We investigated whether respiration influences pulmonary arterial input impedance during transition from inspiration to expiration in five anesthetized, spontaneously breathing dogs. Impedance (Z) was separately assessed for heart beats occurring in inspiration, in expiration, and during the transition from inspiration to expiration (transitional beat). Transitional beats were scored by the ratio between the fraction of beat falling in expiration and the total beat duration [expiratory fraction (E-fr)] to quantify their position within the transition. In transitional beats, input resistance linearly increased with Es; Z modulus at the heart-rate frequency (f(HR)) decreased up to -50% for E-fr = 50%. Z phase at f(HR) was greater than in inspiration for E-fr <40% and lower for E-fr > 50%. Unlike blood flow velocity, mean value and first harmonic of pulmonary arterial pressure were correlated to E-fr and paralleled the changes of input resistance and Z at f(HR). This indicates that respiration influences Z through modifications in arterial pressure. The evidence of important respiratory influences on Z function may help the pathophysiological interpretation of dysfunctions of the right heart pumping action, such as the so-called cor pulmonale.

Modulation of pulmonary arterial input impedance during transition from inspiration to expiration

Castiglioni P;
1997-01-01

Abstract

We investigated whether respiration influences pulmonary arterial input impedance during transition from inspiration to expiration in five anesthetized, spontaneously breathing dogs. Impedance (Z) was separately assessed for heart beats occurring in inspiration, in expiration, and during the transition from inspiration to expiration (transitional beat). Transitional beats were scored by the ratio between the fraction of beat falling in expiration and the total beat duration [expiratory fraction (E-fr)] to quantify their position within the transition. In transitional beats, input resistance linearly increased with Es; Z modulus at the heart-rate frequency (f(HR)) decreased up to -50% for E-fr = 50%. Z phase at f(HR) was greater than in inspiration for E-fr <40% and lower for E-fr > 50%. Unlike blood flow velocity, mean value and first harmonic of pulmonary arterial pressure were correlated to E-fr and paralleled the changes of input resistance and Z at f(HR). This indicates that respiration influences Z through modifications in arterial pressure. The evidence of important respiratory influences on Z function may help the pathophysiological interpretation of dysfunctions of the right heart pumping action, such as the so-called cor pulmonale.
1997
Castiglioni, P; Tommasini, R; Morpurgo, M; Dirienzo, M
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2145093
 Attenzione

L'Ateneo sottopone a validazione solo i file PDF allegati

Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 2
  • ???jsp.display-item.citation.isi??? 1
social impact