Many studies, concerning cardiovascular reactivity in hypertensives, show contrasting data. The aim of the present study was to check, also measuring extracardiovascular variables, a procedure able to identify a peculiar characteristic of the prehypertensive phase. We studied 47 normotensives, who referred high blood pressure values, but that we did not find in our visit. The cardioneurovascular assessment was evaluated, by means of a non invasive, beat to beat technique, measuring SBP, DBP, HR, muscular contraction and skin conductance level (EMG, SCL), peripheric temperature (PT), during a psychophysiologic session. This was composed by 4 stressors (mental arithmetic and Sacks test, acoustic and electric stimulations), 5 minutes each, preceded and followed by an observation period of 10 minutes. After 18 month follow-up, we could distinguish 26 hypertensives (H), and 21 subjects maintained normal blood pressure values (N). The obtained findings showed, with statistical significance, 1) the hyperresponsiveness of SCL and PT; 2) the failed recovery, with consequent hyperdysreactivity, of SCL and PT; 3) the presence of both these phenomena in the H., while SBP, DBP and HR responses did not result a discriminative tool. These data seem 1) to reinforce the hypothesis that a hypersympathetic phase can characterize the prehypertensive stages of essential hypertension and 2) to suggest the psychophysiological approach as a useful method to diagnose prehypertension. 相似文献
The aim of this study was to analyze the cardiovascular effects of chronic stanozolol administration in male rats. The rats were randomly assigned to one of three groups: (1) control (n=12), (2) chronic treatment with low dose of stanozolol (LD, n=18, 5 mg/kgweek) and; (3) treatment with high dose of stanozolol (HD, n=28, 20 mg/kgweek). Mean arterial pressure (MAP) was higher in both HD (128+/-2.2 mmHg) and LD (126+/-2.5 mmHg) than control (116+/-2 mmHg). The LD group showed an increase in cardiac output (control 121+/-2.5, LD 154+/-5.9 ml/min), whereas in the HD group total peripheral resistance increased (control 1.03+/-0.07, HD 1.26+/-0.07 mmHg/ml/min). Acute sympathetic blockade caused a similar decrease in MAP in all groups. In conscious rats, the baroreflex index for bradycardia (control -3.7+/-0.4, LD -2.0+/-0.1 beat/mmHg) and tachycardia (control -3.6+/-0.3, LD -4.7+/-0.2 beat/mmHg) responses changed only in the LD group. Cardiac hypertrophy was observed in both treated groups (P<0.05). In conclusion, hypertension with differential hemodynamic changes and alterations in the reflex control in heart rate is seen at different stanozolol doses, which may be important variables in the cardiovascular effects of anabolic steroids. 相似文献
The presence of left ventricular hypertrophy (LVH) in either hypertensives -H- or in normotensives -N-, suggests that not only blood pressure is determining this anatomic change, but various factors, as neural or endocrine ones, could be involved in its genesis. In order to evaluate the role of sympathetic dys-reactivity on LVH, we studied three groups of subjects: a) 12 -H- (SBP 159+/-9; DBP 99.6+/-7; FC 80+/-7) with LVH, diagnosed by echocardiogram. b) 12 -N- (SBP 138.2+/-8; DBP 83+/-2; FC 75.6+/-4) with LVH. c) 12 -N- (SBP 136.6+/-11; DBP 81.8+/-5; FC 76.3+/-5) without LVH. Using computer interfaced equipment, we measured beat to beat, hemodynamic and extra-cardiovascular autonomic functions, during a session of stressors (Mental Arithmetic, Color Word Stroop, Cold Pressure and Handgrip Tests), preceded and followed by 10' of observation. Among the various considered indexes, we evaluated the Percentual Total Activity Index (PTAI), as percentual total activity change + percentual total recovery change. Our findings point out that the PTAI of N with LVH is significantly higher for SCL, PHT, HR, SV, CO, TPR than either in H with LVH or N without LVH. These data seem to demonstrate a prolonged reactivity in N without LVH and are according to the hypothesis that LVH could also be supported by a hyper-adrenergic state with sympathetic dys-reactivity, independently from high blood pressure values. 相似文献
Management of cardiac surgery patients is a very standardized procedure in respective local institutions. Yet only very limited evidence exists concerning optimal indication, safety and efficacy of hemodynamic monitoring catecholamine and fluid therapy.
Methods
Between April and May 2013, all 81 German anaesthesia departments involved in cardiac surgery care were asked to participate in a questionnaire addressing the institutional specific current practice in hemodynamic monitoring, catecholamine and volume therapy.
Results
51 (63%) questionnaires were completed and returned. All participating centers used basic hemodynamic monitoring (i.e. invasive arterial blood pressure and central venous pressure), supplemented by transesophageal echocardiography. Pulmonary arterial catheter and calibrated trend monitoring devices were also routinely available. In contrast, non-calibrated trend monitoring and esophageal doppler ultrasound devices were not commonly in use. Cerebral oximetry is increasingly emerging, but lacks clear indications. The majority of patients undergoing cardiac surgery, especially in university hospitals, required catecholamines during perioperative care, In case of low cardiac output syndrome, dobutamine (32%), epinephrine (30%) or phosphodiesterase inhibitors (8%) were first choice. In case of hypotension following vasoplegia, norepinephrine (96%) represented the most common catecholamine. 88% of the participating centers reported regular use of colloid fluids, with hydroxyethyl starches (HES) being first choice (64%).
Conclusions
Choice of hemodynamic monitoring is homogenous throughout German centers treating cardiac surgery patients. Norepinephrine is the first line catecholamine in cases of decrease in peripheral vascular resistance. However, catecholamine choice for low cardiac output syndrome varies considerably. HES was the primary colloid used for fluid resuscitation. After conduct of this survey, HES use was restricted by European regulatory authorities in critically ill patients and should only be considered as second-line fluid in surgical patients without renal impairment or severe coagulopathy. Large clinical studies addressing catecholamine and fluid therapy in cardiac surgery patients are lacking. 相似文献
Experimental data on the effect of NO synthase inhibition on hemodynamic changes (blood pressure, cardiac output, and peripheral resistance) induced by an increased (polyglucin infusion) or decreased (orthostasis) cardiac output are presented. Under conditions of NO synthase inhibition, the pressor effects of polyglucin and orthostatic hypotension increased by 70 and 72%, respectively. The response of peripheral resistance had a similar trend. Significance of NO secretion by vascular endothelium for the development of systemic hemodynamic responses is proposed. 相似文献
In anaesthetised rats, effects of blockade of the NO-synthetase upon hemodynamic shifts were studied (arterial pressure, cardiac output, general peripheral vascular resistance), the shifts being evoked either by increase (infusion of polyglucon) or by decrease (orthostasis) in the cardiac output. Under the blockade of the NO-synthetase, the pressor effects of polyglucon increased by 27% and the orthostatic hypotension by 72%. Responses of general peripheral vascular resistance changed in the same direction. The findings suggest importance of the NO secretion by the vessels' endothelium for formation of the systemic hemodynamics responses. 相似文献
Hypercaloric diet ingestion and sedentary lifestyle result in obesity. Metabolic syndrome is a cluster of clinical features secondary to obesity, considered as a pre-diabetic condition and recognized as an independent risk factor for cardiovascular diseases. To better understand the relationship between obesity, metabolic syndrome and cardiovascular disease as well as for the development of novel therapeutic strategies, animal models that reproduce the etiology, course and outcomes of these pathologies are required. The aim of this work was to characterize the long-term effects of high-fat diet-induced obesity on the mice cardiovascular system, in order to make available a new animal model for diabetic cardiomyopathy.
Methods/Results
Male C57BL/6 mice were fed with a standardized high-fat diet (obese) or regular diet (normal) for 16 months. Metabolic syndrome was evaluated testing plasma glucose, triglycerides, cholesterol, insulin, and glucose tolerance. Arterial pressure was measured using a sphygmomanometer (non invasive method) and by hemodynamic parameters (invasive method). Cardiac anatomy was described based on echocardiography and histological studies. Cardiac function was assessed by cardiac catheterization under a stress test. Cardiac remodelling and metabolic biomarkers were assessed by RT-qPCR and immunoblotting. As of month eight, the obese mice were overweight, hyperglycaemic, insulin resistant, hyperinsulinemic and hypercholesterolemic. At month 16, they also presented normal arterial pressure but altered vascular reactivity (vasoconstriction), and cardiac contractility reserve reduction, heart mass increase, cardiomyocyte hypertrophy, cardiac fibrosis, and heart metabolic compensations. By contrast, the normal mice remained healthy throughout the study.
Conclusions
Mice fed with a high-fat diet for prolonged time recapitulates the etiology, course and outcomes of the early phases of human diabetic cardiomyopathy. 相似文献
Propranolol blood levels and the effect of these levels on hemodynamic parameters were evaluated in 25 patients with coronary artery disease undergoing cardiac catheterization and coronary angiography. Fifteen patients were receiving high doses of propranolol (320--1920 mg/day) while ten patients were receiving conventional doses (80--240 mg/day). The high dose propranolol group had significantly higher plasma propranolol levels than the conventional dose group (788 +/- 134 SD vs. 43 +/- 7.2 ng/ml SD), and there was a direct linear relationship between propranolol dose and plasma drug levels (r = 0.85, P < 0.001). There were no significant differences between high and conventional dose propranolol groups in terms of all hemodynamic parameters measured, namely ejection fraction, ventricular volume, cardiac index, or peripheral vascular resistance. Despite high drug dosage and blood levels, only mild side effects were seen. 相似文献
Cardiovascular responses of traditional resistance (TS) training have been extensively explored. However, the fatigue mechanisms associated with an intra-set rest configuration (ISR) have not been investigated. This study compares two modalities of set configurations for resistance exercise that equates work to rest ratios and measures the central and peripheral fatigue in combination with cortical, hemodynamic and cardiovascular measures.
Methods
11 subjects performed two isometric knee extension training sessions using TS and ISR configurations. Voluntary activation (VA), single twitch amplitude, low frequency fatigue (LFF), Mwave, motor evoked potential (MEP), short intracortical inhibition (SICI), intracortical facilitation (ICF) and heart rate variability were evaluated before and after each training session. During each session beat to beat heart rate, blood pressure and rate pressure product (RPP) were also evaluated.
Results
After exercise VA decreased significantly for TS but not for ISR (P < 0.001), single twitch amplitude and LFF values were lower for TS than ISR (P < 0.004), and SICI was reduced only for the TS configuration (P = 0.049). During exercise RPP values were significantly higher for the TS than for ISR (P = 0.001). RPP correlated with VA for TS (r = -.85 P < 0.001) suggesting a relationship between central fatigue and cardiovascular stress.
Conclusions
We conclude that ISR induced lower central and peripheral fatigue as well as lower cardiovascular stress in comparison with TS configuration. Our study suggests that set configuration is a key factor in the regulation of the neuromuscular and cardiovascular responses of resistance training. 相似文献
We present an evaluation of a novel technique for continuous (i.e., automatic) monitoring of relative cardiac output (CO) changes by long time interval analysis of a peripheral arterial blood pressure (ABP) waveform in humans. We specifically tested the mathematical analysis technique based on existing invasive and noninvasive hemodynamic data sets. With the former data set, we compared the application of the technique to peripheral ABP waveforms obtained via radial artery catheterization with simultaneous thermodilution CO measurements in 15 intensive care unit patients in which CO was changing because of disease progression and therapy. With the latter data set, we compared the application of the technique to noninvasive peripheral ABP waveforms obtained via a finger-cuff photoplethysmography system with simultaneous Doppler ultrasound CO measurements made by an expert in 10 healthy subjects during pharmacological and postural interventions. We report an overall CO root-mean-squared normalized error of 15.3% with respect to the invasive hemodynamic data set and 15.1% with respect to the noninvasive hemodynamic data set. Moreover, the CO errors from the invasive and noninvasive hemodynamic data sets were only mildly correlated with mean ABP (rho = 0.41, 0.37) and even less correlated with CO (rho = -0.14, -0.17), heart rate (rho = 0.04, 0.19), total peripheral resistance (rho = 0.38, 0.10), CO changes (rho = -0.26, -0.20), and absolute CO changes (rho = 0.03, 0.38). With further development and successful prospective testing, the technique may potentially be employed for continuous hemodynamic monitoring in the acute setting such as critical care and emergency care. 相似文献
Pregnant animals are less able to maintain mean arterial pressure (MAP) during hemorrhage compared with nonpregnant animals, but the hemodynamic basis of this difference is unknown. The hypothesis that pregnancy attenuates responses of cardiac output, as well as total peripheral resistance (TPR) and femoral conductance, to hemorrhage was tested in conscious rabbits in both the pregnant and nonpregnant state (n = 10). During continuous slow blood loss (2% of the initial blood volume per minute), MAP was maintained initially in both groups. However, MAP then abruptly decreased to <45 mmHg in all animals after a smaller percentage of the initial blood volume was removed in pregnant compared with nonpregnant rabbits (43.6 +/- 1.7%, nonpregnant; 29.6 +/- 2.2%, pregnant; P < 0.005). The more rapid transition to hypotension exhibited by pregnant rabbits was associated with greater initial falls in cardiac output (-56 +/- 10 ml/min, nonpregnant; -216 +/- 33 ml/min, pregnant; P < 0.005) and stroke volume (0.8 +/- 0.1 ml/beat, nonpregnant; -1.3 +/- 0.1 ml/beat, pregnant; P < 0.05). In addition, the increase in TPR as a function of the decrease in cardiac output was markedly attenuated (P < 0.0001) during pregnancy. Whereas femoral conductance decreased in nonpregnant rabbits, it did not change significantly in pregnant animals. In conclusion, the lesser ability of conscious pregnant rabbits to maintain MAP during hemorrhage is due largely to a greater decrease in cardiac output but also to inadequate reflex increases in TPR, possibly in part in the femoral vascular bed. 相似文献
Physical activity, exercise training, and fitness are associated with decreased cardiovascular risk. In the context that a risk factor "gap" exists in the explanation for the beneficial effects of exercise on cardiovascular disease, it has recently been proposed that exercise generates hemodynamic stimuli which exert direct effects on the vasculature that are antiatherogenic. In this review we briefly introduce some of the in vitro and in vivo evidence relating exercise hemodynamic modulation and vascular adaptation. In vitro data clearly demonstrate the importance of shear stress as a potential mechanism underlying vascular adaptations associated with exercise. Supporting this is in vivo human data demonstrating that exercise-mediated shear stress induces localized impacts on arterial function and diameter. Emerging evidence suggests that exercise-related changes in hemodynamic stimuli other than shear stress may also be associated with arterial remodeling. Taken together, in vitro and in vivo data strongly imply that hemodynamic influences combine to orchestrate a response to exercise and training that regulates wall stress and peripheral vascular resistance and contributes to the antiatherogenic impacts of physical activity, fitness, and training. 相似文献
This experimental study was performed to explore hemodynamic effects of a moderate dose epinephrine (Epi) during hypothermia and to test the hypothesis whether sympathetic stimulation during cooling affects myocardial function following rewarming. Two groups of male Wistar rats (each, n=7) were cooled to 15 degrees C, maintained at this temperature for 1 h, and then rewarmed. Group 1 received 1 microg/min Epi, i.v., for 1 h during cooling to 28 degrees C, a dose known to elevate cardiac output (CO) by approximately 25% at 37 degrees C. Group 2 served a saline solution control. At 37 degrees C, Epi infusion elevated CO, left ventricular systolic pressure, maximum rate of left ventricle pressure rise, and mean arterial pressure. During cooling to 28 degrees C, these variables, with the exception of mean arterial pressure, decreased in parallel to those in the saline solution group. In contrast, in the Epi group, mean arterial pressure remained increased and total peripheral resistance was significantly elevated at 28 degrees C. Compared with corresponding prehypothermic values, most hemodynamic variables were lowered after 1 h at 15 degrees C in both groups (except for stroke volume). After rewarming, alterations in hemodynamic variables in the Epi-treated group were more prominent than in saline solution controls. Thus, before cooling, continuous Epi infusion predominantly stimulates myocardial mechanical function, materialized as elevation of CO, left ventricular systolic pressure, and maximum rate of left ventricle pressure rise. Cooling, on the other hand, apparently eradicates central hemodynamic effects of Epi and during stable hypothermia, elevation of peripheral vascular vasopressor effects seem to take over. In contrast to temperature-matched, non-Epi stimulated control rats, a significant depression of myocardial mechanical function occurs during rewarming following a moderate sympathetic stimulus during initial cooling. 相似文献
This paper reports a novel optical ballistocardiography technique, which is non‐invasive, for the simultaneous measurement of cardiac and respiratory activities using a Fiber Bragg Grating Heart Beat Device (FBGHBD). The unique design of FBGHBD offers additional capabilities such as monitoring nascent morphology of cardiac and breathing activity, heart rate variability, heart beat rhythm, etc., which can assist in early clinical diagnosis of many conditions associated with heart and lung malfunctioning. The results obtained from the FBGHBD positioned around the pulmonic area on the chest have been evaluated against an electronic stethoscope which detects and records sound pulses originated from the cardiac activity. In order to evaluate the performance of the FBGHBD, quantitative and qualitative studies have been carried out and the results are found to be reliable and accurate, validating its potential as a standalone medical diagnostic device. The developed FBGHBD is simple in design, robust, portable, EMI proof, shock proof and non‐electric in its operation which are desired features for any clinical diagnostic tool used in hospital environment.
Optimal therapy for congestive cardiac failure requires identification of correctable factors that aggravate it as well as an understanding of its etiology. Increased sympathetic nervous system activity, reduced renal blood flow, and cardiac hypertrophy and dilation are the main compensatory processes that occur in response to cardiac failure. Although they may be of initial benefit in supporting a reduced stroke volume, they may ultimately prove self-defeating. New drugs for the treatment of severe congestive heart failure include dopamine, which has a selective nonadrenergic dilator effect on the renal vascular bed, and dobutamine, which has potent inotropic effects, lowers the left ventricular filling pressure and does not increase the heart rate or the systemic vascular resistance. By reducing both the resistance to left ventricular ejection and the venous return to the right heart, vasodilators result in improved peripheral perfusion and reduced pulmonary congestion. Optimal therapy for refractory cardiac failure can be rationally determined by characterizing the hemodynamic profile through measurement of the mean arterial pressure, the left ventricular filling pressure, the cardiac output and the systemic vascular resistance. The specific therapy can then be effectively and safely delivered by a careful analysis of the dose-response relation as identified by hemodynamic monitoring. 相似文献
Systemic and regional hemodynamic changes (microsphere technique) were studied in urethan-chloralose anesthetized cats after intravenous clonidine and naloxone administration in different sequence. It was shown that antihypertensive effect of clonidine was caused by a decrease in the cardiac output and an increase in the total peripheral vascular conduction. The ability of clonidine to increase total peripheral conduction was completely blocked with naloxone preadministration. It was concluded that endogenous opiate receptors take part in the vasodilating clonidine effect in abdominal organs. 相似文献
We investigated the interplay of neural and hemodynamic mechanisms in postexercise hypotension (PEH) in hypertension. In 15 middle-aged patients with mild essential hypertension, we evaluated blood pressure (BP), cardiac output (CO), total peripheral resistance (TPR), forearm (FVR) and calf vascular resistance (CVR), and autonomic function [by spectral analysis of R-R interval and BP variabilities and spontaneous baroreflex sensitivity (BRS)] before and after maximal exercise. Systolic and diastolic BP, TPR, and CVR were significantly reduced from baseline 60-90 min after exercise. CO, FVR, and HR were unchanged. The low-frequency (LF) component of BP variability increased significantly after exercise, whereas the LF component of R-R interval variability was unchanged. The overall change in BRS was not significant after exercise vs. baseline, although a significant, albeit small, BRS increase occurred in response to hypotensive stimuli. These findings indicate that in hypertensive patients, PEH is mediated mainly by a peripheral vasodilation, which may involve metabolic factors linked to postexercise hyperemia in the active limbs. The vasodilator effect appears to override a concomitant, reflex sympathetic activation selectively directed to the vasculature, possibly aimed to counter excessive BP decreases. The cardiac component of arterial baroreflex is reset during PEH, although the baroreflex mechanisms controlling heart period appear to retain the potential for greater opposition to hypotensive stimuli. 相似文献
We hypothesized that performanceof exercise during heart failure (HF) would lead to hypoperfusion ofactive skeletal muscles, causing sympathoactivation at lower workloadsand alteration of the normal hemodynamic and hormonal responses. Wemeasured cardiac output, mean aortic and right atrial pressures,hindlimb and renal blood flow (RBF), arterial plasma norepinephrine(NE), plasma renin activity (PRA), and plasma arginine vasopressin(AVP) in seven dogs during graded treadmill exercises and at rest. Incontrol experiments, sympathetic activation at the higher workloadsresulted in increased cardiac performance that matched the increasedmuscle vascular conductance. There were also increases in NE, PRA, and AVP. Renal vascular conductance decreased during exercise, such thatRBF remained at resting levels. After control experiments, HF wasinduced by rapid ventricular pacing, and the exercise protocols wererepeated. At rest in HF, cardiac performance was significantly depressed and caused lower mean arterial pressure, despite increased HR. Neurohumoral activation was evidenced by renal and hindlimb vasoconstriction and by elevated NE, PRA, and AVP levels, but it didnot increase at the mildest workload. Beyond mild exercise, sympathoactivation increased, accompanied by progressive renal vasoconstriction, a fall in RBF, and very large increases of NE, PRA,and AVP. As exercise intensity increased, peripheral vasoconstriction increased, causing arterial pressure to rise to near normal levels, despite depressed cardiac output. However, combined with redirection ofRBF, this did not correct the perfusion deficit to the hindlimbs. Weconclude that, in dogs with HF, the elevated sympathetic activity observed at rest is not exacerbated by mild exercise. However, withheavier workloads, sympathoactivation begins at lower workloads andbecomes progressively exaggerated at higher workloads, thus alteringdistribution of blood flow. 相似文献
The hemodynamic effects of a series of potent and selective 4-aminopyridine carboxamide-based pan-JNK inhibitors were assessed in an anesthetized rat model. The effects of these agents on mean arterial pressure, heart rate, cardiac contractility, and peripheral vascular resistance are described, and the implication for targeting protein kinases in metabolic diseases is discussed. 相似文献
Monitoring the blood supply in the lower extremities is critical for individuals who are vulnerable to vascular dysfunction. Current clinical approaches are ineffective in observing hemodynamic changes in peripheral vessels. In this paper, we investigate the potential of photoacoustic tomography (PAT) as an alternative way to in vivo monitor hemodynamic changes in foot vessels. High spatial and temporal resolution maps of hemoglobin in major arteries and veins are shown. Results from twelve human subjects are presented here to visualize vascular perfusion of healthy volunteers in two age groups (young vs aged). Significant differences between the two groups are observed and verify the declining in vascular function with aging, highlighting the potential of PAT as a new tool to evaluate vascular function in the lower extremities. 相似文献
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