Evaluation of the isolated paced rat heart

Ventricular performance and coronary flow in Langendorff perfused rat hearts were measured over a wide range of perfusion pressures and heart rates. A change in aortic pressure from 60 to 120 mmHg induced a linear increase in coronary flow, ventricular systolic pressure, and contractility. Ventricular pacing from 300 to 600 beats/min under a constant afterload had no effect on coronary flow. Systolic pressure remained stable up to 400-450 beats/min and then decreased 14% at 600 beats/min compared to the nonpaced controls. When contraction rate exceeded 450 beats/min diastolic pressure progressively increased as the heart rate was elevated. Contractility decreased rapidly between 450 and 600 beats/min under all perfusion pressures. These data indicate that this heart model is physiologically stable with heart rates less than 450 beats/min and may be useful in studying tachycardia-induced work overload.     

Hemodynamic benefits of right ventricular outflow tract pacing: comparison with right ventricular apex pacing

To assess optimal hemodynamics in relation to stimulation site during right ventricular pacing, 17 consecutive patients who underwent cardiac catheterization were studied. In all patients, right ventricular apex and right ventricular outflow tract stimulation was performed at 85, 100, and 120 beats/min. Cardiac index at both pacing sites was compared using the left ventricular outflow tract continuous wave Doppler technique. Comparison of the two stimulation sites demonstrated that right ventricular outflow tract pacing resulted in a higher cardiac index at 85 beats/min (2.42 +/- 1.2 vs 2.04 +/- 1.0 L/min per m2, P < 0.002) at 100 beats/min (2.78 +/- 1.4 vs 2.35 +/- 1.1 L/min per m2, P < 0.001) and 120 beats/min (3.00 +/- 1.5 vs 2.61 +/- 0.9 L/min per m2, P < 0.001). From a total of 51 paired observations, 45 showed an increase in cardiac index during outflow tract pacing as compared to apex pacing. Right ventricular outflow tract pacing at 120 beats/min resulted in a lower cardiac index than right ventricular apex pacing in patients with significant coronary artery disease and/or impaired left ventricular function (ejection fraction < or = 50%), whereas right ventricular outflow tract pacing produced higher cardiac indices in the absence of these abnormalities. Right ventricular outflow tract pacing resulted in higher cardiac indices as compared to apex pacing in all other subgroups at all other pacing sites tested. It is concluded that stimulation of the right ventricular outflow tract offers a significant hemodynamic benefit during single chamber pacing as compared to conventional apex pacing, particularly in the absence of significant coronary artery disease and/or left ventricular dysfunction.     

Analysis of mumps vaccine failure by means of avidity testing for mumps virus-specific immunoglobulin G

Rapid ventricular pacing (RVP) in dogs creates a well characterized model of dilated cardiomyopathy. Standard pacing protocols use RVP at 240-260 beats/min for 2-4 weeks, and result in high mortality rates if continued longer. The authors describe a modification of RVP that results in significant heart failure by 4 weeks, but can be continued for up to 10 weeks with low mortality. Nineteen mongrels underwent RVP at 215 beats/min for 10 weeks. Serial pressure-volume analysis and echocardiography were performed in this model to assess longitudinally changes in left ventricular (LV) function and volumes. The mortality rate was 10%. Significant progressive LV dysfunction with concomitant LV enlargement was observed throughout the pacing period. Finally, norepinephrine levels were elevated at the end of pacing, consistent with an activated sympathetic system. This modified RVP protocol permits long-term pacing with a low mortality rate and results in progressive heart failure throughout the pacing period. This model would be useful in the long-term evaluation of newer surgical and medical therapies of the failing heart.     

Relationships between myocardial bioenergetic and left ventricular function in hearts with volume-overload hypertrophy

BACKGROUND: Left ventricular (LV) hypertrophy secondary to volume overload can result in alterations in myocardial bioenergetics and LV dysfunction. This study examined whether bioenergetic abnormalities contribute to the pump dysfunction. METHODS AND RESULTS: Severe mitral regurgitation (MR) was produced in 10 dogs by disruption of the chordal apparatus. Hemodynamics and ventricular function were examined 11.7 months later under baseline conditions and during treadmill exercise. Myocardial high-energy phosphates were measured by using magnetic resonance spectroscopy at rest, during coronary vasodilation with adenosine, and during oxidative stress induced by rapid pacing and dobutamine. Chronic MR caused a 30% increase in LV mass and a 65% increase in LV volume. In MR animals, the hemodynamic and LV function were normal at rest, but abnormalities developed during beta-blockade and exercise. Myocardial creatine phosphate-to-ATP ratios were significantly lower in each layer across the LV wall in MR hearts than normal hearts. Myocardial blood flow and coronary reserve were normal in MR hearts. Moreover, hyperperfusion did not correct the abnormal bioenergetics. Despite altered bioenergetics at rest, the MR hearts tolerated rapid pacing and dobutamine infusion well. CONCLUSIONS: In volume-overloaded LV hypertrophied hearts, alterations in myocardial high-energy phosphate levels do not induce abnormal mechanical performance at rest but may be related to a decreased contractile reserve during exercise.     

AAIR versus DDDR pacing in patients with impaired sinus node chronotropy: an echocardiographic and cardiopulmonary study

The aim of this study was to compare AAIR and DDDR pacing at rest and during exercise. We studied 15 patients (10 men, age 65 +/- 6 years) who had been paced for at least 3 months with activity sensor rate modulated dual chamber pacemakers. All had sick sinus syndrome (SSS) with impaired sinus node chronotropy. The patients underwent a resting echocardiographic evaluation of systolic and diastolic LV function at 60 beats/min during AAIR and DDDR pacing with an AV delay, which ensured complete ventricular activation capture. Cardiac output (CO) was also measured during pacing at 100 beats/min in both pacing modes. Subsequently, the oxygen consumption (VO2AT) and VO2AT pulse at the anaerobic threshold were measured during exercise in AAIR mode and in DDDR mode with an AV delay of 120 ms. The indices of diastolic function showed no significant differences between the two pacing modes, except for patients with a stimulus-R interval > 220 ms, for whom the time velocity integral of LV filling and LV inflow time were significantly lower under AAI than under DDD pacing. At 60 beats/min, CO was higher under AAI than under DDD mode only when the stimulus-R interval was below 220 ms. For stimulus-R intervals longer than 220 ms, and also during pacing at 100 beats/min, the CO was higher in DDD mode. The stimulus-R interval decreased in all patients during exercise. The time to anaerobic threshold, VO2AT, and VO2AT pulse showed no significant differences between the two pacing modes. Our results indicate that, at rest, although AAIR pacing does not improve diastolic function in patients with SSS, it maintains a higher CO than does DDDR pacing in cases where the stimulus-R interval is not excessively prolonged. On exertion, the two pacing modes appear to be equally effective, at least in cases where the stimulus-R interval decreases in AAIR mode.     

Effects of propranolol, pindolol and carteolol on acute regional myocardial ischemia in isolated rabbit hearts

Catecholamines play a major role during initiation and propagation of myocardial ischemia (MI). Therefore their influence on the size of an acute regional MI was investigated in isolated, coronary ligated rabbit hearts during electrical pacing at different rates (Langendorff, constant pressure: 70 cm H2O, Tyrode solution, Ca2+ 1.8 mmol/l). MI was quantified from NADH-surface-fluorescence-photography. After coronary occlusion the stimulation-rate was increased stepwise from 180 beats/min to 300/min. Experiments were performed in hearts of control and reserpinized rabbits (reserpine 7.0 mg/kg i.p. 24 h before preparation). Hearts of control animals were submitted to beta-blockade by propranolol (10(-8) mol/l) or the partial agonists pindolol (10(-6) mol/l) or carteolol (10(-6) mol/l). In untreated control hearts MI was significantly enlarged with increasing heart-rate (p < 0.05). At 300/min MI was doubled as compared to that observed at 180/min. In hearts of reserpinized animals this effect was absent (p > 0.05). Moreover, in control hearts the growth of MI could be prevented by beta-blockade with propranolol, pindolol or carteolol (p > 0.05), however, these hearts became insufficient as indicated by an increase in left ventricular enddiastolic pressure. Therefore we conclude that the pacing-rate dependent growth of MI seems not to be primarily related to myocardial left ventricular pressure nor to the heart rate. Nevertheless the growth of MI is strictly related to the release of catecholamines and might be caused by oxygen free radicals generated from noradrenaline by autoxidation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Angiotensin-converting enzyme inhibition prolongs survival and modifies the transition to heart failure in rats with pressure overload hypertrophy due to ascending aortic stenosis

BACKGROUND: We tested the hypotheses that long-term administration of the angiotensin-converting enzyme (ACE) inhibitor fosinopril will regress hypertrophy, modify the transition to heart failure, and prolong survival in rats with chronic left ventricular (LV) pressure overload due to ascending aortic stenosis. METHODS AND RESULTS: Aortic stenosis was created in weanling male Wistar rats by a stainless steel clip placed on the ascending aorta. Age-matched control animals underwent a sham operation (Sham group, n = 57). Six weeks after surgery, rats with aortic stenosis were randomized to receive either oral fosinopril 50 mg.kg-1.d-1 (Fos/LVH group, n = 38) or no drug (LVH group, n = 36) for 15 weeks. Pilot studies confirmed that this dosage produced significant inhibition of LV tissue ACE in vivo. Animals were monitored daily, and survival during the 15-week treatment period was assessed by actuarial analysis. At 15 weeks, in vivo LV systolic and diastolic pressures and heart rate were measured. To assess contractile function, the force-calcium relation was evaluated by use of the isovolumic buffer-perfused, balloon-in-LV heart preparation at comparable coronary flow rates per gram LV weight. Quantitative morphometry was performed. Mortality during the 15-week trial was significantly less in the Fos/LVH group than in the LVH group (3% versus 31%, P < .005). No deaths occurred in the Sham group. In vivo LV systolic pressure was similar between Fos/LVH and LVH hearts (223 +/- 10 versus 232 +/- 9 mm Hg) and significantly higher than the Sham group (99 +/- 3 mm Hg, P < .05). In vivo LV diastolic pressure was significantly lower in Fos/LVH hearts than in LVH hearts (10 +/- 2 versus 15 +/- 2 mm Hg), and both were significantly higher than in the Sham group (5 +/- 1 mm Hg, P < .05). Heart rate was similar among all groups. Despite equivalent elevation of LV systolic pressure, fosinopril resulted in regression of myocyte hypertrophy in Fos/LVH versus LVH (myocyte cell width, 14.8 +/- 0.5 versus 20.8 +/- 2.2 microns, P < .05) to normal levels (Sham, 16.3 +/- 0.9 microns). Quantitative morphometry demonstrated that the regression of LV myocyte hypertrophy in the Fos/LVH group was associated with a relative increase in the fractional volume of fibrillar collagen and noncollagen interstitium. In the isolated heart experiments, LV systolic developed pressure relative to perfusate [Ca2+] was significantly higher in Fos/LVH hearts than in LVH hearts. The improvement in systolic function was not related to any difference in myocardial high-energy phosphate levels, since LV ATP and creatine phosphate levels were similar in Fos/LVH and LVH hearts. CONCLUSIONS: In rats with ascending aortic stenosis, chronic ACE inhibition with fosinopril improved survival, decreased the extent of LV hypertrophy, and improved cardiac function despite persistent elevation of LV systolic pressure. The favorable effects of fosinopril may be related in part to inhibition of the effects of cardiac ACE on myocyte hypertrophy rather than to systemic hemodynamic mechanisms.     

Effects of cyclical etidronate therapy on bone loss in early postmenopausal women who are not undergoing hormonal replacement therapy

1. Pacing-induced heart failure was studied in eight dogs. Heart failure was induced by right ventricular pacing at 250-260 beats/min for 6 weeks. Evidence of heart failure was determined clinically and by measurement of left ventricular (LV) dimensions by transoesophageal echocardiography. 2. Haemodynamic measurements of LV pressure, maximum rate of rise of LV pressure (LVdP/dtmax), cardiac output, mean arterial pressure, heart rate, pulmonary artery and pulmonary wedge pressures were made during infusion of solvent (control) and the calcium sensitizer EMD 57033 (0.6 mg min-1 kg-1). 3. The degree of heart failure varied from mild to severe in different individuals, but in each case EMD 57033 exerted a positive inotropic effect on LV haemodynamics and dimension. 4. The positive inotropic effect of the calcium sensitizer was manifest by increased peak LVdP/dt with a subsequent increase in cardiac output at the same mean arterial pressure. 5. This study clearly demonstrates that there is the potential for improvement of contractility of the failing myocardium of the intact mammal by an agent with a mechanism of action which does not involve an increase in intracellular calcium.     

Rate-dependent hemodynamic responses during incremental atrial pacing in chronic constrictive pericarditis before and after surgery

Chronic constrictive pericarditis is a frequent cause of diastolic dysfunction, and results in impaired ventricular filling. Unlike in normal subjects, ventricular filling in constrictive pericarditis occurs almost entirely in the initial one third of diastole, and cardiac output is dependent predominantly on heart rate. Tachycardia impairs ventricular filling in normal subjects, but its effects in patients with constrictive pericarditis have not been studied. The effect of increasing heart rate alone with atrial pacing on the central and peripheral hemodynamics of patients with untreated chronic constrictive pericarditis before and after pericardiectomy was evaluated. Increased heart rate with atrial pacing increased cardiac output, whereas stroke volume remained unchanged up to heart rates of 140 beats/min. Further increases in heart rate resulted in reductions of cardiac output and stroke volume. There were no significant changes in ventricular filling pressures. Infusion of 300 ml of saline solution at peak pacing rates did not improve cardiac output. After successful surgical pericardiectomy, the hemodynamic effects of atrial pacing returned to normal. It is concluded that moderate tachycardia improves the hemodynamic profile of patients with constrictive pericarditis.     

Effect of chronotropic and inotropic stimulation on the coronary pressure-flow relation in left ventricular hypertrophy

Left ventricular hypertrophy (LVH) secondary to chronic pressure overload is associated with increased susceptibility to myocardial hypoperfusion and ischemia during increased cardiac work. The present study was performed to study the effects of chronotropic and inotropic stimulation on the coronary pressure-flow relation of the hypertrophied left ventricle of dogs and to determine the individual contributions of increases in heart rate and contractility to the exaggerated exercise-induced increases in effective back pressure (pressure at zero flow; Pzf). Ascending aortic banding in seven dogs increased the LV to body weight ratio to 7.7 +/- 0.3 g/kg compared to 4.8 +/- 0.2 g/kg in 10 normal dogs (p < or = 0.01). Maximum coronary vasodilation was produced by intracoronary infusion of adenosine. During resting conditions maximum coronary blood flow in the pressure overloaded hypertrophied left ventricle was impaired by both an increase in Pzf (25.1 +/- 2.6 vs 13.8 +/- 1.2 mmHg in hypertrophied vs normal ventricles, respectively, p < or = 0.01) and a decrease in maximum coronary conductance (slope of the linear part of the pressure-flow relation, slopep > or = linear) (8.6 +/- 1.1 vs 12.7 +/- 0.9 ml/min/mmHg, p < or = 0.01). Right atrial pacing at 200 and 250 beats/min resulted in similar rightward shifts of the pressure-flow relation in hypertrophied and normal hearts with 3.1 +/- 0.8 and 4.7 +/- 0.8 mmHg increases in Pzf in LVH and normal dogs, respectively; stepwise multivariate regression analysis indicated that the exaggerated decrease in filling pressure (10 +/- 2 vs 6 +/-2 mmHg) and decrease in left ventricular systolic pressure (45 +/- 5 vs 3 +/- 3 mmHg, p < or = 0.01) may have blunted a greater rightward shift of the pressure-flow relation produced by atrial pacing in the hypertrophied hearts. Inotropic stimulation with dobutamine (10-20 micrograms/kg/min, i.v.) resulted in minimal flow changes in normal hearts but produced a 4.4 +/- 1.5 mmHg (p < or = 0.05) rightward shift of the pressure-flow relation in hypertrophied hearts. which correlated with a greater increase in left ventricular systolic pressure (83 +/- 16 vs 18 +/- 4 mmHg. p < or = 0.05). Exercise resulted in a rightward shift in both normal and hypertrophied left ventricles, but the increase in Pzf was significantly greater in the hypertrophied hearts (15.2 +/- 0.9 vs 10.3 +/- 0.9 mmHg. p < or = 0.05). Stepwise multivariate regression analysis indicated that not only increases in left ventricular filling pressure, but also increases in heart rate and LV systolic pressure contributed to the abnormally great increase in effective coronary back pressure which results in limitation of myocardial perfusion during exercise in the pressure overloaded hypertrophied left ventricle.     

A population-based prospective evaluation of risk of sudden cardiac death after operation for common congenital heart defects

1. Ischaemic cardiac preconditioning represents an important cardioprotective mechanism which limits myocardial ischaemic damage. The aim of this investigation was to assess the impact of dichloroacetate (DCA), a pyruvate dehydrogenase complex activator, on preconditioning. 2. Rat isolated hearts were perfused by use of the Langendorff technique, and were subjected to either preconditioning (3 x 4 or 3 x 6 min ischaemia) or continuous perfusion, followed by 30 min global ischaemia and 60 min reperfusion. DCA (3 mM) was either given throughout the protocol (pretreatment), during reperfusion only (post-treatment), or not at all. Throughout reperfusion mechanical performance was assessed as the rate-pressure product (RPP: left ventricular developed pressure x heart rate). 3. In non-preconditioned control hearts, mechanical performance was substantially (P < 0.001) depressed on reperfusion (the RPP after 60 min of reperfusion (RPP(t=60)) was 4,246+/-974 mmHg beats min(-1) compared to baseline value of 21,297+/-1,728 mmHg beats min(-1)). Preconditioning with either 3 x 4 min or 3 x 6 min cycles caused significant protection, as shown by enhanced recovery (RPP(t=60) = 7,818+/-1,138, P < 0.05, and 11,123+/-587 mmHg beats min(-1), P < 0.001, respectively). 4. Addition of DCA (3 mM) to hearts under baseline conditions significantly (P < 0.001) enhanced systolic function with an increased left ventricular developed pressure of 108+/-5 mmHg compared to 88.3+/-3.0 mmHg in the controls. 5. Pretreatment with 3 mM DCA had no effect on recovery of mechanical performance in the non-preconditioned hearts (RPP(t=60) = 3,640+/-1,235 mmHg beats min(-1)) while the beneficial effects of preconditioning were reduced in the preconditioned hearts (3 x 4 min: RPP(t=60) = 2,919+/-1,060 mmHg beats min(-1); 3 x 6 min: RPP(t=60) = 8,032+/-1,367 mmHg beats min(-1)). Therefore, DCA had increased the threshold for preconditioning. 6. By contrast, post-treatment of hearts with 3 mM DCA substantially improved recovery on reperfusion in all groups (RPP(t=60) = 5,827+/-1,328 (non-preconditioned), 14,022+/-3,743 (3 x 4 min; P < 0.01) and 23,219+/-1,374 (3 x 6 min; P < 0.001) mmHg beats min(-1)). 7. The results of the present investigation clearly show that pretreatment with DCA enhances baseline cardiac mechanical performance but increases the threshold for cardiac preconditioning. However, post-treatment with DCA substantially augments the beneficial effects of preconditioning.     

A comparative study of activity and dual sensor: activity and minute ventilation pacing responses to ascending and descending stairs

Previous studies with activity-based rate adaptive pacemakers have shown a somewhat paradoxical response when comparing ascending stairs to descending stairs. The objective of this investigation was to measure dual-sensor rate response provided by activity and minute ventilation (MV) compared with activity alone, and with a control group, during ascending and descending stairs. For dual sensor mode, measured mean peak pacing rate with 72 (92) steps per minute was 111 +/- 13 beats/min (124 +/- 14 beats/min) ascending stairs and 81 +/- 7 beats/min (97 +/- 13 beats/min) for descending. For activity mode alone, mean peak pacing rate was 90 +/- 12 beats/min (108 +/- 19 beats/min) ascending stairs and 97 +/- 12 beats/min (123 +/- 17 beats/min) descending. The mean peak control group heart rate ascending stairs for a step rate of 72 (92) steps/min were 116 +/- 11 beats/min (127 +/- 14 beats/min) ascending stairs and for descending 89 +/- 12 beats/min (95 +/- 11 beats/min). While for dual sensor controlled pacing there was a significant difference for ascending and descending stairs at both step rates, there was no difference between going upstairs and downstairs for activity mode alone. Rates with dual sensor did not significantly differ from respective rates of the control group. The mean correlation coefficient between MV and paced rate was 0.85. Pacing heart rates delivered by the dual sensor mode were appropriate for ascending and descending stairs. In contrast to activity mode alone, the peak heart rates for dual sensor mode are higher during ascending than during descending stairs.     

Delayed cardiac protection against harmful consequences of stress can be induced in experimental atherosclerosis in rabbits

Multiple brief periods of rapid ventricular pacing confer both short- and long-term protection on the ischaemic heart. The duration of the short-term protection does not exceed 2 h, whereas the long-term protective effect appears several hours after the inducing insults, with maximal protection 24-48 h later. Up to now, delayed cardiac protection by preceding ischaemic insults against harmful consequences of stress has been produced in the normal, healthy animal only. The purpose of this study was, therefore, to test whether delayed cardiac protection can be induced in experimental atherosclerosis in rabbits produced by feeding cholesterol-rich diet over 2 months. Repeated brief periods of rapid ventricular pacing were used to induce delayed protection of the heart. Moderation of post-pacing right intracavitary ST segment elevation and that of the left ventricular end-diastolic pressure (both produced by ventricular overpacing: 500 beats/min for 15 min) were found in normal animals as well as in those fed cholesterol-enriched diet. The short-lived protection induced by a single 'preconditioning' pacing was reproducible only in normal animals. As measured by means of radioimmunoassay, the protective effect of either short- or long-term protection appeared in parallel with an attenuation of ischaemia-induced increase in cardiac cyclic AMP content, in both normal and atherosclerotic rabbits. An increase in cardiac cyclic GMP content was characteristic of the short- but not long-term protection. These results suggest that the delayed cardiac protection by preceding multiple brief rapid pacings operates even in experimental atherosclerosis, but the short-term protection induced by a single preconditioning stimulus is lost.     

Immediate reproducibility of upper limit of vulnerability measurements in patients undergoing transvenous implantable cardioverter defibrillator implantation

BACKGROUND: Asynchronous electrical activation, induced by ventricular pacing, causes regional differences in workload, which is lower in early- than in late-activated regions. Because the myocardium usually adapts its mass and structure to altered workload, we investigated whether ventricular pacing leads to inhomogeneous hypertrophy and whether such adaptation, if any, affects global left ventricular (LV) pump function. METHODS AND RESULTS: Eight dogs were paced at physiological heart rate for 6 months (AV sequential, AV interval 25 ms, ventricular electrode at the base of the LV free wall). Five dogs were sham operated and served as controls. Ventricular pacing increased QRS duration from 47.2+/-10.6 to 113+/-16.5 ms acutely and to 133.8+/-25.2 ms after 6 months. Two-dimensional echocardiographic measurements showed that LV cavity and wall volume increased significantly by 27+/-15% and 15+/-17%, respectively. The early-activated LV free wall became significantly (17+/-17%) thinner, whereas the late-activated septum thickened significantly (23+/-12%). Calculated sector volume did not change in the LV free wall but increased significantly in the septum by 39+/-13%. In paced animals, cardiomyocyte diameter was significantly (18+/-7%) larger in septum than in LV free wall, whereas myocardial collagen fraction was unchanged in both areas. LV pressure-volume analysis showed that ventricular pacing reduced LV function to a similar extent after 15 minutes and 6 months of pacing. CONCLUSIONS: Asynchronous activation induces asymmetrical hypertrophy and LV dilatation. Cardiac pump function is not affected by the adaptational processes. These data indicate that local cardiac load regulates local cardiac mass of both myocytes and collagen.     

Chronic L-arginine treatment increases cardiac cyclic guanosine 5'-monophosphate in rats with aortic stenosis: effects on left ventricular mass and beta-adrenergic contractile reserve

OBJECTIVES: We tested the hypothesis that nitric oxide (NO) cyclic guanosine 5'-monophosphate (GMP) signaling is deficient in pressure overload hypertrophy due to ascending aortic stenosis, and that long-term L-arginine treatment will increase cardiac cyclic GMP production and modify left ventricular (LV) pressure overload hypertrophy and beta-adrenergic contractile response. BACKGROUND: Nitric oxide cyclic GMP signaling is postulated to depress vascular growth, but its effects on cardiac hypertrophic growth are controversial. METHODS: Forty control rats and 40 rats with aortic stenosis left ventricular hypertrophy ([LVH] group) were randomized to receive either L-arginine (0.40 g/kg/day) or no drug for 6 weeks. RESULTS: The dose of L-arginine did not alter systemic blood pressure. Animals with LVH had similar LV constitutive nitric oxide synthase (cNOS) mRNA and protein levels, and LV cyclic GMP levels as compared with age-matched controls. In rats with LVH L-arginine treatment led to a 35% increase in cNOS protein levels (p = 0.09 vs untreated animals with LVH) and a 1.7-fold increase in LV cyclic GMP levels (p < 0.05 vs untreated animals with LVH). However, L-arginine treatment did not suppress LVH in the animals with aortic stenosis. In contrast, in vivo LV systolic pressure was depressed in L-arginine treated versus untreated rats with LVH (163 +/- 16 vs 198 +/- 10 mm Hg, p < 0.05). In addition, the contractile response to isoproterenol was blunted in both isolated intact hearts and isolated myocytes from L-arginine treated rats with LVH compared with untreated rats with LVH. This effect was mediated by a blunted increase in peak systolic intracellular calcium in response to beta-adrenergic stimulation. CONCLUSIONS: Left ventricular hypertrophy due to chronic mechanical systolic pressure overload is not characterized by a deficiency of LV cNOS and cyclic GMP levels. In rats with aortic stenosis, L-arginine treatment increased cardiac levels of cyclic GMP, but it did not modify cardiac mass in rats with aortic stenosis. However, long-term stimulation of NO-cyclic GMP signaling depressed in vivo LV systolic function in LVH rats and markedly blunted the contractile response to beta-adrenergic stimulation.     

Interaction of heart rate and hypothermia on global myocardial contraction of the isolated rabbit heart

We studied the effects of mild hypothermia on cardiac contractility in isolated rabbit hearts perfused with Krebs-Henseleit solution according to the technique of Langendorff. Isovolumetric left ventricular pressure (LVP) was measured with a fluid-filled balloon. Hearts were paced after induction of atrioventricular block. At low heart rates ( < 30 bpm) mild hypothermia (cooling to 30 degrees C) induced a 32% increase in LVp (146.5 +/- 10 mm Hg at 30 degrees C vs 110.7 +/- 13 mm Hg at 37 degrees C) but this positive inotropic response was progressively lost by increasing heart rate. At pacing rates > or = 90 bpm, lower systolic LVP, higher diastolic LVP, and lower positive and negative LV dP/dt were obtained in hypothermic (93 +/- 12 mm Hg, 55 +/- 18 mm Hg, 584 +/- 137 mm Hg/s, and 323 +/- 57 mm Hg/s at 210 bpm, respectively) compared to normothermic hearts (123 +/- 4 mm Hg, 10 +/- 4 mm Hg, 1705 +/- 145.5 mm Hg/s, and 1155 +/- 78 mm Hg/s at 210 bpm, respectively.) The duration of mechanical diastole was reduced or suppressed in these hearts. Exposure to the beta-adrenoreceptor agonist, isoproterenol, improved this diastolic dysfunction during hypothermia and pacing at high rates, suggesting that the sarcoplasmic reticulum Ca2+ uptake might be involved. Our data are also consistent with an increase in myofilament Ca2+ sensitivity that is opposed by isoproterenol during hypothermia.     

Basophilic differentiation of the human leukemia cell line KU812 upon treatment with interleukin-4

To assess the effect of right ventricular pacing on rate regularity during exercise and daily life activities, 16 patients with sinoatrial disease and chronic atrial fibrillation (AF) were studied. Incremental ventricular pacing was commenced at 40 beats/min until > 95% of ventricular pacing were achieved during supine, sitting, and standing. Thirteen patients also underwent randomized paired submaximal exercise tests in either a fixed rate mode. (VVI) or a ventricular rate stabilization (VRS) mode in which the pacing rate was set manually at 10 beats/min above the average AF rate during the last minute of each exercise stage. The pacing interval for rate regularization was shortest during standing (692 +/- 26 ms) compared with either supine or sitting (757 +/- 30 and 705 +/- 26 ms, respectively, P < 0.05). During exercise VRS pacing significantly increased the maximum rate (119 +/- 5.2 vs 106 +/- 4.2 ms, P < 0.05), percent of ventricular pacing (85% +/- 5% vs 23% +/- 7%, P < 0.05), rate regularity index (5.8% +/- 1.6% vs 13.4% +/- 1.9%, P < 0.05), and maximum level of oxygen consumption (12.4 +/- 0.5 vs 11.3 +/- 0.5 mL/kg, P < 0.05) compared with VVI pacing. There was no change in oxygen pulse or difference in symptom scores in this acute study between the two pacing modes. It is concluded that right ventricular pacing may significantly improve rate regularity and cardiopulmonary performance in patients with chronic AF. This may be incorporated in a pacing device for rate regularization of AF using an algorithm that is rate adaptive to postural and exercise stresses.     

Myocardial effects of repetitive episodes of rapid ventricular pacing in conscious dogs: surgical creation, echocardiographic evaluation, and morphometric analysis

The interactions of the systemic and myocardial adaptations during and after rapid ventricular pacing, a model of heart failure, were assessed in conscious, unstressed dogs. Ultrasonic probes and vascular catheters were surgically implanted into dogs for measurements of blood flows and pressures during 3 weeks of pacing and after 2 months of recovery. Three weeks of tachycardia (260 beats/min) resulted in a marked reduction in hemodynamic parameters and left ventricular dilatation, with caudal wall thinning throughout the pacing period and 1 week of recovery. Sinus rhythm resumed after the pacer was turned off, with return toward normal in hemodynamic parameters; however, left ventricular dilatation and ventricular remodeling, with significant fibrosis, loss of myocytes, and hypertrophy of the surviving cells were still present after 2 months of recovery. In conclusion, even though hemodynamic parameters normalized during recovery, adaptive myocardial remodeling caused permanent ventricular fibrosis, hypertrophy, and increased cardiac filling pressures.     

Increase in myocardial interstitial adenosine and net lactate production in brain-dead pigs: an in vivo microdialysis study

BACKGROUND: Brain death-related cardiovascular dysfunction has been documented; however, its mechanisms remain poorly understood. We investigated changes in myocardial function and metabolism in brain-dead and control pigs. METHODS: Heart rate, systolic (SAP) and mean (MAP) arterial pressure, left ventricular (LV) dP/dtmax, rate-pressure product, cardiac output (CO), left anterior descending coronary artery blood flow, lactate metabolism, and interstitial myocardial purine metabolite concentrations, monitored by cardiac microdialysis, were studied. A volume expansion protocol was performed at the end of the study. RESULTS: After brain death, a transient increase in heart rate (from 90 [67-120] to 158 [120-200] beats/min) (median, with range in brackets), MAP (82 [74-103] to 117 [85-142] mmHg), LV dP/dtmax (1750 [1100-2100] to 5150 [4000-62,000] mmHg x sec(-1), rate-pressure product (9100 [7700-9700] beats mmHg/min to 22,750 [20,000-26,000] beats mmHg/min), CO (2.2 [2.0-4.0] to 3.3 [3.0-6.0] L/min), and a limited increase in left anterior descending coronary artery blood flow (40 [30-60] to 72 [50-85] ml/min) were observed. Net myocardial lactate production occurred (27 [4-40] to -22 [-28, -11] mg/L, P<0.05) and persisted for 2 hr. A 6-7-fold increase in adenosine dialysate concentration was observed after brain death induction (2.9 [1.0-5.8] to 15.8 [7.0-50.7] micromol/L), followed by a slow decline. Volume expansion significantly increased MAP, CO, and LV dP/dtmax in control animals, but decreased LV dP/dtmax and slightly increased CO in brain-dead animals. A significant increase in adenosine concentration was observed in both groups, with higher levels (P<0.05) in brain-dead animals. CONCLUSIONS: Brain death increased oxygen demand in the presence of a limited increase in coronary blood flow, resulting in net myocardial lactate production and increased interstitial adenosine concentration consistent with an imbalance between myocardial oxygen demand and supply. This may have contributed to the early impairment of cardiac function in brain-dead animals revealed by rapid volume infusion.     

Analytic processing elicits right ear superiority in monaurally presented speech

Experiments were designed to assess the performance of an intracorporeal (abdominal) left ventricular assist device (ALVAD) in the presence of induced tachycardias, multiple premature ventricular contractions (PVC's), and ventricular fibrillation in calves. Performance criteria were the degree of left ventricular unloading and the per cent cardiac output assumed by the ALVAD. During synchronous pumping, left ventricular unloading was complete and the entire cardiac output was captured by the device. During induced tachycardias up to rates of 120 beats per minute, these degrees of performance were maintained. At rates in excess of 120 beats per minute, performance declined due to decreased biologic stroke volumes and prosthetic filling times. In the presence of induced PVC's, performance during synchronous pumping decreased because of erratic R-wave sensing. Left ventricular unloading was complete but irregular, and the total cardiac output was captured. When asynchronous pumping was utilized, mean left ventricular systolic pressures increased, but total cardiac output was still captured. During induced ventricular fibrillation, ALVAD actuation maintained cardiac outputs equal to control values for periods up to 5 1/2 hours. These experiments indicate that, during normal sinus rhythm, synchronous pumping is optimal; asynchronous pumping is optimal during complex dysrhythmias; and either can be utilized to support the circulation with varying degrees of left ventricular unloading.