Mechanical model of the inspiratory pump

Sergio Basso Ricci; Philippe Cluzel; Andrei Constantinescu; Thomas Similowski

doi:10.1016/S0021-9290(01)00164-6

Mechanical model of the inspiratory pump

Sergio Basso Ricci
, Philippe Cluzel
, Andrei Constantinescu
, Thomas Similowski

Research output: Contribution to journal › Article › peer-review

Abstract

The inspiratory pump (inspiratory muscles and the rib cage) translates inspiratory commands in alveolar ventilation by applying expanding forces to the lungs. Its functioning is of paramount importance to the physiology of breathing and of many pathological situations. Major difficulties in studying its function in relationship with its structure arise from the extremely complex geometrical disposition of its active and passive elements. We herein describe a two-compartment model of the inspiratory pump, with model parameters identification derived from actual measurements obtained by magnetic resonance imaging in normal humans. The equations governing the model are presented. Numerical simulations validate the model by showing a behaviour similar to physiological observations. This opens the possibility of predicting the behaviour of the respiratory system during diseases involving changes in its mechanical or geometrical characteristics.

Original language	English
Pages (from-to)	139-145
Number of pages	7
Journal	Journal of Biomechanics
Volume	35
Issue number	1
DOIs	https://doi.org/10.1016/S0021-9290(01)00164-6
Publication status	Published - 9 Jan 2002
Externally published	Yes

Keywords

Diaphragm
Mathematical model
Respiration
Rib cage

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10.1016/S0021-9290(01)00164-6

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abstract = "The inspiratory pump (inspiratory muscles and the rib cage) translates inspiratory commands in alveolar ventilation by applying expanding forces to the lungs. Its functioning is of paramount importance to the physiology of breathing and of many pathological situations. Major difficulties in studying its function in relationship with its structure arise from the extremely complex geometrical disposition of its active and passive elements. We herein describe a two-compartment model of the inspiratory pump, with model parameters identification derived from actual measurements obtained by magnetic resonance imaging in normal humans. The equations governing the model are presented. Numerical simulations validate the model by showing a behaviour similar to physiological observations. This opens the possibility of predicting the behaviour of the respiratory system during diseases involving changes in its mechanical or geometrical characteristics.",

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AU - Ricci, Sergio Basso

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AU - Constantinescu, Andrei

AU - Similowski, Thomas

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N2 - The inspiratory pump (inspiratory muscles and the rib cage) translates inspiratory commands in alveolar ventilation by applying expanding forces to the lungs. Its functioning is of paramount importance to the physiology of breathing and of many pathological situations. Major difficulties in studying its function in relationship with its structure arise from the extremely complex geometrical disposition of its active and passive elements. We herein describe a two-compartment model of the inspiratory pump, with model parameters identification derived from actual measurements obtained by magnetic resonance imaging in normal humans. The equations governing the model are presented. Numerical simulations validate the model by showing a behaviour similar to physiological observations. This opens the possibility of predicting the behaviour of the respiratory system during diseases involving changes in its mechanical or geometrical characteristics.

AB - The inspiratory pump (inspiratory muscles and the rib cage) translates inspiratory commands in alveolar ventilation by applying expanding forces to the lungs. Its functioning is of paramount importance to the physiology of breathing and of many pathological situations. Major difficulties in studying its function in relationship with its structure arise from the extremely complex geometrical disposition of its active and passive elements. We herein describe a two-compartment model of the inspiratory pump, with model parameters identification derived from actual measurements obtained by magnetic resonance imaging in normal humans. The equations governing the model are presented. Numerical simulations validate the model by showing a behaviour similar to physiological observations. This opens the possibility of predicting the behaviour of the respiratory system during diseases involving changes in its mechanical or geometrical characteristics.

KW - Diaphragm

KW - Mathematical model

KW - Respiration

KW - Rib cage

UR - https://www.scopus.com/pages/publications/0036136784

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DO - 10.1016/S0021-9290(01)00164-6

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AN - SCOPUS:0036136784

SN - 0021-9290

VL - 35

SP - 139

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JO - Journal of Biomechanics

JF - Journal of Biomechanics

IS - 1

ER -

Mechanical model of the inspiratory pump

Abstract

Keywords

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