Ventricular cycle length irregularity affects the correlation between ventricular rate and coronary flow in isolated, Langendorff perfused guinea pig hearts

Ventricular cycle length irregularity affects the correlation between ventricular rate and coronary flow in isolated, Langendorff perfused guinea pig hearts

AbstractIntroduction Heart rate affects coronary flow, but the mechanism is complex. The relationship between rhythm and flow is unclear, especially in experimental settings used for determining drug actions. The present study examined whether ventricular irregularity influences coronary flow indepe...

Teljes leírás

Elmentve itt :
Bibliográfiai részletek
Szerzők: Takács Hedvig
Kui Péter
Farkas Attila
Sarusi Annamária
Forster Tamás
Papp Gyula
Varró András
Curtis Michael J.
Shattock Michael J.
Farkas András
Dokumentumtípus: Cikk
Megjelent: 2016
Sorozat:JOURNAL OF PHARMACOLOGICAL AND TOXICOLOGICAL METHODS 77
doi:10.1016/j.vascn.2015.10.001

mtmt:2960010
Online Access:http://publicatio.bibl.u-szeged.hu/15895
Leíró adatok
Tartalmi kivonat:AbstractIntroduction Heart rate affects coronary flow, but the mechanism is complex. The relationship between rhythm and flow is unclear, especially in experimental settings used for determining drug actions. The present study examined whether ventricular irregularity influences coronary flow independently of heart rate. Methods Guinea pig hearts were perfused (Langendorff mode) at constant pressure. Hypokalemic Krebs solution facilitated spontaneous development of arrhythmias. The ECG, left ventricular and perfusion pressures were recorded, and the coronary flow was measured. Beat-to-beat ventricular cycle length variability was quantified. Hearts were retrospectively allocated to arbitrary ‘Low’ or ‘High’ RR variability groups. Results A positive linear correlation was found between mean ventricular rate and coronary flow. The slope of the regression line was significantly greater in the ‘High’ versus ‘Low’ RR variability group, with greater coronary flow values in the ‘High’ RR variability group in the physiological heart rate range. During regular rhythm, left ventricular pressure exceeded perfusion pressure and prevented coronary perfusion at peak systole. However, ventricular irregularity significantly increased the number of beats in which left ventricular pressure remained below perfusion pressure, facilitating coronary perfusion. Discussion In isolated hearts, cycle length irregularity increases the slope of the positive linear correlation between mean ventricular rate and coronary flow via producing beats in which left ventricular pressure remains below perfusion pressure. This means that changes in rhythm have the capacity to influence coronary flow independently of heart rate in isolated hearts perfused at constant pressure, which should be noted in drug studies on arrhythmias performed in Langendorff hearts.
Terjedelem/Fizikai jellemzők:45-52
ISSN:1056-8719

Hasonló tételek