Changes in regional vascular resistance in response to microinjection of ?-glutamate into different antero-posterior coordinates of the RVLM in awake rats

In anesthetized, vagotomized cats with both carotid arteries occluded, a stretch of the walls of the thoracic aorta, performed without obstructing aortic flow, induced a significant reflex increase in arterial pressure (35 ± 2−26 ± 1 mmHg; systolic–diastolic). This pressure increase was accompanied by significant increases in peripheral resistance in the superior mesenteric (+30%), renal (+23%), and external iliac (+23%) vascular beds. The increase in iliac resistance observed in the skinned leg was comparable with that observed in the contralateral intact limb. All these vascular responses were drastically reduced by the administration of phenoxybenzamine. After α-adrenergic blockade no signs of reflex vasodilatation could be detected during aortic stretch in any of the vascular beds examined.

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PERIPHERAL CIRCULATORY RESPONSE TO FEEDING IN THE NEWBORN INFANT

PEDIATRICS ◽

10.1542/peds.47.2.378 ◽

1971 ◽

Vol 47 (2) ◽

pp. 378-383

Author(s):

Alice C. Yao ◽

C. Göran Wallgren ◽

Sachchida N. Sinha ◽

John Lind

Keyword(s):

Vascular Resistance ◽

Venous Occlusion ◽

Term Infants ◽

Significant Drop ◽

Circulatory Response ◽

Control Value ◽

Limb Perfusion ◽

Normal Term ◽

Regional Vascular Resistance ◽

Umbilical Arterial Catheter

The peripheral circulatory response to feeding was studied in 39 normal term infants, age ranging from 24 hours to 9 days. Blood flow to calf of left leg was measured by the venous occlusion plethysmographic method before and half hourly after feeding for 3 to 3½ hours. Arterial pressure was monitored in nine infants via an umbilical arterial catheter simultaneously and regional vascular resistance to flow in the leg calculated. Changes in pulse rate, and skin and rectal temperatures were also monitored. A significant drop in the calf perfusion averaging 49% of the control value was observed at the 30 minutes postprandial recording. This was due to an increased regional vascular resistance and blood pressure remained unchanged during the time of study. As a rule, a superseding hyperperfusion of the limb overshooting the control value by 40 to 50% occurred 1½ to 3 hours after feeding. This was comparable to the hyperkinetic phase described in adult man and other species after meals. The early postprandial vasoconstriction in the leg seems unique to the newborn. It is suggested that having the early circulatory demand provoked by feeding is relatively bigger in the newborn than in the adult and is met partly at the expense of lower limb perfusion.

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Mechanisms of pressor response produced by stimulation of nucleus ambiguus

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1990.259.5.r955 ◽

1990 ◽

Vol 259 (5) ◽

pp. R955-R962

Author(s):

B. H. Machado ◽

M. J. Brody

Keyword(s):

Arterial Pressure ◽

Vascular Resistance ◽

Pressor Response ◽

Nucleus Ambiguus ◽

Ventrolateral Medulla ◽

Pressor Responses ◽

Regional Vascular Resistance ◽

Parasympathetic Control ◽

Renal Vascular ◽

Stimulation Of

We showed previously that activation of nucleus ambiguus (NA) induced bradycardia and increased arterial pressure. In this study, we compared responses produced by electrical and chemical (glutamate) stimulation of NA and adjacent rostral ventrolateral medulla (RVLM). Equivalent pressor responses were elicited from both areas. However: 1) The response from RVLM was elicited at a lower frequency. 2) Regional vascular resistance changes were different, i.e., electrical stimulation of NA increased vascular resistance in hindquarters much more than the renal and mesenteric beds. In contrast, electrical and chemical stimulation of RVLM produced a more prominent effect on the renal vascular bed. 3) Bradycardia was elicited from NA at lower current intensity. 4) Glutamate produced bradycardia only when injected into NA. Studies in rats with sinoaortic deafferentation showed that bradycardic response to activation of NA was only partly reflex in origin. We conclude that 1) NA and RVLM control sympathetic outflow to regional vascular beds differentially and 2) the NA region involves parasympathetic control of heart rate and sympathetic control of arterial pressure.

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Effect of K ATP + channel inhibition on total and regional vascular resistance in guinea pig pregnancy

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1998.275.2.h680 ◽

1998 ◽

Vol 275 (2) ◽

pp. H680-H688 ◽

Cited By ~ 11

Author(s):

Linda Keyes ◽

David M. Rodman ◽

Douglas Curran-Everett ◽

Kenneth Morris ◽

Lorna G. Moore

Keyword(s):

Blood Pressure ◽

Blood Flow ◽

Cardiac Output ◽

Guinea Pig ◽

Vascular Resistance ◽

Coronary Vascular Resistance ◽

Ang Ii ◽

Channel Activity ◽

Vasoconstrictor Response ◽

Regional Vascular Resistance

Decreased vascular resistance and vasoconstrictor response during pregnancy enables an increase in cardiac output and regional blood flow to the uterine circulation. We sought to determine whether inhibition of vascular smooth muscle ATP-sensitive potassium ([Formula: see text]) channel activity during pregnancy increased systemic and/or regional vascular resistance and resistance response to ANG II. A total of 32 catheterized, awake, pregnant or nonpregnant guinea pigs were treated with either the [Formula: see text]channel inhibitor glibenclamide (3.5 mg/kg) or vehicle (DMSO) ( n = 8/group). In nonpregnant and pregnant animals, glibenclamide raised blood pressure and systemic, uterine, and coronary vascular resistance, diminishing cardiac output and organ blood flow. Glibenclamide produced a greater rise in coronary vascular resistance in the pregnant than nonpregnant groups and increased renal and cerebral vascular resistance in the pregnant animals only. ANG II infusion raised blood pressure and systemic and renal vascular resistance and lowered cardiac output and renal blood flow in vehicle-treated animals. Glibenclamide augmented ANG II-induced systemic vasoconstriction in the nonpregnant and pregnant groups and the rise in uteroplacental vascular resistance in the pregnant animals. We concluded that [Formula: see text] channel activity likely modulates systemic, uterine, and coronary vascular resistance and opposes ANG II-induced systemic vasoconstriction in nonpregnant and pregnant guinea pigs. Pregnancy augments[Formula: see text] channel activity in the uterine, coronary, renal, and cerebral vascular beds and the uteroplacental circulation during ANG II infusion. Thus increased[Formula: see text] channel activity appears to influence regional control of vascular resistance during guinea pig pregnancy but cannot account for the characteristic decrease in systemic vascular resistance and ANG II-induced systemic vasoconstrictor response.

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Heterogeneous effects of vasopressin, angiotensin II, adrenaline, and noradrenaline on regional vascular resistance in conscious rats.

The Japanese Journal of Pharmacology ◽

10.1016/s0021-5198(19)50952-0 ◽

1994 ◽

Vol 64 ◽

pp. 330

Author(s):

Yumi Takemoto ◽

Takushi X. Watanabe

Keyword(s):

Angiotensin Ii ◽

Vascular Resistance ◽

Conscious Rats ◽

Heterogeneous Effects ◽

Regional Vascular Resistance

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Regional vascular resistance during exercise: role of cardiac afferents and exercise training

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1990.258.3.h842 ◽

1990 ◽

Vol 258 (3) ◽

pp. H842-H847 ◽

Cited By ~ 13

Author(s):

S. E. DiCarlo ◽

V. S. Bishop

Keyword(s):

Exercise Training ◽

Vascular Resistance ◽

Endurance Exercise ◽

Vagal Afferents ◽

Inhibitory Influence ◽

Endurance Exercise Training ◽

Exercise Training Program ◽

Before And After ◽

Regional Vascular Resistance ◽

Cardiac Afferents

This study was designed to determine whether cardiac vagal afferents exert an inhibitory influence on increases in regional vascular resistance during exercise and to determine whether endurance exercise training enhances the inhibitory influence of cardiac vagal afferents. We measured changes in regional vascular resistance in 12 rabbits at rest and during running at 12.6 m/min, 20% grade, before and after reversible denervation of cardiac afferents (intrapericardial procainamide HCl, 2%). In addition, these procedures were repeated in five of these rabbits following an 8-wk endurance exercise training program. Because intrapericardial injections of procainamide anesthetize both the efferent as well as the afferent innervation to the heart, it was necessary to determine the effects of blocking the efferent innervation on the regulation of regional vascular resistance during exercise. Rabbits were instrumented with Doppler ultrasonic flow probes around the renal (R), mesenteric (M), ascending, and terminal aortic (TA) arteries. Catheters were positioned in the central ear artery and vein and pericardial sac. Mean arterial pressure, heart rate, cardiac output, R, M, TA, and systemic (S) resistances were determined. Exercise changed R (+37 +/- 4%), M (+88 +/- 9%), TA (-62 +/- 6%), and S (-34 +/- 3) resistances. Subsequent cardiac efferent blockade alone had no significant effect on regional vascular resistance during exercise. Combined efferent and afferent blockade resulted in significant increases in R (+62 +/- 6%) and M resistance (+134 +/- 13%) but did not alter TA (-51 +/- 4%) or S (-27 +/- 2%) resistance during exercise. Exercise training significantly enhanced the inhibitory influence of cardiac afferents on R and M regional vascular resistance.(ABSTRACT TRUNCATED AT 250 WORDS)

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