Cardiodynamic response to psychological and cold pressor stress: Further evidence for stimulus response specificity and directional fractionation

In the present study 36 police officers were exposed to a psychological stressor (IQ quiz) and to cold pressor stress while several cardiovascular variables were monitored. Impedance cardiography was used to provide measures of heart rate, stroke volume, cardiac output, myocardial contractility, and total peripheral resistance. In addition, measures of systolic and diastolic blood pressure and peripheral skin temperature were obtained. A multivariate analysis of variance (MANOVA) indicated that significant increases in diastolic and systolic blood pressure during the cold pressor test were mediated by large increases in total peripheral resistance, whereas blood pressure elevation during the IQ quiz were accompanied by significant increases in heart rate and, to a lesser extent, cardiac output. Peripheral skin temperature decreased in response to each stressor. Additional analysis indicated a degree of stimulus specificity for several variables. For example, diastolic blood pressure showed greater increases to cold pressor than quiz, whereas systolic blood pressure increased more with the psychological than the physical stressor. Directional fractionation occurred for both myocardial contractility and cardiac output.     

Cardiodynamic response to psychological and cold pressor stress: further evidence for stimulus response specificity and directional fractionation

In the present study 36 police officers were exposed to a psychological stressor (IQ quiz) and to cold pressor stress while several cardiovascular variables were monitored. Impedance cardiography was used to provide measures of heart rate, stroke volume, cardiac output, myocardial contractility, and total peripheral resistance. In addition, measures of systolic and diastolic blood pressure and peripheral skin temperature were obtained. A multivariate analysis of variance (MANOVA) indicated that significant increases in diastolic and systolic blood pressure during the cold pressor test were mediated by large increases in total peripheral resistance, whereas blood pressure elevation during the IQ quiz were accompanied by significant increases in heart rate and, to a lesser extent, cardiac output. Peripheral skin temperature decreased in response to each stressor. Additional analysis indicated a degree of stimulus specificity for several variables. For example, diastolic blood pressure showed greater increases to cold pressor than quiz, whereas systolic blood pressure increased more with the psychological than the physical stressor. Directional fractionation occurred for both myocardial contractility and cardiac output.     

Blood pressure and hemodynamic responses after exercise in older hypertensives

Recently, systolic and diastolic blood pressure have been reported to be significantly lower for several hours after exercise than when measured at rest before exercise in individuals with essential hypertension. We sought to determine the hemodynamic mechanism underlying this reduction in blood pressure. Twenty-four men and women 60-69 yr of age with persistent essential hypertension completed one of the following protocols: exercise at 50% of maximum O2 consumption (VO2 max) followed by 1 h of recovery, exercise at 70% of VO2 max followed by 3 h of recovery, or a 4-h control study. Systolic pressure was significantly lower during recovery after both intensities of exercise, but diastolic pressure was unchanged. The lower blood pressure was primarily due to a reduction in cardiac output, since total peripheral resistance was increased throughout both recovery periods. Cardiac output was reduced in recovery because of a reduction in stroke volume. Heart rate was above, or no different from, that at rest before exercise. Changes in plasma volume could not entirely account for the reduction in stroke volume. Therefore, other mechanisms altering venous return and/or myocardial contractility appear to be responsible for the reduction in systolic blood pressure evident after a single bout of submaximal exercise in individuals with essential hypertension.     

Changes in systemic hemodynamics following administration of synthetic angiotensin II to dogs of different ages]

Experiments were conducted on dogs aged 18-22 days, 2-3 month-old and adult dogs. Arterial blood pressure, cardiac output, heart rate and total peripheral resistance during the infusion of synthetic angiotensin-II-amide in a dose of 2 mug/kg per minute were studied. An increase of arterial pressure in adult dogs during the action of angiotensin-II was connected with the elevation of the total peripheral resistance. An increase of the total peripheral resistance and also of the cardiac output was seen in the puppies. The differences in the degree of increase of the arterial blood pressure in adult dogs and puppies were not marked.     

Recent Advances in Hypertension

The possible relationship between the renal mechanism of volume control and blood pressure regulation is discussed. Expansion of the extracellular fluid (ECF) and plasma volumes was demonstrated following renal artery constriction in the rat; after about one month ECF volume returned to normal although hypertension persisted. Measurements of cardiac output in the unanesthetized rat by an implanted electromagnetic flowmeter showed an initial rise in cardiac output after renal artery constriction, returning to normal in 10 to 15 days. A homeostatic hypothesis for the production of renal hypertension is put forward in which changes in ECF volume, capacity vessel tone and myocardial contractility participate in the development of hypertension by elevating cardiac output. Autoregulation of peripheral flow then occurs and the consequent restoration of blood pressure at a renal pressure receptor results in return to normal of cardiac output by negative feedback. Thus in chronic hypertension the high peripheral resistance is maintained by autoregulation.     

Organ blood flow and cardiac contractility in anaesthetized cats at 5 bar (500 kPa) ambient pressure

Previous in vivo and in vitro experiments have demonstrated increased cardiac contractility and increased total myocardial blood flow (Qmyocardial) when rats were exposed to normoxic 5-bar (500 kPa) ambient pressure. In the present study, regional blood flow was measured using the microsphere method on nine anaesthetized cats at surface and normoxic 5-bar (500 kPa) ambient pressure. Left ventricular pressure (LVP) and cardiac contractility, measured as peak left ventricular +dP/dt and -dP/dt were measured in six of the cats. Arterial pressure, heart rate and cardiac output remained unchanged after compression, but total Qmyocardial increased by 29% (P less than 0.01) and cerebral blood flow increased by 66% (P less than 0.05). At the same time +dP/dt and -dP/dt was increased by 83% and 102%, respectively (P less than 0.01), while LVP was enhanced by 14% (P less than 0.05). Except for a moderate decrease in partial pressure of oxygen, acid base status in arterial blood remained unchanged. The results indicate that the effects of increased ambient pressure on the heart are general physiological phenomena, which are not only limited to the laboratory rat.     

Cardiovascular responses to hypoxia in the Adriatic sturgeon (Acipenser naccarii)

The in vivo cardiovascular responses to hypoxia, and the intrinsic functional characteristics of the heart in vitro , were determined, and compared, in the Adriatic sturgeon (Acipenser naccarii). During exposure to hypoxia in vivo , blood oxygen content (Cao₂) declined as water 0₂ partial pressure (Pwo₂) was reduced, despite an increase in haematocrit. The main cardiovascular response was a reduction in dorsal aortic blood pressure, with a slight bradycardia, while cardiac output remained constant. Reduced oxygen content of the perfusate had significant inhibitory effects on the intrinsic performance of the heart in vitro , causing a reduction in the heart rate; a reduction in the sensitivity of responses to increased preload (Frank-Starling response), and a more rapid decline in power output and stroke volume when afterload was increased. Overall, the in vitro results suggest that hypoxia depresses the contractility of the heart (i.e. its inotropic responses). The reduction in dorsal aortic pressure in vivo may, therefore, counteract the depressive effects of hypoxia on heart contractility, and thereby avoid a hypoxic depression of cardiac output.     

Systemic hemodynamic changes during the development of DOCA-salt hypertension. The effect of neonatal sympathectomy

The elevation of the cardiac index was discovered at the initial stage of DOCA-salt hypertension in rats. The blood pressure rise at the stage of stable hypertension was caused by an increase in the total peripheral vascular resistance. Neonatal sympathectomy prevented the development of DOCA-salt hypertension and elevation of the cardiac index revealed in control sympathectomized rats.     

Effect of the alpha-adrenoblocker pyrroxan on systemic hemodynamics in puppies and dogs with vasorenal hypertension]

Vasorenal hypertension was induced in 2--3-month-old puppies and adult dogs by stricture of both renal arteries. 1.5 mg/kg of pyrroxan was injected intravenously 3 and 14 days later. A reduction of increased arterial pressure was noted both in adult dogs and in puppies, to the subnormal level in the latter. Hypotensive effect of the preparation was connected in adult animals with diminution of the general peripheral vascular resistance and in puppies, besides, with reduction of cardiac output. Pyrroxan injection was accompanied in all the animals with tachycardia, reduction of the phase of isometric contraction and activation of myocardial contractility.     

Influence of vasoactive intestinal polypeptide (VIP) on splanchnic and central hemodynamics in healthy subjects

The influence of VIP, a potent vasodilator, on central hemodynamics, splanchnic blood flow and glucose metabolism was studied in six healthy subjects. Teflon catheters were inserted into an artery, a femoral vein and a right-sided hepatic vein. A Swan-Ganz catheter was introduced percutaneously and its tip placed in the pulmonary artery. Determinations of cardiac output, systemic, pulmonary arterial and hepatic venous pressures as well as splanchnic blood flow were made in the basal state and at the end of two consecutive 45 min periods of VIP infusion at 5 and 10 ng/kg/min, respectively. Arterial blood samples for analysis of glucose, FFA, insulin and glucagon were drawn at timed intervals. VIP infusion at 5 ng/kg/min resulted in an increase in cardiac output (55%) and heart rate (25%) as well as a reduction in mean systemic arterial pressure (15%) and vascular resistance (45%). With the higher rate of VIP infusion heart rate tended to rise further while cardiac output and arterial pressure remained unchanged. At 15 min after the end of VIP infusion the above variables had returned to basal levels. Splanchnic blood flow and free hepatic venous pressure did not change significantly. Arterial concentrations of glucose, FFA, insulin and glucagon increased during VIP infusion. At 15 min after the end of infusion the glucose levels were still significantly higher than basal (20%). Net splanchnic glucose output did not change in response to VIP infusion. It is concluded that VIP exerts a potent vasodilatory effect resulting in augmented cardiac output and lowered systemic blood pressure and vascular resistance.(ABSTRACT TRUNCATED AT 250 WORDS)     

Blood supply to the heart and coronary vasodilation reserves in experimental myocardial hypertrophy

The effects of pressure overload left ventricular hypertrophy (LVH) on heart performance and coronary circulation were investigated in dog experiments. The data obtained clearly demonstrate that left ventricular systolic and end-diastolic pressures were increased in LVH dogs. The heart rate and cardiac output were unchanged. However, there was a tendency toward lowering in the maximal rate of myocardial contractility and relaxation (+dP/dtmax and--dP/dtmax). It has been shown that in LVH dogs, the coronary blood flow was higher and coronary artery resistance was lower than in control ones. The peak reactive hyperemic flow was higher in LVH dogs but the coronary artery resistance calculated at the height of reactive hyperemia was similar both in control and LVH dogs, evidence of a reduction in the total coronary vasodilator reserves in the latter ones. The diastolic pressure-time index-tension time index (DPTI/TTI) ratio in LVH dogs decreased so that the value was sufficiently low to predict a reduction in endocardial perfusion even in experimental increased coronary perfusion pressure.     

Effect of hyperthermia on the cardio- and hemodynamics and acid-base balance of the blood in dogs

The effect of severe hyperthermia on the circulatory function was studied in dogs. Arterial pressure was maintained at the normal level, cardiac output increased at the core temperature of about 40 degrees C. An abrupt fall of the arterial pressure and cardiac output was observed at the rectal temperature of about 41 degrees C. The results suggest that a decrease in the cardiac output during severe hyperthermia is due to the fall of the central venous pressure and to the increase of the vascular compliance.     

Detrimental effect of hypothermia during acute normovolaemic haemodilution in anaesthetized cats

 Haemodynamic responses to hypothermia were studied at normal haematocrit and following the induction of acute normovolaemic haemodilution. Experiments were performed on 20 cats anaesthetized with a mixture of chloralose and urethane in two groups. In one group (n=10) the effects of hypothermia on various haemodynamic variables were studied at normal haematocrit (41.0±1.7%) and in the second group of cats (n=10) the effects of hypothermia on various haemodynamic variables were studied after the induction of acute normovolaemic haemodilution (14.0±1.0%). The haemodynamic variables left ventricular pressure, left ventricular contractility, arterial blood pressure, heart rate and right atrial pressure were recorded on a polygraph. Cardiac output was measured using a cardiac output computer. In both groups hypothermia was induced by surface cooling with the help of ice. Cardiovascular variables were recorded at each 1° C fall in body temperature. Hypothermia produced a significant (P<0.05) drop in heart rate, cardiac output, arterial blood pressure and left ventricular contractility in both groups. However, the percentage decrease in these variables in response to hypothermia was significantly (P<0.05) higher in cats with low haematocrit than in those with normal haematocrit. The severity of hypothermia – induced cardiovascular effects is evident from the drastic decrease in heart rate, cardiac output, arterial blood pressure and myocardial contractility in cats with low haematocrit, indicating a higher risk of circulatory failure under anaemic conditions at low temperatures. Received: 21 October 1996 / Revised: 20 April 1997 / Accepted 21 May 1997     

Beta2-microglobulin knockout mice treated with anti-asialoGM1 exhibit improved hemodynamics and cardiac contractile function during acute intra-abdominal sepsis

We previously showed that beta2-microglobulin knockout mice treated with anti-asialoGM1 (beta2M/alphaAsGM1 mice) exhibit less hypothermia, reduced production of proinflammatory cytokines, less metabolic acidosis, and improved survival after cecal ligation and puncture (CLP) compared with wild-type mice. The present study was designed to assess hemodynamics and left ventricular contractility at 18 h after CLP. Arterial pressure was measured by carotid artery cannulation, and left ventricular pressure-volume loops were obtained by insertion of a 1.4-F conductance catheter into the left ventricle. Heart rate, stroke volume, and cardiac output were not significantly different between wild-type and beta2M/alphaAsGM1 mice after CLP. However, beta2M/alphaAsGM1 mice exhibited improved mean arterial pressure and systemic vascular resistance compared with wild-type mice. Myocardial function was also better preserved in beta2M/alphaAsGM1 mice as indicated by improved left ventricular pressure development over time, time-varying maximum elastance, endsystolic pressure-volume relationship, and preload recruitable stroke work. Overall, this study shows that cardiovascular collapse characterized by hypotension, myocardial depression, and low systemic vascular resistance occurs after CLP in wild-type mice. However, beta2M/alphaAsGM1 mice exhibit improved hemodynamics and cardiac contractile function after CLP that may account, in part, for our previously observed survival benefit.     

Myocardial infarct in rats: right ventricular hypertrophy as a criterion of postinfarct left ventricular heart failure

The course of experimental myocardial infarction was accompanied by the growth response of the right ventricle (RV) in some rats. Rats with RV hypertrophy unlike ones without RV hypertrophy had depressed cardiac contraction force and velocity at rest as well as a minimal capacity to respond to functional stress. Dibunol (butylhydroxytoluene, 30 mg/kg) prevented the depression of cardiac contractility and RV growth. RV hypertrophy in the rats following left coronary artery ligation is the consequence of the left ventricle pump failure and resultant pulmonary hypertension. RV hypertrophy may be proposed as an index of postinfarct heart failure and its reduction as an index of the cardioprotective effect of various pharmacological interventions.     

Effects of lethal levels of environmental hypercapnia on cardiovascular and blood-gas status in yellowtail,Seriola quinqueradiata

The cardiorespiratory responses were examined in yellowtail, Seriola quinqueradiata exposed to two levels of hypercapnia (seawater equilibrated with a gas mixture containing 1% CO(2) (water PCO(2) = 7 mmHg) or 5% CO(2) (38 mmHg)) for 72 hr at 20 degrees C. Mortality was 100% within 8 hr at 5% CO(2), while no fish died at 1% CO(2). No cardiovascular variables (cardiac output, Q; heart rate, HR; stroke volume, SV and arterial blood pressure, BP) significantly changed from pre-exposure values during exposure to 1% CO(2). Arterial CO(2) partial pressure (PaCO(2)) significantly increased (P < 0.05), reaching a new steady-state level after 3 hr. Arterial blood pH (pHa) decreased initially (P < 0.05), but was subsequently restored by elevation of plasma bicarbonate ([HCO(3)(-)]). Arterial O(2) partial pressure (PaO(2)), oxygen content (CaO(2)), and hematocrit (Hct) were maintained throughout the exposure period. In contrast, exposure to 5% CO(2) dramatically reduced Q (P < 0.05) through decreasing SV (P < 0.05), although HR did not change. BP was transiently elevated (P < 0.05), followed by a precipitous fall before death. The pHa was restored incompletely despite a significant increase in [HCO(3)(-)]. PaO(2) decreased only shortly before death, whereas CaO(2) kept elevated due to a large increase in Hct (P < 0.05). We tentatively conclude that cardiac failure is a primary physiological disorder that would lead to death of fish subjected to high environmental CO(2) pressures.     

Long-term mineralocorticoid receptor blockade reduces fibrosis and improves cardiac performance and coronary hemodynamics in elderly SHR

Aldosterone has been implicated as one of the mediators of cardiovascular injury in various diseases. This study examines whether mineralocorticoid antagonism ameliorates or prevents the adverse cardiac effects of hypertension and aging. Male 22-wk-old spontaneously hypertensive rats (SHR) were divided into two groups, 15 rats in each. One group received no treatment; the other was given eplerenone ( approximately 100 mg.kg(-1).day(-1)). At the age of 54 wk, indexes of cardiovascular mass, systemic and regional hemodynamics, including coronary, left ventricular function, and myocardial collagen content, were determined in all rats. Hemodynamic studies were done in conscious rats. Arterial pressure was lowered only slightly in eplerenone-treated rats, and cardiac output and total peripheral resistance did not differ from control rats. Left and right ventricular and aortic mass indexes were unaffected by eplerenone; however, concentration of hydroxyproline in the right and left ventricle was decreased significantly (P < 0.05) by eplerenone. This was accompanied by an improvement in left ventricular diastolic function and coronary hemodynamics. In conclusion, long-term therapy with the mineralocorticoid receptor antagonist eplerenone ameliorated adverse cardiac effects of both hypertension and aging in SHR. Thus reduction in myocardial fibrosis, paralleled by improvements in left ventricular function and coronary hemodynamics, was observed in eplerenone-treated SHR.     

Muscle metaboreflex control of ventricular contractility during dynamic exercise

When oxygen delivery to active skeletal muscle is insufficient for the metabolic demands, afferent nerves within muscles are activated, which elicit reflex increases in heart rate (HR), cardiac output (CO), and arterial pressure (AP), termed the muscle metaboreflex (MMR). To what extent the increases in CO are the result of increased ventricular contractility is unclear. A widely accepted index of contractility is maximal left ventricular elastance (Emax), the slope of the end-systolic pressure-volume relationship, such as during rapidly imposed reductions in preload. The objective of the present study was to determine whether MMR activation elicits increases in Emax. Experiments were performed using conscious dogs chronically instrumented to measure left ventricular pressure and volume at rest and during mild or moderate treadmill exercise with and without partial hindlimb ischemia to elicit MMR responses. At both workloads, MMR activation significantly increased CO, HR, AP, and maximum rate of change of left ventricular pressure. During both mild and moderate exercise, MMR activation increased Emax to 159.6 +/- 8.83 and 155.8 +/- 6.32% of the exercise value under free-flow conditions, respectively. We conclude that the increase of ventricular elastance associated with MMR activation indicates that a substantial increase in ventricular contractility contributes to the rise in CO during dynamic exercise.     

Hypertonic sodium resuscitation after hemorrhage improves hemodynamic function by stimulating cardiac, but not renal, sympathetic nerve activity

Small volume hypertonic saline resuscitation can be beneficial for treating hemorrhagic shock, but the mechanism remains poorly defined. We investigated the effects of hemorrhagic resuscitation with hypertonic saline on cardiac (CSNA) and renal sympathetic nerve activity (RSNA) and the resulting cardiovascular consequences. Studies were performed on conscious sheep instrumented with cardiac (n=7) and renal (n=6) sympathetic nerve recording electrodes and a pulmonary artery flow probe. Hemorrhage (20 ml/kg over 20 min) caused hypotension and tachycardia followed by bradycardia, reduced cardiac output, and abolition of CSNA and RSNA. Resuscitation with intravenous hypertonic saline (1.2 mol/l at 2 ml/kg) caused rapid, dramatic increases in mean arterial pressure, heart rate, and CSNA, but had no effect on RSNA. In contrast, isotonic saline resuscitation (12 ml/kg) had a much delayed and smaller effect on CSNA, less effect on mean arterial pressure, no effect on heart rate, but stimulated RSNA, although the plasma volume expansion was similar. Intracarotid infusion of hypertonic saline (1 ml/min bilaterally, n=5) caused similar changes to intravenous administration, indicating a cerebral component to the effects of hypertonic saline. In further experiments, contractility (maximum change in pressure over time), heart rate, and cardiac output increased significantly more with intravenous hypertonic saline (2 ml/kg) than with Gelofusine (6 ml/kg) after hemorrhage; the effects of hypertonic saline were attenuated by the β-receptor antagonist propranolol (n=6). These results demonstrate a novel neural mechanism for the effects of hypertonic saline resuscitation, comprising cerebral stimulation of CSNA by sodium chloride to improve cardiac output by increasing cardiac contractility and rate and inhibition of RSNA.     

Haemodynamic effects of beta-adrenergic blockade in hyperthyroid patients with and without heart failure.

Haemodynamic studies were performed in 10 patients with uncomplicated thyrotoxicosis and seven with thyrotoxic cardiac failure. The cardiac output of those with uncomplicated hyperthyroidism was higher than normal at rest. After 2 mg of intravenous propranolol there was a 13% fall but the level was still higher than normal. In patients with thyrotoxic cardiac failure the resting cardiac output was normal, but it fell after propranolol by 30% to subnormal levels. In both groups there was an increase in right heart pressures and fall in the rate of increase in arterial pressure, which indicated a decrease in myocardial contractility. These results indicate that increased autonomic activity is a compensatory phenomenon in hyperthyroid heart failure and that its abolition by beta-blocking drugs has a deleterious effect on cardiac function. They are therefore contraindicated in patients with thyrotoxic heart failure.