A.J.G. Schoofs scite author profile

Abstract-The strain of muscle fibers in the heart is likely to be distributed uniformly over the cardiac walls during the ejection period of the cardiac cycle. Mathematical models of left ventricular ͑LV͒ wall mechanics have shown that the distribution of fiber strain during ejection is sensitive to the orientation of muscle fibers in the wall. In the present study, we tested the hypothesis that fiber orientation in the LV wall is such that fiber strain during ejection is as homogeneous as possible. A finite-element model of LV wall mechanics was set up to compute the distribution of fiber strain at the beginning ͑BE͒ and end ͑EE͒ of the ejection period of the cardiac cycle, with respect to a middiastolic reference state. The distribution of fiber orientation over the LV wall, quantified by three parameters, was systematically varied to minimize regional differences in fiber shortening during ejection and in the average of fiber strain at BE and EE. A well-defined optimum in the distribution of fiber orientation was found which was not significantly different from anatomical measurements. After optimization, the average of fiber strain at BE and EE was 0.025 Ϯ0.011 (meanϮstandard deviation) and the difference in fiber strain during ejection was 0.214Ϯ0.018. The results indicate that the LV structure is designed for maximum homogeneity of fiber strain during ejection.

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Optimization of cardiac fiber orientation for homogeneous fiber strain at beginning of ejection

Rijeken

Bovendeerd

Schoofs

et al. 1997

Journal of Biomechanics

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Simulation based optimization of stochastic systems with integer design variables by sequential multipoint linear approximation

Abspoel

Etman

Vervoort

et al. 2001

Struct Multidisc Optim

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Rijpkema

2001

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Houten

Schoofs

Campen

1998

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A.J.G. Schoofs

Optimization of Cardiac Fiber Orientation for Homogeneous Fiber Strain During Ejection

Optimization of cardiac fiber orientation for homogeneous fiber strain at beginning of ejection

Simulation based optimization of stochastic systems with integer design variables by sequential multipoint linear approximation

Response Surface Approximations for Engineering Optimization

Optimization of an Engine Air Intake System for Minimum Noise Tansmission Using Function Approximation Concepts

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