Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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We present a combination of a pulse wave propagation model with an extensive lumped parameter cerebral regulation model. Multiple physiological mechanisms contributing to autoregulation and neurovascular coupling lead to variable impedances in a finite 0-D element that is coupled to the cerebral outlets of 1-D wave propagation network. A simulation of global hemodynamics responding to clamping of an upstream vessel is demonstrated.
Originele taal-2Engels
Titel3rd International Conference on Computational and Mathematical Biomedical Engineering,
RedacteurenP. Nithiarasu, R. Löhner, K.M. Liew
UitgeverijCMBE
Pagina's268-271
ISBN van geprinte versie978-0-9562914-2-4
StatusGepubliceerd - 2013
Evenement3rd International Conference on Computational & Mathematical Biomedical Engineering (CMBE13) - City University of Hong Kong, Hong Kong, China
Duur: 16 dec 201318 dec 2013
http://www.compbiomed.net/2013/

Congres

Congres3rd International Conference on Computational & Mathematical Biomedical Engineering (CMBE13)
Verkorte titelCMBE13
LandChina
StadHong Kong
Periode16/12/1318/12/13
AnderInternational Conference on Computational and Mathematical Biomedical Engineering
Internet adres

Vingerafdruk

wave propagation
outlets
pulses
upstream
vessels
impedance
simulation

Citeer dit

Donders, W. P., Huberts, W., Vosse, van de, F. N., & Delhaas, T. (2013). Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms. In P. Nithiarasu, R. Löhner, & K. M. Liew (editors), 3rd International Conference on Computational and Mathematical Biomedical Engineering, (blz. 268-271). CMBE.
Donders, W.P. ; Huberts, W. ; Vosse, van de, F.N. ; Delhaas, T. / Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms. 3rd International Conference on Computational and Mathematical Biomedical Engineering,. redacteur / P. Nithiarasu ; R. Löhner ; K.M. Liew. CMBE, 2013. blz. 268-271
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abstract = "We present a combination of a pulse wave propagation model with an extensive lumped parameter cerebral regulation model. Multiple physiological mechanisms contributing to autoregulation and neurovascular coupling lead to variable impedances in a finite 0-D element that is coupled to the cerebral outlets of 1-D wave propagation network. A simulation of global hemodynamics responding to clamping of an upstream vessel is demonstrated.",
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Donders, WP, Huberts, W, Vosse, van de, FN & Delhaas, T 2013, Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms. in P Nithiarasu, R Löhner & KM Liew (redactie), 3rd International Conference on Computational and Mathematical Biomedical Engineering,. CMBE, blz. 268-271, 3rd International Conference on Computational & Mathematical Biomedical Engineering (CMBE13), Hong Kong, China, 16/12/13.

Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms. / Donders, W.P.; Huberts, W.; Vosse, van de, F.N.; Delhaas, T.

3rd International Conference on Computational and Mathematical Biomedical Engineering,. redactie / P. Nithiarasu; R. Löhner; K.M. Liew. CMBE, 2013. blz. 268-271.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

TY - GEN

T1 - Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms

AU - Donders, W.P.

AU - Huberts, W.

AU - Vosse, van de, F.N.

AU - Delhaas, T.

PY - 2013

Y1 - 2013

N2 - We present a combination of a pulse wave propagation model with an extensive lumped parameter cerebral regulation model. Multiple physiological mechanisms contributing to autoregulation and neurovascular coupling lead to variable impedances in a finite 0-D element that is coupled to the cerebral outlets of 1-D wave propagation network. A simulation of global hemodynamics responding to clamping of an upstream vessel is demonstrated.

AB - We present a combination of a pulse wave propagation model with an extensive lumped parameter cerebral regulation model. Multiple physiological mechanisms contributing to autoregulation and neurovascular coupling lead to variable impedances in a finite 0-D element that is coupled to the cerebral outlets of 1-D wave propagation network. A simulation of global hemodynamics responding to clamping of an upstream vessel is demonstrated.

M3 - Conference contribution

SN - 978-0-9562914-2-4

SP - 268

EP - 271

BT - 3rd International Conference on Computational and Mathematical Biomedical Engineering,

A2 - Nithiarasu, P.

A2 - Löhner, R.

A2 - Liew, K.M.

PB - CMBE

ER -

Donders WP, Huberts W, Vosse, van de FN, Delhaas T. Coupling of a pulse wave propagation model to a lumped parameter regulation model based on physiological mechanisms. In Nithiarasu P, Löhner R, Liew KM, redacteurs, 3rd International Conference on Computational and Mathematical Biomedical Engineering,. CMBE. 2013. blz. 268-271