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Modeling Pathologies of Diastolic and Systolic Heart Failure
by
Guccione, J. M.
, Genet, M.
, Kuhl, E.
, Lee, L. C.
, Baillargeon, B.
in
Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Cardiac output
/ Chronic Disease
/ Classical Mechanics
/ Computation
/ Computational Biomechanics for Patient-Specific Applications
/ Dilation
/ Dislocations
/ Engineering Sciences
/ Failure
/ Heart
/ Heart Failure, Diastolic - pathology
/ Heart Failure, Diastolic - physiopathology
/ Heart Failure, Systolic - pathology
/ Heart Failure, Systolic - physiopathology
/ Humans
/ Mathematical analysis
/ Mathematical models
/ Mechanics
/ Models, Cardiovascular
2016
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Modeling Pathologies of Diastolic and Systolic Heart Failure
by
Guccione, J. M.
, Genet, M.
, Kuhl, E.
, Lee, L. C.
, Baillargeon, B.
in
Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Cardiac output
/ Chronic Disease
/ Classical Mechanics
/ Computation
/ Computational Biomechanics for Patient-Specific Applications
/ Dilation
/ Dislocations
/ Engineering Sciences
/ Failure
/ Heart
/ Heart Failure, Diastolic - pathology
/ Heart Failure, Diastolic - physiopathology
/ Heart Failure, Systolic - pathology
/ Heart Failure, Systolic - physiopathology
/ Humans
/ Mathematical analysis
/ Mathematical models
/ Mechanics
/ Models, Cardiovascular
2016
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Modeling Pathologies of Diastolic and Systolic Heart Failure
by
Guccione, J. M.
, Genet, M.
, Kuhl, E.
, Lee, L. C.
, Baillargeon, B.
in
Biochemistry
/ Biological and Medical Physics
/ Biomechanics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Biomedicine
/ Biophysics
/ Cardiac output
/ Chronic Disease
/ Classical Mechanics
/ Computation
/ Computational Biomechanics for Patient-Specific Applications
/ Dilation
/ Dislocations
/ Engineering Sciences
/ Failure
/ Heart
/ Heart Failure, Diastolic - pathology
/ Heart Failure, Diastolic - physiopathology
/ Heart Failure, Systolic - pathology
/ Heart Failure, Systolic - physiopathology
/ Humans
/ Mathematical analysis
/ Mathematical models
/ Mechanics
/ Models, Cardiovascular
2016
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Modeling Pathologies of Diastolic and Systolic Heart Failure
Journal Article
Modeling Pathologies of Diastolic and Systolic Heart Failure
2016
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Overview
Chronic heart failure is a medical condition that involves structural and functional changes of the heart and a progressive reduction in cardiac output. Heart failure is classified into two categories: diastolic heart failure, a thickening of the ventricular wall associated with impaired filling; and systolic heart failure, a dilation of the ventricles associated with reduced pump function. In theory, the pathophysiology of heart failure is well understood. In practice, however, heart failure is highly sensitive to cardiac microstructure, geometry, and loading. This makes it virtually impossible to predict the time line of heart failure for a diseased individual. Here we show that computational modeling allows us to integrate knowledge from different scales to create an individualized model for cardiac growth and remodeling during chronic heart failure. Our model naturally connects molecular events of parallel and serial sarcomere deposition with cellular phenomena of myofibrillogenesis and sarcomerogenesis to whole organ function. Our simulations predict chronic alterations in wall thickness, chamber size, and cardiac geometry, which agree favorably with the clinical observations in patients with diastolic and systolic heart failure. In contrast to existing single- or bi-ventricular models, our new four-chamber model can also predict characteristic secondary effects including papillary muscle dislocation, annular dilation, regurgitant flow, and outflow obstruction. Our prototype study suggests that computational modeling provides a patient-specific window into the progression of heart failure with a view towards personalized treatment planning.
Publisher
Springer US,Springer Nature B.V,Springer Verlag
Subject
/ Biological and Medical Physics
/ Biomedical and Life Sciences
/ Biomedical Engineering and Bioengineering
/ Computational Biomechanics for Patient-Specific Applications
/ Dilation
/ Failure
/ Heart
/ Heart Failure, Diastolic - pathology
/ Heart Failure, Diastolic - physiopathology
/ Heart Failure, Systolic - pathology
/ Heart Failure, Systolic - physiopathology
/ Humans
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