<0.001), standing for a limit beyond life expectation is unsustainable, in Chagas' disease. Cardiac function deterioration period was promptly derived from the model, representing the period of time following indeterminate stages of the disease when cardiac function start deteriorating, and ranged from 3 to 15.8 years. An example of data of left ventricular ejection fraction of a subject followed during 10 years illustrated the model, further validating its robustness. Present data confirms that, in chronic Chagas' disease, initial insult is connected to the progression of myocardial remodeling and introduces the concepts of limiting cardiac function and cardiac deterioration period.
Author Benchimol-Barbosa, Paulo Roberto
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crossref_primary_10_1038_nrcardio_2012_109
crossref_primary_10_1586_erc_12_111
crossref_primary_10_1111_pace_14908
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Issue 2
Keywords Mathematical modeling
Chagas' disease
Cardiac remodeling
Cardiac death
Long term follow-up
Heart
Protozoal disease
Cardiac performance
Prognosis
Chagas disease
Cardiovascular disease
Vascular remodeling
Heart disease
Cardiology
Mathematical model
Trypanosomiasis
Concept
Mortality
Period
Parasitosis
Long term
Infection
Deterioration
Follow up study
Death
Language English
License CC BY 4.0
Copyright © 2009 Elsevier Ireland Ltd. All rights reserved.
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Snippet Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac function...
Abstract Cardiac remodeling has been recently investigated in long term follow-up introducing a simple exponential model to describe the time course of cardiac...
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SubjectTerms Adult
Aged
Biological and medical sciences
Cardiac death
Cardiac remodeling
Cardiology. Vascular system
Cardiovascular
Chagas Cardiomyopathy - physiopathology
Chagas' disease
Disease Progression
Female
Follow-Up Studies
Heart Function Tests - methods
Human protozoal diseases
Humans
Infectious diseases
Long term follow-up
Male
Mathematical modeling
Medical sciences
Middle Aged
Nonlinear Dynamics
Parasitic diseases
Predictive Value of Tests
Protozoal diseases
Time Factors
Trypanosomiasis
Ventricular Remodeling - physiology
Title Nonlinear mathematical model for predicting long term cardiac remodeling in Chagas' heart disease: Introducing the concepts of ‘limiting cardiac function’ and ‘cardiac function deterioration period’
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https://dx.doi.org/10.1016/j.ijcard.2009.05.010
https://www.ncbi.nlm.nih.gov/pubmed/19477538
https://www.proquest.com/docview/1125243045
https://www.proquest.com/docview/816528865
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