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1.
Divergent roles of plasma osmolality and the baroreflex on sweating and skin blood flow.
Lynn, AG, Gagnon, D, Binder, K, Boushel, RC, Kenny, GP
American journal of physiology. Regulatory, integrative and comparative physiology. 2012;(5):R634-42
Abstract
Plasma hyperosmolality and baroreceptor unloading have been shown to independently influence the heat loss responses of sweating and cutaneous vasodilation. However, their combined effects remain unresolved. On four separate occasions, eight males were passively heated with a liquid-conditioned suit to 1.0°C above baseline core temperature during a resting isosmotic state (infusion of 0.9% NaCl saline) with (LBNP) and without (CON) application of lower-body negative pressure (-40 cmH2O) and during a hyperosmotic state (infusion of 3.0% NaCl saline) with (LBNP + HYP) and without (HYP) application of lower-body negative pressure. Forearm sweat rate (ventilated capsule) and skin blood flow (laser-Doppler), as well as core (esophageal) and mean skin temperatures, were measured continuously. Plasma osmolality increased by ∼10 mosmol/kgH2O during HYP and HYP + LBNP conditions, whereas it remained unchanged during CON and LBNP (P ≤ 0.05). The change in mean body temperature (0.8 × core temperature + 0.2 × mean skin temperature) at the onset threshold for increases in cutaneous vascular conductance (CVC) was significantly greater during LBNP (0.56 ± 0.24°C) and HYP (0.69 ± 0.36°C) conditions compared with CON (0.28 ± 0.23°C, P ≤ 0.05). Additionally, the onset threshold for CVC during LBNP + HYP (0.88 ± 0.33°C) was significantly greater than CON and LBNP conditions (P ≤ 0.05). In contrast, onset thresholds for sweating were not different during LBNP (0.50 ± 0.18°C) compared with CON (0.46 ± 0.26°C, P = 0.950) but were elevated (P ≤ 0.05) similarly during HYP (0.91 ± 0.37°C) and LBNP + HYP (0.94 ± 0.40°C). Our findings show an additive effect of hyperosmolality and baroreceptor unloading on the onset threshold for increases in CVC during whole body heat stress. In contrast, the onset threshold for sweating during heat stress was only elevated by hyperosmolality with no effect of the baroreflex.
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2.
Inhibition of KATP channel activity augments baroreflex-mediated vasoconstriction in exercising human skeletal muscle.
Keller, DM, Ogoh, S, Greene, S, Olivencia-Yurvati, A, Raven, PB
The Journal of physiology. 2004;(Pt 1):273-82
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Abstract
In the present investigation we examined the role of ATP-sensitive potassium (K(ATP)) channel activity in modulating carotid baroreflex (CBR)-induced vasoconstriction in the vasculature of the leg. The CBR control of mean arterial pressure (MAP) and leg vascular conductance (LVC) was determined in seven subjects (25 +/- 1 years, mean +/- S.E.M.) using the variable-pressure neck collar technique at rest and during one-legged knee extension exercise. The oral ingestion of glyburide (5 mg) did not change mean arterial pressure (MAP) at rest (86 versus 89 mmHg, P > 0.05), but did appear to increase MAP during exercise (87 versus 92 mmHg, P = 0.053). However, the CBR-MAP function curves were similar at rest before and after glyburide ingestion. The CBR-mediated decrease in LVC observed at rest (approximately 39%) was attenuated during exercise in the exercising leg (approximately 15%, P < 0.05). Oral glyburide ingestion partially restored CBR-mediated vasoconstriction in the exercising leg (approximately 40% restoration, P < 0.05) compared to control exercise. These findings indicate that K(ATP) channel activity modulates sympathetic vasoconstriction in humans and may prove to be an important mechanism by which functional sympatholysis operates in humans during exercise.
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Sympathetic and baroreflex function in hypertensive or heart failure patients with ventricular arrhythmias.
Grassi, G, Seravalle, G, Dell'Oro, R, Facchini, A, Ilardo, V, Mancia, G
Journal of hypertension. 2004;(9):1747-53
Abstract
OBJECTIVE To determine whether in hypertension and in heart failure the occurrence of ventricular arrhythmias is associated with alterations in sympathetic drive and baroreflex function. DESIGN AND METHODS We studied 28 untreated essential hypertensives (age, 53.0 +/- 1.1 years, mean +/- standard error of the mean), 15 without and 13 with monofocal premature ventricular contractions (PVCs) in Lown class I, and 30 heart failure patients (age, 53.8 +/- 1.3 years) in New York Health Association class II-III, 17 without and 13 with PVCs also in Lown class I. In each patient we measured, along with echocardiographic variables, the beat-to-beat mean blood pressure (Finapress), heart rate (HR) (EKG), muscle sympathetic nerve traffic (MSNA) (microneurography), venous plasma norepinephrine and renin activity (high-pressure liquid chromatography and radioimmunoassay, respectively). Measurements were performed at rest and during arterial baroreceptor stimulation and deactivation via stepwise intravenous infusion of phenylephrine and nitroprusside, respectively. RESULTS The mean blood pressure, HR and MSNA were similar in hypertensive patients without and with PVCs. However, compared with non-arrhythmic patients, hypertensives with PVCs displayed a baroreflex-HR and baroreflex-MSNA modulation reduced by 27.7 +/- 4.2 and 17.9 +/- 2.8%, respectively (P < 0.05). Heart failure patients with PVCs showed haemodynamic and echocardiographic variables superimposable to those without PVCs. Compared with these patients, however, they exhibited a significant increase in MSNA values (75.8 +/- 3.0 versus 63.6 +/- 2.8 bs/100 hb, P < 0.05), coupled with a significant impairment in baroreflex-HR and baroreflex-MSNA control (-52.5 +/- 5.4 and -37.5 +/- 3.6%, P < 0.01). CONCLUSIONS These data provide evidence that in both hypertension and heart failure, sympathetic and baroreflex mechanisms exert a pro-arrhythmogenic role. This role, however, appears to be more pronounced in heart failure than in hypertension, in which the impaired vagal function may exert a concomitant favouring effect.
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Exercise training improves baroreflex sensitivity in type 2 diabetes.
Loimaala, A, Huikuri, HV, Kööbi, T, Rinne, M, Nenonen, A, Vuori, I
Diabetes. 2003;(7):1837-42
Abstract
Type 2 diabetes is a strong risk factor for coronary heart disease and sudden cardiac death. It is associated with reduced baroreflex sensitivity (BRS) and heart rate variability (HRV), which are indicators of increased risk for mortality and morbidity in various patient populations. This study was designed to assess the effects of exercise training on BRS, HRV, and hemodynamics in patients with type 2 diabetes. Subjects (50 men, mean age 53.3 +/- 5.1 years) with type 2 diabetes were randomized into either a control group, in which they received conventional treatment only, or an exercise group, in which they received conventional treatment together with heart rate-controlled endurance training twice a week and supervised muscle strength training twice a week for 12 months. Measurements taken at baseline and follow-up included VO(2max), standard time and frequency domain measures of HRV during 24-h recording, and BRS by the phenylephrine method. Cardiac index, systemic vascular resistance index, stroke index, and pulse wave velocity were measured by whole-body impedance cardiography. Significant improvements in VO(2max) (exercise group: +2.3 ml x kg(-1) x min(-1); P < 0.005 vs. control group), muscle strength, and glycemic control (exercise group: HbA(1c) -0.9%; P < 0.001 vs. control group) were observed in the exercise group. BRS increased in the exercise group, from 6.8 to 8.6 ms/mmHg, and decreased in the control group, from 7.5 to 6.4 ms/mmHg (95% CI for the difference between 0.05 and 4.36 ms/mmHg; P < 0.05). No significant changes in the time or frequency domain measures of HRV or in systemic hemodynamics were observed. We concluded that exercise training improves BRS sensitivity in type 2 diabetes subjects in addition to increasing the exercise capacity and muscle strength and improving glucose control. These beneficial effects in reflectory autonomic regulation and glucose control caused by exercise may be associated with improved prognosis of type 2 diabetes patients.
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Clonidine improves postprandial baroreflex control in familial dysautonomia.
Marthol, H, Tutaj, M, Brys, M, Brown, CM, Hecht, MJ, Berlin, D, Axelrod, FB, Hilz, MJ
European journal of clinical investigation. 2003;(10):912-8
Abstract
BACKGROUND Patients with familial dysautonomia (FD) frequently experience hypertensive crises after gastrostomy feeding. The central alpha2-agonist clonidine attenuates feeding-induced crises. The aim of this study was to assess the effect of clonidine on cardiovascular autonomic modulation and particularly baroreflex sensitivity in familial dysautonomia after gastrostomy feeding. MATERIAL AND METHODS In nine patients, we monitored the RR-interval and systolic blood pressure at supine rest before (baseline 1) and after gastrostomy feeding (GF1). One day later, recordings were repeated after clonidine intake (baseline 2, GF2). We determined spectral powers of RR-interval and systolic blood pressure in the low- (LF) and high-frequency range (HF). Sympathovagal balance was determined from the LF/HF ratio of RR-interval. Baroreflex sensitivity was assessed from the alpha-index of systolic blood pressure and RR-interval. RESULTS Gastrostomy feeding decreased RR-interval, while systolic blood pressure remained stable. Clonidine induced higher RR-intervals before and after gastrostomy feeding but decreased systolic blood pressure at baseline only. Gastrostomy feeding decreased HF-power of RR-interval significantly without clonidine, but only slightly after premedication. Clonidine increased the HF-power of RR-interval slightly at baseline and significantly after gastrostomy feeding. Gastrostomy feeding increased the LF/HF ratio without clonidine only. Clonidine decreased the LF/HF ratio at baseline and after gastrostomy feeding. Gastrostomy feeding did not change baroreflex sensitivity, but baroreflex sensitivity was higher at visit 2 than visit 1. CONCLUSIONS In familial dysautonomia, clonidine augments baroreflex sensitivity and parasympathetic modulation. The resulting cardiovascular stabilization might attenuate feeding-induced crises.
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Baroreflex buffering and susceptibility to vasoactive drugs.
Jordan, J, Tank, J, Shannon, JR, Diedrich, A, Lipp, A, Schröder, C, Arnold, G, Sharma, AM, Biaggioni, I, Robertson, D, et al
Circulation. 2002;(12):1459-64
Abstract
BACKGROUND The overall effect of vasoactive drugs on blood pressure is determined by a combination of the direct effect on vascular tone and an indirect baroreflex-mediated effect, a baroreflex buffering of blood pressure. Differences in baroreflex function affect the responsiveness to vasoactive medications, particularly baroreflex buffering of blood pressure; however, the magnitude is not known. METHODS AND RESULTS We characterized baroreflex function and responses to vasoactive drugs in patients with idiopathic orthostatic intolerance, patients with essential hypertension, patients with monogenic hypertension and brachydactyly, patients with multiple system atrophy, and control subjects. We used phenylephrine sensitivity during ganglionic blockade as a measure of baroreflex buffering. Phenylephrine (25 microg) increased systolic blood pressure 6+/-1.6 mm Hg in control subjects, 6+/-1.1 mm Hg in orthostatic intolerance patients, 18+/-3.9 mm Hg in patients with essential hypertension, 31+/-3.4 mm Hg in patients with monogenic hypertension, and 25+/-3.4 mm Hg in patients with multiple system atrophy. Similar differences in sensitivities between groups were observed with nitroprusside. The sensitivity to vasoactive drugs was highly correlated with baroreflex buffering function and to a lesser degree with baroreflex control of heart rate. In control subjects, sensitivities to nitroprusside and phenylephrine infusions were correlated with baroreflex heart rate control and sympathetic nerve traffic. CONCLUSIONS Our findings are consistent with an important effect of baroreflex blood pressure buffering on the sensitivity to vasoactive drugs. They suggest that even moderate changes in baroreflex function may have a substantial effect on the sensitivity to vasoactive medications.
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Effects of chronic clonidine administration on sympathetic nerve traffic and baroreflex function in heart failure.
Grassi, G, Turri, C, Seravalle, G, Bertinieri, G, Pierini, A, Mancia, G
Hypertension (Dallas, Tex. : 1979). 2001;(2):286-91
Abstract
Congestive heart failure is characterized by a sympathetic activation that is coupled with a baroreflex impairment. Whether these alterations are affected by clonidine is unknown. In 26 normotensive patients age 58.0+/-1.1 years (mean+/-SEM) affected by congestive heart failure (New York Heart Association functional class II or III) and treated with furosemide and enalapril, we measured mean arterial pressure, heart rate, venous plasma norepinephrine, and muscle sympathetic nerve traffic (microneurography) at rest and during baroreceptor stimulation and deactivation caused by stepwise intravenous infusions of phenylephrine and nitroprusside, respectively. Measurements were repeated after a 2-month administration of transdermal clonidine patch (14 patients) or placebo (12 patients) according to a double-blind, randomized sequence. Clonidine caused a slight, nonsignificant reduction in mean arterial pressure and heart rate without affecting exercise capacity and echocardiographically determined left ventricular ejection fraction. In contrast, both plasma norepinephrine and sympathetic nerve traffic were significantly reduced (-46.8% and -26.7%, respectively; P<0.01 for both). This reduction was coupled with no change in cardiac and sympathetic baroreflex responses. Transdermal placebo administration for a 2-month period did not affect any of the above-mentioned variables. Thus, in congestive heart failure patients who are undergoing conventional drug treatment, chronic clonidine administration exerts marked sympathoinhibitory effects without adversely affecting cardiac functions and clinical state. Whether this leads to further therapeutic benefits remains to be tested.
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Baroreflex modulation of muscle sympathetic nerve activity during posthandgrip muscle ischemia in humans.
Cui, J, Wilson, TE, Shibasaki, M, Hodges, NA, Crandall, CG
Journal of applied physiology (Bethesda, Md. : 1985). 2001;(4):1679-86
Abstract
To identify whether muscle metaboreceptor stimulation alters baroreflex control of muscle sympathetic nerve activity (MSNA), MSNA, beat-by-beat arterial blood pressure (Finapres), and electrocardiogram were recorded in 11 healthy subjects in the supine position. Subjects performed 2 min of isometric handgrip exercise at 40% of maximal voluntary contraction followed by 2.5 min of posthandgrip muscle ischemia. During muscle ischemia, blood pressure was lowered and then raised by intravenous bolus infusions of sodium nitroprusside and phenylephrine HCl, respectively. The slope of the relationship between MSNA and diastolic blood pressure was more negative (P < 0.001) during posthandgrip muscle ischemia (-201.9 +/- 20.4 units. beat(-1). mmHg(-1)) when compared with control conditions (-142.7 +/- 17.3 units. beat(-1). mmHg(-1)). No significant change in the slope of the relationship between heart rate and systolic blood pressure was observed. However, both curves shifted during postexercise ischemia to accommodate the elevation in blood pressure and MSNA that occurs with this condition. These data suggest that the sensitivity of baroreflex modulation of MSNA is elevated by muscle metaboreceptor stimulation, whereas the sensitivity of baroreflex of modulate heart rate is unchanged during posthandgrip muscle ischemia.
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Controlled 5-mo aerobic training improves heart rate but not heart rate variability or baroreflex sensitivity.
Loimaala, A, Huikuri, H, Oja, P, Pasanen, M, Vuori, I
Journal of applied physiology (Bethesda, Md. : 1985). 2000;(5):1825-9
Abstract
Endurance-trained athletes have increased heart rate variability (HRV), but it is not known whether exercise training improves the HRV and baroreflex sensitivity (BRS) in sedentary persons. We compared the effects of low- and high-intensity endurance training on resting heart rate, HRV, and BRS. The maximal oxygen uptake and endurance time increased significantly in the high-intensity group compared with the control group. Heart rate did not change significantly in the low-intensity group but decreased significantly in the high-intensity group (-6 beats/min, 95% confidence interval; -10 to -1 beats/min, exercise vs. control). No significant changes occurred in either the time or frequency domain measures of HRV or BRS in either of the exercise groups. Exercise training was not able to modify the cardiac vagal outflow in sedentary, middle-aged persons.