The cardiovascular effect of chloroquine in anaesthetized dogs

1980 ◽  
Vol 58 (7) ◽  
pp. 836-841 ◽  
Author(s):  
O. A. Sofola
Keyword(s):  
Maximum Rate ◽  
Intact Animal ◽  
Direct Action ◽  
Cardiac Contractility ◽  
Left Ventricular Pressure ◽  
Cardiovascular Responses ◽  
Left Ventricular ◽  
Constant Flow ◽  
Sympathetic Block ◽  
Maximum Rate Of Rise

Dogs were anaesthetized with sodium pentobarbitone and the effects, on the cardiovascular system, of graded doses of chloroquine were investigated.Intravenous injection of chloroquine from 2 to 4 mg kg−1 produced significant reductions in cardiac contractility, as estimated by measuring the maximum rate of rise of left ventricular pressure, and also in vascular resistance, estimated by measuring the pressure in a femoral artery perfused at constant flow. Heart rate was reduced significantly only when a dose of 4 mg kg−1 was used.The cardiovascular responses observed in the intact animal were also present after cardiac sympathetic block with propranolol and denervation of the limb or after administration of histamine H1 and H2 receptor antagonists. This suggests that the responses were due to the direct action of chloroquine on the heart and blood vessels.

Asymmetry in the control of cardiac performance by dorsomedial hypothalamus

2013 ◽  
Vol 304 (8) ◽  
pp. R664-R674 ◽  
Author(s):  
Carlos Henrique Xavier ◽  
Mirza Irfan Beig ◽  
Danielle Ianzer ◽  
Marco Antônio Peliky Fontes ◽  
Eugene Nalivaiko
Keyword(s):  
Heart Rate ◽  
Cardiac Contractility ◽  
Left Ventricular Pressure ◽  
Cardiovascular Responses ◽  
Left Ventricular ◽  
Adrenergic Blockade ◽  
Inotropic Effects ◽  
Dorsomedial Hypothalamus ◽  
Anesthetized Rats ◽  
Ectopic Beats

Dorsomedial hypothalamus (DMH) plays a key role in integrating cardiovascular responses to stress. We have recently reported greater heart rate responses following disinhibition of the right side of the DMH (R-DMH) in anesthetized rats and greater suppression of stress-induced tachycardia following inhibition of the R-DMH in conscious rats [both compared with similar intervention in the left DMH (L-DMH)], suggesting existence of right/left side asymmetry in controlling cardiac chronotropic responses by the DMH. The aim of the present study was to determine whether similar asymmetry is present for controlling cardiac contractility. In anesthetized rats, microinjections of the GABAA antagonist bicuculline methiodide (BMI; 40 pmol/100 nl) into the DMH-evoked increases in heart rate (HR), left ventricular pressure (LVP), myocardial contractility (LVdP/d t), arterial pressure, and respiratory rate. DMH disinhibition also precipitated multiple ventricular and supraventricular ectopic beats. DMH-induced increases in HR, LVP, LVdP/d t, and in the number of ectopic beats dependent on the side of stimulation, with R-DMH provoking larger responses. In contrast, pressor and respiratory responses did not depend on the side of stimulation. Newly described DMH-induced inotropic responses were rate-, preload- and (largely) afterload-independent; they were mediated by sympathetic cardiac pathway, as revealed by their sensitivity to β-adrenergic blockade. We conclude that recruitment of DMH neurons causes sympathetically mediated positive chronotropic and inotropic effects, and that there is an asymmetry, at the level of the DMH, in the potency to elicit these effects, with R-DMH > L-DMH.

Muscle metabolism and cardiac function of the myopathic hamster following training

1977 ◽  
Vol 43 (6) ◽  
pp. 936-941 ◽  
Author(s):  
W. L. Sembrowich ◽  
M. B. Knudson ◽  
P. D. Gollnick
Keyword(s):  
Skeletal Muscle ◽  
Cardiac Function ◽  
Myocardial Function ◽  
Cardiac Contractility ◽  
Muscle Metabolism ◽  
Left Ventricular Pressure ◽  
Left Ventricular ◽  
Treadmill Running ◽  
Succinate Dehydrogenase Activity ◽  
Positive Effect

The effect of 18 wk of treadmill running on skeletal muscle metabolism and myocardial function of normal and myopathic hamsters was examined. BIO 14.6 hamsters could tolerate an exercise intensity of about 18 m/min for 40 min, 5 days/wk. Further increases in speed or number of bouts per day resulted in a falloff in performance. Normal hamsters could tolerate higher speeds and longer exercise bouts. Exercise did not change the severity of lesions of either the heart or skeletal muscle of the myopathic hamsters. A training effect was evidenced by increased succinate dehydrogenase activity in the soleus muscle. Cardiac function was evaluated as contractility measured from left ventricular pressure curves and expressed as (dP/dt)/kP. The results suggested that cardiac contractility was not as severely depressed in the trained BIO 14.6 strain of hamsters as in nontrained controls. However, (dP/dt)/kP was lower in the trained myopathic animals than in normal hamsters. ATP, CP, and glycogen levels were lower in myopathic hamsters with the lowest values occurring in the trained group. These data demonstrate that the BIO 14.6 strain of hamster can tolerate exercise training and that such training may have a positive effect on cardiac function.

Effects of alpha-adrenergic blockade on cardiovascular responses to static exercise in cats

1986 ◽  
Vol 250 (1) ◽  
pp. R1-R4
Author(s):  
T. G. Waldrop ◽  
M. Bielecki ◽  
W. J. Gonyea ◽  
J. H. Mitchell
Keyword(s):  
Systolic Pressure ◽  
Left Ventricular Pressure ◽  
Cardiovascular Responses ◽  
Left Ventricular ◽  
Adrenergic Blockade ◽  
Static Exercise ◽  
Ventricular Systolic Pressure ◽  
Pressure Transducers ◽  
Adrenergic Mechanism ◽  
Alpha Blockade

Static exercise performed by conscious cats elicits increases in heart rate (HR), left ventricular systolic pressure (LVSP), and the maximal rate of left ventricular pressure development [LV(dP/dt)max]. The increased HR is mediated primarily by withdrawal of parasympathetic tone, whereas a beta-adrenergic mechanism is responsible for the LV(dP/dt)max increase. In the present study the cardiovascular responses to static exercise in awake cats was recorded before and after alpha-adrenergic blockade. Pressure transducers were implanted into the left ventricle of cats who had been trained operantly to perform static exercise. Significant increases in LVSP, LV(dP/dt)max and HR occurred in all cats during static exercise before blockade. In contrast, alpha-adrenergic blockade (phentolamine, 2.5 mg/kg iv) abolished the exercise-induced increase in LVSP but did not prevent increases in HR and LV(dP/dt)max. The cats performed fewer exercise bouts per day during alpha-blockade than when unblocked. We conclude that an alpha-adrenergic mechanism mediates the increase in LVSP in response to static exercise in conscious cats.

Chronic alcohol-induced changes in cardiac contractility are not due to changes in the cytosolic Ca2+ transient

1998 ◽  
Vol 275 (1) ◽  
pp. H122-H130 ◽  
Author(s):  
Vincent M. Figueredo ◽  
Kevin C. Chang ◽  
Anthony J. Baker ◽  
S. Albert Camacho
Keyword(s):  
Cardiac Contractility ◽  
Left Ventricular Pressure ◽  
Alcohol Exposure ◽  
Left Ventricular ◽  
Polyacrylamide Gel ◽  
Chronic Alcohol ◽  
Protein Levels ◽  
Chronic Alcohol Exposure ◽  
Induced Changes ◽  
And Control

Long-standing heavy alcohol consumption acts as a chronic stress on the heart. It is thought that alcohol-induced changes of contractility are due to altered Ca2+ handling, but no measurements of cytosolic Ca2+([Ca2+]c) after chronic alcohol exposure have been made. Therefore experiments were performed to determine whether alcohol-induced changes in contractility are due to altered Ca2+ handling by measuring [Ca2+]c(indo 1) in hearts from rats drinking 36% ethanol for 7 mo and age-matched controls. Peak left ventricular pressure was depressed (−16%), whereas rates of contraction (12%) and relaxation (14–20%) were faster in alcohol-exposed hearts. Systolic [Ca2+]c(808 ± 45 vs. 813 ± 45 nM), diastolic [Ca2+]c(195 ± 11 vs. 193 ± 10 nM), and rates of [Ca2+]crise and decline were the same in alcohol-exposed and control hearts. Protein levels of Ca2+-handling proteins, sarcoplasmic reticulum Ca2+-ATPase and phospholamban, were the same in myocytes isolated from alcohol-exposed and control hearts (SDS-polyacrylamide gel). These data suggest that chronic alcohol-induced contractile changes are not due to altered Ca2+ handling but may be due to changes at the level of the myofilament. As a first step in elucidating the mechanism(s) of alcohol-induced changes at the myofilament, we assessed myosin heavy chain (MHC) isoform content (SDS-polyacrylamide gel). α-MHC was decreased relative to β-MHC ( a/ a+ b = 0.55 ± 0.03 vs. 0.66 ± 0.02; P < 0.02) in alcohol-exposed hearts, which cannot account for the observed alcohol-induced contractile changes. In conclusion, changes of myocardial contractility due to chronic alcohol exposure do not result from altered Ca2+ handling but from changes at the level of the myofilament that do not involve MHC isoform shifts.

Role of spinal NK1 receptors in cardiovascular responses to chemical stimulation of the gallbladder

1995 ◽  
Vol 268 (2) ◽  
pp. H526-H534 ◽  
Author(s):  
H. L. Pan ◽  
A. C. Bonham ◽  
J. C. Longhurst
Keyword(s):  
Intrathecal Injection ◽  
Left Ventricular Pressure ◽  
Cardiovascular Responses ◽  
Pressure Change ◽  
Left Ventricular ◽  
Chemical Stimulation ◽  
Intrathecal Catheter ◽  
Nk1 Receptors ◽  
Stimulation Of

The present study examined the role of substance P (SP) as a sensory neurotransmitter in cardiovascular responses to bradykinin applied on the gallbladder. Experiments were performed in anesthetized cats in which sympathetic chains were transected at the T5-T6 level, and the tip of the intrathecal catheter was positioned at T6-T7 to limit the injectate between T6 and L2. Bradykinin (10 micrograms/ml) was applied onto the gallbladder before and after intrathecal injection of [D-Pro2,D-Phe7,D-Trp9]SP (100–200 micrograms, NK1/NK2-receptor antagonist), CP-99,994 (50–100 micrograms, selective NK1 antagonist), MEN-10,376 (100–500 micrograms, selective NK2 antagonist), or vehicle. Intrathecal injection of NK1 but not NK2 antagonist significantly reduced increases in mean arterial pressure, heart rate, and maximal rate of left ventricular pressure change by 28 +/- 2 mmHg (33 +/- 4%), 4 +/- 1 beats/min (42 +/- 5%), and 497 +/- 46 mmHg/s (36 +/- 4%), respectively. Intrathecal injection of NK1 or NK1/NK2 antagonist had no effect on cardiovascular responses evoked by electrical stimulation in the rostral ventral lateral medulla. These data suggest that endogenous SP, acting as a sensory neurotransmitter, is involved in the excitatory cardiovascular reflex caused by chemical stimulation of the gallbladder through its action on NK1 receptors in the spinal cord.

Developmental changes in cardiac contractility in fetal and postnatal sheep: in vitro and in vivo

1984 ◽  
Vol 247 (3) ◽  
pp. H371-H379 ◽  
Author(s):  
P. A. Anderson ◽  
K. L. Glick ◽  
A. Manring ◽  
C. Crenshaw
Keyword(s):  
Maximum Rate ◽  
Diastolic Pressure ◽  
Systolic Pressure ◽  
Left Ventricular ◽  
Developmental Changes ◽  
Common Mechanism ◽  
Postextrasystolic Potentiation ◽  
Maximum Rate Of Rise

Developmental changes in contractility were sought in the fetal and postnatal sheep heart by using postextrasystolic potentiation and force, pressure, and wall-motion measures. Two different preparations were used, isolated myocardium and the chronically instrumented lamb. In the isolated muscle, the following increased significantly with age: force of contraction, the maximum rate of rise of force, and postextrasystolic potentiation. In the intact heart prior to birth [period of study, 20 +/- 4 (SD) days] heart rate (HR) fell significantly, and the following increased significantly: postextrasystolic potentiation [measured with the maximum rate of rise of left ventricular (LV) pressure (Pmax)], LV peak systolic pressure (LVP), end-diastolic dimension (EDD), end-systolic dimension (ESD), and aortic diastolic pressure. After birth, LVP, Pmax, HR, LVEDP, EDD, and ESD increased and postextrasystolic potentiation fell. The latter fall was not found in vitro and probably demonstrates a transient change in contractility, related to hormonal or neural stimulation. Over the subsequent postnatal days (6-122 days), HR fell while potentiation, EDD, and ESD increased significantly. Both in vitro and in vivo, the overall increase in postextrasystolic potentiation demonstrates a similar long-term change in contractility. The similarity of this change to that induced by mild hypertrophy suggests that development and mild hypertrophy alter myocardial contractility through a common mechanism.

Hemodynamic alterations in chronically conscious unrestrained diabetic rats

1987 ◽  
Vol 252 (5) ◽  
pp. H900-H905 ◽  
Author(s):  
L. F. Carbonell ◽  
M. G. Salom ◽  
J. Garcia-Estan ◽  
F. J. Salazar ◽  
M. Ubeda ◽  
...  
Keyword(s):  
Weight Control ◽  
Insulin Treatment ◽  
Cardiac Contractility ◽  
Peripheral Resistance ◽  
Left Ventricular Pressure ◽  
Diabetic Rats ◽  
Left Ventricular ◽  
Diabetic State ◽  
Hemodynamic State ◽  
Male Wistar Rats

Important cardiovascular dysfunctions have been described in streptozotocin (STZ)-diabetic rats. To determine the influence of these changes on the hemodynamic state and whether insulin treatment can avoid them, different hemodynamic parameters, obtained by the thermodilution method, were studied in STZ-induced (65 mg/kg) diabetic male Wistar rats, as well as in age-control, weight-control, and insulin-treated diabetic ones. All rats were examined in the conscious, unrestrained state 12 wk after induction of diabetes or acidified saline (pH 4.5) injection. At 12 wk of diabetic state most important findings were normotension, high blood volume, bradycardia, increase in stroke volume, cardiac output, and cardiosomatic ratio, and decrease in total peripheral resistance and cardiac contractility and relaxation (dP/dtmax and dP/dtmin of left ventricular pressure curves). The insulin-treated diabetic rats did not show any hemodynamic differences when compared with the control animals. These results suggest that important hemodynamic alterations are present in the chronic diabetic state, possibly conditioning congestive heart failure. These alterations can be prevented by insulin treatment.

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