Cardiopulmonary effects of constant-flow ventilation in experimental myocardial ischaemia

European Heart Journal 1991 12(11):1163-1169;
Copyright © 1991 by the European Society of Cardiology.

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Cardiopulmonary effects of constant-flow ventilation in experimental myocardial ischaemia

T. HACHENBERG^*, S. MEYER^*, A. SIELENKÄMPER^*, G. KNICHWITZ^*, W. HAVERKAMP, G. HINDRICKS and M. WENDT^*

^*Department of Anaesthesiology and Intensive Care Medicine, Universität Münster Albert-Schiveitzer-Str.33, D-4400-Münster, Germany
${dagger}$ Department of Cardiology and Angiology, Hospital of the Westfalische Wilhelms-Universität Münster Albert-Schiveitzer-Str.33, D-4400-Münster, Germany

Received 14 May 1990; revised 12 October 1990; .

Correspondence: T. Hachenberg, Department of Anaesthesiology and Intensive Care Medicine, Hospital of the Westfalische wilhelms — Universit $a$ t M $u$ nster, Albert-Schweitzer-Strasse 33, D-4400. Münster, Germany

Abstract

The cardiopulmonary effects of constant-flow ventilation wereinvestigated in dogs with normal heart function (controlphase,n=14) and after development of acute myocardial ischaemia (ischaeiniaphase, n=14). Heated, humidified and oxygen-enriched air wascontinuously delivered with an inspiratory flow rate of 1·21.kg^–1 . min^–1 via two catheters positioned withineach mainstem bronchus. Continuous positive pressure ventilationwith a positive end-expiratory pressure of 0·5 kPa (5cmH²O) swas used as a reference. During control, neither continuouspositive pressure ventilation nor constant-flow ventilationshowed impairment of cardiopulmonary performance. Oxygenationand CO² removal were more efficiently achieved by continuouspositive pressure ventilation (P $≤$ 0·05). Acute myocardialischaemia was induced by occlusion of the left anterior descending(LAD) coronary artery; measurements during the ischaemia phasewere per formed 60 mm following LAD occlusion. Myocardial ischaemiaresulted in moderate changes of cardiac output, left ventricularend-diastolic pressure and dP/dt_max Both modes of ventilationwere well tolerated in the ischaemia phase, and cardiovascularperformance revealed no significant differences between continuouspositive pressure ventilation and constant-flow ventilation.Haemodynamic parameters could be more precisely assessed duringconstant-flow ventilation. Oxygenation deteriorated, but hypoxaemiadid not occur in any animal and CO₂ elimination remained unchanged.It is concluded that ‘non-conventional’ ventilationby continuous intrabronchial gas flow maintains adequate gasexchange with no adverse effects on haemodynamics in dogs withacute myocardial ischaemia. Constant-flow ventilation may beadvantageous in the experimental setting to study cardiac functionwithout cyclic heart-lung interaction due to airway pressurealterations.

Key Words: Constant-flow ventilation • haemodynamics • gas exchange • myocardial ischaemia

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