Cardiovascular research
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Cardiovascular research · Jan 1987
Effect of autonomic nervous system modulation on retrograde atrioventricular nodal conduction in the human heart.
Although the influence of the autonomic nervous system on anterograde atrioventricular nodal conduction is well established, its effect on retrograde atrioventricular nodal conduction has not been examined systematically. Since retrograde atrioventricular nodal conduction in subjects with normal anterograde conduction may vary from intact retrograde conduction to complete retrograde block when assessed during ventricular pacing, in this study patients with (a) intact retrograde atrioventricular nodal conduction (group 1) were studied during parasympathetic (vagal) stimulation by carotid sinus pressure and during sympathetic inhibition (propranolol 0.2 mg.kg-1 intravenously) and (b) retrograde atrioventricular nodal block (group 2) were studied during vagal blockade (atropine 0.04 mg.kg-1 intravenously) and during sympathetic stimulation (isoproterenol 1-4 micrograms.min-1 infusion). In both groups changes in sinus cycle length and anterograde atrioventricular nodal conduction were measured. ⋯ In group 2 vagal blockade by atropine caused a 1:1 retrograde response during ventricular pacing up to a mean(SD) cycle length of 470(135) ms in six out of eight patients. The infusion of isoproterenol caused the retrograde atrioventricular nodal block to be abolished and 1:1 conduction to be resumed up to a ventricular pacing mean(SD) cycle length of 364(57) ms in six out of eight patients. It is concluded that (a) the autonomic nervous system modulates retrograde atrioventricular nodal conduction in a similar manner to its anterograde counterpart and (b) that since retrograde atrioventricular nodal conduction was reversible after the administration of either atropine or isoproterenol retrograde atrioventricular nodal block may be dynamic (physiological) rather than fixed (anatomical) in nature.
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Cardiovascular research · Aug 1986
Augmentation of cardiac output and carotid blood flow by chest and abdomen phased compression cardiopulmonary resuscitation.
Phased compression cardiopulmonary resuscitation, whereby the chest and abdomen are compressed sequentially, is a new approach to the classical cardiopulmonary resuscitation technique, which is based on the compression of the chest alone. Six dogs with cardiac arrest were treated by external chest and abdominal compression using a rigid plexiglas suit lined with flexible perithoracic and periabdominal bladders. Fast inflation and deflation of the two independent bladders, together with forced ventilation of the lung, generated phased pressure pulses. ⋯ A random sequence of the different phased compression modes, each lasting for 3-10 minutes, was applied during the prolonged resuscitation procedure that lasted for up to 70 minutes. By starting the abdominal compression 300-400 ms before the thoracic compression the carotid flow index improved by 77% (from 13% with simultaneous compression to 23% with phased compression) and the cardiac output index increased by 65% (from 7.8% with simultaneous compression to 12.5%). The results provide insight into the chest pump concept and the role of intrathoracic and intra-abdominal pressures in generating improved blood circulation during cardiopulmonary resuscitation, and show the advantages of phased compression over chest compression alone and simultaneous chest and abdominal compression.
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Cardiovascular research · Feb 1986
Effect of glyceryl trinitrate on peripheral arteries alters left ventricular hydraulic load in man.
Effects of sublingual glyceryl trinitrate (GTN) were studied in ten patients without heart failure during diagnostic cardiac catheterisation following angiography. GTN caused substantial reduction in peak left ventricular and aortic pressure (19 mmHg) with lesser reduction in mean aortic pressure (9 mmHg) and no change in diastolic aortic pressure. Reduction in stroke volume (by 15%), associated with fall in left ventricular end diastolic pressure (by 4 mmHg) was insufficient to explain the marked (17 mmHg - 34%) reduction in pulse pressure. ⋯ This can be attributed to the known vasodilatory effect of GTN on the peripheral arteries. Simulation of arterial vasodilatation in a multi-branched model of the systemic arterial system confirmed this interpretation. Dilatation of peripheral arteries explains in part the beneficial effects of GTN in adult man.
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Cardiovascular research · Jun 1985
Comparative StudyIntrathoracic and abdominal pressure variations as an efficient method for cardiopulmonary resuscitation: studies in dogs compared with computer model results.
Intrathoracic pressure variations are currently proposed as the main flow-generation mechanisms in standard and modified cardiopulmonary resuscitation (CPR) techniques. A method of changing pressure within the thorax and abdomen without any degree of heart compression was developed and tested in dogs. Intrathoracic and abdominal pressure waves were induced by cyclic inflation and deflation of the lungs and of perithoracic and periabdominal balloons. ⋯ The average flow in the carotid artery was 21.7 +/- 7.8 ml . min-1, which was 18 +/- 6% of the baseline carotid flow before CPR. Three different factors were found to improve the efficiency of CPR: periabdominal balloon inflation simultaneous with the intrathoracic pressure waves; increased frequency of the pressure waves from 60 to 100 cycles per minute; and inflation of the periabdominal balloon 50 to 100 ms before the thoracic balloon. Blood-gas and acid-base balance analysis during CPR revealed well-oxygenated arterial blood with a marked respiratory alkalosis and a slowly developing metabolic acidosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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Cardiovascular research · May 1985
Skeletal muscle perfusion and metabolism during canine endotoxin shock.
Conflicting data exist in literature about the effects of endotoxin on skeletal muscle perfusion and metabolism during canine endotoxin shock. In 12 dogs we therefore studied (six control and six endotoxin treated, 1.5 mg X kg-1) under etomidate (4 mg X kg-1 X h-1) anaesthesia muscle blood flow (radioactive microspheres) in fore limb, thorax, diaphragm and hind limb (five different muscles) and skin blood flow before (t = 0) and 90 and 120 min after endotoxin. We also measured blood flow in the femoral artery and vein (electromagnetic flow transducers) and the arteriovenous differences of oxygen, lactate, glucose and FFA over the femoral vascular bed (at t = 0, 30, 90 and 120 min). ⋯ The femoral bed produced free fatty acids (FFA) but during endotoxin shock the arteriovenous concentration difference of FFA decreased. Our data suggest that skeletal muscle flow nor oxygen consumption and glucose metabolism is affected during 2 h of canine endotoxin shock. Lactate production, however, tended to increase.