Sympathoinhibition during cardiopulmonary baroreceptor loading is attenuated in older females.

The purpose of the present study was to clarify the impact of age on the sympathoinhibitory response to cardiopulmonary baroreceptor loading in females. Nine older females (mean ± SD, 70 ± 6 yr) and 11 younger females (20 ± 1 yr) completed the study. A passive leg raising (PLR) test was performed wherein the participants were positioned supine (baseline, 0°), and their lower limbs were passively lifted at 10°, 20°, 30°, and 40° (3 min at each angle). Muscle sympathetic nerve activity (MSNA) was recorded via microneurography of the left radial nerve. The central venous pressure was estimated based on peripheral venous pressure (eCVP), which was monitored using a cannula in the right large antecubital vein. Baseline MSNA was higher in older females than in younger females. MSNA burst frequency (BF) decreased during the PLR test in both older and younger females, but the magnitude of the decrease in MSNA BF was smaller in older females than in younger females (older, -3.5 ± 1.5 vs. younger, -6.3 ± 1.5 bursts/min at 40° from baseline, P = 0.014). The eCVP increased during the PLR in both groups, and there was no difference in the changes in eCVP between the two groups (older, +1.07 ± 0.37 vs. younger, +1.12 ± 0.33 mmHg at 40° from baseline, P = 0.941). These results suggest that inhibition of sympathetic vasomotor outflow during cardiopulmonary baroreceptor loading could be blunted with advancing age in females.NEW & NOTEWORTHY There were no available data concerning the effect of age on the sympathoinhibitory response to cardiopulmonary baroreceptor loading in females. The magnitude of the decrease in muscle sympathetic nerve activity during passive leg raising (10°-40°) was smaller in older females than in young females. In females, inhibition of sympathetic vasomotor outflow during cardiopulmonary baroreceptor loading could be blunted with advancing age.

Arterial pulses link heart-brain oscillations.

A central baroreceptor monitors arterial pressure to modulate brain activity.

Advancing cardiovascular neuromodulation: Aortic baroreceptor afferents act as targets for blood pressure control in hypertension.

Aortic baroreceptor afferents act as targets for blood pressure control in hypertension.

Effects of acute carotid baroreceptor stimulation on sympathetic nerve traffic in resistant and uncontrolled hypertension: a systematic review and meta-analysis.

In resistant hypertensive patients acute carotid baroreflex stimulation is associated with a blood pressure (BP) reduction, believed to be mediated by a central sympathoinhbition.The evidence for this sympathomodulatory effect is limited, however. This meta-analysis is the first to examine the sympathomodulatory effects of acute carotid baroreflex stimulation in drug-resistant and uncontrolled hypertension, based on the results of microneurographic studies. The analysis included 3 studies assessing muscle sympathetic nerve activity (MSNA) and examining 41 resistant uncontrolled hypertensives. The evaluation included assessment of the relationships between MSNA and clinic heart rate and BP changes associated with the procedure. Carotid baroreflex stimulation induced an acute reduction in clinic systolic and diastolic BP which achieved statistical significance for the former variable only [systolic BP: -19.98 mmHg (90% CI, -30.52, -9.43), P < 0.002], [diastolic BP: -5.49 mmHg (90% CI, -11.38, 0.39), P = NS]. These BP changes were accompanied by a significant MSNA reduction [-4.28 bursts/min (90% CI, -8.62, 0.06), P < 0.07], and by a significant heart rate decrease [-3.65 beats/min (90% CI, -5.49, -1.81), P < 0.001]. No significant relationship was detected beween the MSNA, systolic and diastolic BP changes induced by the procedure, this being the case also for heart rate. Our data show that the acute BP lowering responses to carotid baroreflex stimulation, although associated with a significant MSNA reduction, are not quantitatively related to the sympathomoderating effects of the procedure. This may suggest that these BP effects depend only in part on central sympathoinhibition, at least in the acute phase following the intervention.

Blood pressure pulsations modulate central neuronal activity via mechanosensitive ion channels.

The transmission of the heartbeat through the cerebral vascular system causes intracranial pressure pulsations. We discovered that arterial pressure pulsations can directly modulate central neuronal activity. In a semi-intact rat brain preparation, vascular pressure pulsations elicited correlated local field oscillations in the olfactory bulb mitral cell layer. These oscillations did not require synaptic transmission but reflected baroreceptive transduction in mitral cells. This transduction was mediated by a fast excitatory mechanosensitive ion channel and modulated neuronal spiking activity. In awake animals, the heartbeat entrained the activity of a subset of olfactory bulb neurons within ~20 milliseconds. Thus, we propose that this fast, intrinsic interoceptive mechanism can modulate perception-for example, during arousal-within the olfactory bulb and possibly across various other brain areas.

Influence of sex on sympathetic vasomotor outflow responses to passive leg raising in young individuals.

The purpose of this study was to clarify sex differences in the inhibition of sympathetic vasomotor outflow which is caused by the loading of cardiopulmonary baroreceptors. Ten young males and ten age-matched females participated. The participants underwent a passive leg raising (PLR) test wherein they were positioned supine (baseline, 0º), and their lower limbs were lifted passively at 10º, 20º, 30º, and 40º. Each angle lasted for 3 min. Muscle sympathetic nerve activity (MSNA) was recorded via microneurography of the left radial nerve. Baseline MSNA was lower in females compared to males. MSNA burst frequency was decreased during the PLR in both males (- 6.2 ± 0.4 bursts/min at 40º) and females (- 6.5 ± 0.4 bursts/min at 40º), but no significant difference was detected between the two groups (P = 0.61). These results suggest that sex has minimal influence on the inhibition of sympathetic vasomotor outflow during the loading of cardiopulmonary baroreceptors in young individuals.

The left ventricle increases contractility in response to baroreceptor unloading, which is sympathetically mediated in the anesthetized rat.

Contemporary discussion of the baroreflex includes the efferent vascular-sympathetic and cardiovagal arms. Since sympathetic postganglionic neurons also innervate the left ventricle (LV), it is often assumed that the LV produces a sympathetically mediated increase in contractility during baroreceptor unloading, but this has not been characterized using a load-independent index of contractility. We aimed to determine 1) whether LV contractility increases in response to baroreceptor unloading and 2) whether such increases are mediated via the sympathetic or parasympathetic arm of the autonomic nervous system. Ten male Wistar rats were anesthetized (urethane) and instrumented with arterial and LV pressure-volume catheters to measure mean arterial pressure (MAP) and load-independent LV contractility [maximal rate of increase in pressure adjusted to end-diastolic volume (PAdP/dtmax)], respectively. Rats were placed in a servo-controlled lower-body negative pressure (LBNP) chamber to reduce MAP by 10% for 60 s to mechanically unload baroreceptors under control conditions. LBNP was repeated in each animal following infusions of cardiac autonomic blockers using esmolol (sympathetic), atropine (parasympathetic), and esmolol + atropine. Under control conditions, PAdP/dtmax increased during baroreceptor unloading (26 ± 6 vs. 31 ± 9 mmHg·s-1·µL-1, P = 0.031). During esmolol, there was no increase in LV contractility during baroreceptor unloading (11 ± 2 vs. 12 ± 2, P = 0.125); however, during atropine, there was an increase in LV contractility during baroreceptor unloading (26 ± 6 vs. 31 ± 9, P = 0.019). During combined esmolol and atropine, there was a small increase in contractility versus control (13 ± 3 vs. 15 ± 4, P = 0.046). Our results demonstrate that, in anesthetized rats, LV contractility increases in response to baroreceptor unloading, which is largely sympathetically mediated.NEW & NOTEWORTHY This study empirically demonstrates a sympathetically mediated increase in LV contractility in response to baroreceptor unloading using a load-independent index of cardiac contractility in the anesthetized rat.

Paciente con hipertensión arterial y deterioro de su clase funcional secundarios al síndrome de taquicardia postural ortostática / Patient with arterial hypertension and functional class deterioration secondary to postural orthostatic tachycardia syndrome

Resumen La hipertensión ortostática ha sido un diagnóstico elusivo en la práctica clínica por la falta de estudio respecto a su fisiopatología y epidemiología. De esa manera, el abordaje clínico no ha sido expedito para su diagnóstico y tratamiento, así que las causas primarias pueden pasar inadvertidas y sin tratamiento. Se expone el caso clínico de una paciente latina, con hipertensión arterial sumada a deterioro de su clase funcional, a quien se le descartaron otras causas secundarias de hipertensión, y se diagnosticó, mediante estudio hemodinámico y autonómico, síndrome de taquicardia ortostática postural y compromiso del retorno venoso como causa primaria. Este reporte de caso pretende ilustrar respecto a esta causa infrecuente de hipertensión secundaria.

Abstract Orthostatic hypertension has been an elusive diagnosis in clinical practice due to the lack of research with regards to its pathophysiology and aetiology. Thus, clinical approach has not been unobstructed for its diagnosis and treatment, so the primary causes may go unnoticed and remain untreated. The clinical case of a Latin American patient with arterial hypertension associated to a deterioration of her functional class is reported. Secondary causes for hypertension were ruled out and, by means of a hemodynamic and autonomic study, she was diagnosed with postural orthostatic tachycardia syndrome and reduced venous return as the primary cause. This case report pretends to illustrate this rare case of secondary hypertension.

Modelado de los barorreceptores de baja presión y su contribución al control de la presión arterial / Modeling low pressure baroreceptors and their contribution to blood pressure control / Modelado dos barorreceptores de baixa pressão e sua contribuição ao controle da pressão arterial

El principal mecanismo de control de la presión arterial (PA) lo coordina el sistema nervioso central por medio del simpático y el parasimpático. Para simular este mecanismo existen diferentes modelos matemáticos que solo consideran los presorreceptores (barorreceptores) de alta presión, como mecanismo sensor de la PA. Sin embargo, existen otros receptores ubicados en las zonas de baja presión, que, hasta donde sabemos, no han sido considerados en los modelos descritos en la literatura, aunque tienen una participación importante en el control nervioso de la PA. Este artículo presenta un modelo matemático para la representación de los presorreceptores (barorreceptores) de baja presión, mediante la detección de los cambios delvolumen sanguíneo en la aurícula, y su aporte al control inmediato de la PA, mediante la estimulación nerviosa de la frecuencia cardíaca. El modelo propuesto se acopló al mecanismo sensor de un modelo mayor. A partir del modelo es posible analizar la contribución y el comportamiento de los receptores de baja presión, lo que permite entender mejor este complejo sistema tanto en condiciones normales como patológicas, al incluir variables importantes en el control inmediato de la PA, que no se han incluido en modelos anteriores.

The main mechanism for blood pressure (BP) control is coordinated by the central nervous system through the sympathetic and parasympathetic systems. In order to simulate this mechanism, different mathematical models are available, but they take into account only the high pressure receptors as sensing systems for BP. However, other receptors located in low pressure areas have not, as far as we know, been considered in the models described in the literature, despite their important role in the nervous BP control. This paper presents a mathematical model for the representation of low pressure receptors by means of the detection of atrial volume changes, and their contribution to immediate BP control through nervous stimulation of the heart rate. The proposed model was coupled to the sensor mechanism of a larger model. With this model it is possible to analyze the contribution and behavior of low pressure receptors, thus allowing a better understanding of this complex system under normal and pathological conditions, since it includes important variables in the immediate BP control, not included in previous models.

O principal mecanismo de controle da pressão arterial (PA) o coordena o sistema nervoso central por meio do simpático e o parassimpático. Para simular este mecanismo existem diferentes modelos matemáticos que só consideram os pressorreceptores (barorreceptores) de alta pressão, como mecanismo sensor da PA. Mas, existem outros receptores localizados nas zonas de baixa pressão, que, até onde sabemos, não hão sido considerados nos modelos descritos na literatura, porém têm uma participação importante no controle nervoso da PA. Este artigo apresenta um modelo matemático para a reapresentação dos pressorreceptores(barorreceptores) de baixa pressão, mediante a detecção dos câmbios do volume sanguínea na aurícula, e seu aporte ao controle imediato da PA, mediante a estimulação nervosa da frequência cardíaca. O modelo proposto se acoplou ao mecanismo sensor de um modelo maior. A partir do modelo é possível analisar a contribuição e o comportamento dos receptores de baixa pressão, o que permite entender melhor este complexo sistema tanto em condições normais como patológicas, ao incluir variáveis importantes no controle imediato da PA, que não se hão incluído em modelos anteriores.

Reflexo dos barorreceptores e homeostase da pressão arterial / Baroreflexes and blood pressure homeostasis

A hipertensão arterial é considerada um dos principais fatores de risco para a morbidade e mortalidade cardiovascular. Os reflexos originados nos barorreceptores arteriais e nos receptores de estiramento da região cardiopulmonar são os principais mecanismos de controle efetivo da pressão arterial a curto prazo. O reflexo dos barorreceptores é considerado um sistema de controle de alto ganho, que mantém a pressão arterial dentro de limites normais em períodos de segundos a minutos. Dessa forma, esta revisão busca abordar os mecanismos desenvolvidos pelos barorreceptores na homeostase da pressão arterial. No presente artigo foram relatadas as alterações dos reflexos cardiovasculares na hipertensão arterial, focando a distribuição dos barorreceptores e seu funcionamento no restabelecimento da pressão arterial. Para realização desta pesquisa foi realizada uma revisão de artigos científicos utilizando as bases de dados Medline, Scielo e Lilacs. Adicionalmente foram consultados livros de fisiologia humana para complementação das informações sobre a fisiologia do barorreflexo na homeostase da pressão arterial. Estudos clínicos têm mostrado que uma reduzida sensibilidade do barorreflexo está associada com a morte súbita que se segue ao infarto agudo do miocárdio. O entendimento dos reflexos dos barorreceptores e a manutenção da hipertensão arterial em curto prazo são de grande importância para o entendimento da fisiopatogenia envolvidas no desenvolvimento e/ou evolução de determinadas alterações patológicas (AU)

Hypertension is considered one of the main risk factors for cardiovascular morbidity and mortality. The reflexes of arterial baroreceptors and stretch receptors in the cardiopulmonary region are the primary mechanisms for effectively controlling arterial blood pressure in the short term. Baroreflexes are a relatively high gain control system that regulates blood pressure during short time periods such as seconds or minutes. This literature review aims to discuss the mechanisms developed by baroreceptors in blood pressure homeostasis. We describe the effects of cardiovascular reflexes on blood pressure, with focus on the distribution of baroreceptors and on its role in controlling blood pressure. Our research was based on scientific articles from the Medline, Scielo, and Lilacs databases. We also researched books on human physiology in order to describe the physiology of baroreflexes in blood pressure homeostasis. Clinical studies have shown that decreased baroreflex sensitivity is associated with sudden death following myocardial infarction. Understanding baroreflexes and short-term blood pressure regulation is essential for understanding the physiopathogenesis involved in the development of certain pathological changes (AU)

Comportamento do ergorreflexo na insuficiência cardíaca / Ergoreflex activity in heart failure / Comportamiento del ergorreflejo en la insuficiencia cardiaca

Grande número de evidências tem sugerido a existência de uma rede de reflexos que se tornam hiperativos secundariamente a alterações músculo-esqueléticas que ocorrem na síndrome insuficiência cardíaca (IC). Estes, aliados aos reflexos cardiovasculares simpato-inibitórios, suprimidos na síndrome, podem contribuir para a intolerância ao exercício físico. A hiperativação dos sinais originados dos receptores localizados nos músculos esqueléticos (mecanoceptores - metaborreceptores) é uma hipótese proposta recentemente para explicar a origem dos sintomas de fadiga e dispneia e os efeitos benéficos do treinamento físico na síndrome da IC. Na IC, outras alterações nos sistemas de controle reflexo, que não são mutuamente exclusivos, contribuem para dispneia. Estimulação inapropriada dos barorreceptores arteriais com consequente falta de inibição da descarga do metaborreflexo muscular e quimiorreflexo carotídeo e aumento da vasoconstricção renal com liberação de angiotensina II pode também ser considerada. Apesar das alterações funcionais dos reflexos terem sido usadas de maneira independente para ilustrar a excitação simpática observada na IC, a interação entre esses reflexos em condições normais e patológicas, especialmente sua contribuição para o estado simpato-excitatório encontrado na IC, não tem sido amplamente estudados. Assim, o problema se ambos os receptores musculares (mecano e metaborreceptores) estão envolvidos na gênese da exacerbação do ergorreflexo observado na IC ainda fica a ser resolvido. Dessa forma, essa revisão tem por objetivo integrar os conhecimentos a respeito do mecano e metaborreflexo (ergorreflexo) na síndrome da insuficiência cardíaca bem como esclarecer a influência da terapêutica medicamentosa da IC no ergorreflexo.

A large body of evidence has suggested the existence of a reflex network that becomes hyperactive secondary to musculoskeletal alterations that occur in heart failure (HF) syndrome. Together with sympathoinhibitory cardiovascular reflexes, suppressed in the presence of the syndrome, heart failure can contribute to physical exercise intolerance. The hyperactivation of signals originated from receptors located in skeletal muscles (mechanoreceptors - metaboreceptors) is a recently proposed hypothesis to explain the origin of fatigue and dyspnea symptoms in HF. In HF, other alterations in the reflex control system, which are not mutually exclusive, contribute to dyspnea. The inappropriate stimulation of the arterial baroreceptors, with the consequent lack of inhibition of the muscle metaboreflex and carotid chemoreflex unloading and the increase in the renal vasoconstriction with angiotensin II release can also be considered. Although the functional alterations of the reflexes were used independently to illustrate the sympathetic excitation observed in HF, the interaction between these reflexes under normal and pathological conditions, especially its contribution to the sympathoexcitatory state found in HF, has not been broadly investigated. Therefore, questions about a possible association between the muscle receptors (mechano and metaboreceptors) in the genesis of the ergoreflex exacerbation, observed in HF, remain. Thus, the objective of this review was to integrate the knowledge on the mechano and metaboreflex (ergoreflex) in HF syndrome, as well as to clarify the influence of HF drug therapy on the ergoreflex.

Gran número de evidencias viene sugerido la existencia de una red de reflejos que se hacen hiperactivos secundariamente a alteraciones musculoesqueléticas que se producen en el síndrome de la insuficiencia cardiaca (IC). Aliada a los reflejos cardiovasculares simpatoinhibitorios, suprimidos en el síndrome, la insuficiencia cardiaca puede contribuir a la intolerancia al ejercicio físico. La hiperactivación de los señales originados de los receptores ubicados en los músculos esqueléticos (mecanorreceptores - metaborreceptores) es una hipótesis propuesta recientemente para explicar el origen de los síntomas de fatiga y disnea y de los efectos benéficos del entrenamiento físico en el síndrome de IC. En la IC, otras alteraciones en los sistemas de control reflejo, que no son mutuamente exclusivos, contribuyen a la disnea. Estimulación inapropiada de los barorreceptores arteriales, con consecuente falta de inhibición de la descarga del metaborreflejo muscular y quimiorreflejo carotídeo, y el aumento de la vasoconstricción renal con liberación de angiotensina II se pueden también tener en cuenta. A pesar de las alteraciones funcionales de los reflejos haber sido utilizadas de manera independiente para ilustrar la excitación simpática observada en la IC, la interacción entre estos reflejos en condiciones normales y patológicas, especialmente su contribución para el estado simpatoexcitatorio encontrado en la IC, no viene siendo ampliamente estudiada. De este modo, resta todavía un cuestionamiento sobre la posible relación entre los receptores musculares (mecano y metaborreceptores) en la génesis de la exacerbación del ergorreflejo observado en la IC. Por tanto, esta revisión tiene por objetivo integrar los conocimientos respecto al mecano y metaborreflejo (ergorreflejo) en el síndrome de la insuficiencia cardiaca, así como aclarar la influencia de la terapéutica medicamentosa de la IC en el ergorreflejo.

Effect of carotid and aortic baroreceptors on cardiopulmonary reflex: the role of autonomic function

We determined the sympathetic and parasympathetic control of heart rate (HR) and the sensitivity of the cardiopulmonary receptors after selective carotid and aortic denervation. We also investigated the participation of the autonomic nervous system in the Bezold-Jarish reflex after selective removal of aortic and carotid baroreceptors. Male Wistar rats (220-270 g) were divided into three groups: control (CG, N = 8), aortic denervation (AG, N = 5) and carotid denervation (CAG, N = 9). AG animals presented increased arterial pressure (12 percent) and HR (11 percent) compared with CG, while CAG animals presented a reduction in arterial pressure (16 percent) and unchanged HR compared with CG. The sequential blockade of autonomic effects by atropine and propranolol indicated a reduction in vagal function in CAG (a 50 and 62 percent reduction in vagal effect and tonus, respectively) while AG showed an increase of more than 100 percent in sympathetic control of HR. The Bezold-Jarish reflex was evaluated using serotonin, which induced increased bradycardia and hypotension in AG and CAG, suggesting that the sensitivity of the cardiopulmonary reflex is augmented after selective denervation. Atropine administration abolished the bradycardic responses induced by serotonin in all groups; however, the hypotensive response was still increased in AG. Although the responses after atropine were lower than the responses before the drug, indicating a reduction in vagal outflow after selective denervation, our data suggest that both denervation procedures are associated with an increase in sympathetic modulation of the vessels, indicating that the sensitivity of the cardiopulmonary receptors was modulated by baroreceptor fibers.

An improved strategy for evaluating the extent of chronic arterial baroreceptor denervation in conscious rats

There is no index or criterion of aortic barodenervation, nor can we differentiate among rats that have suffered chronic sham, aortic or sino-aortic denervation. The objective of this study was to develop a procedure to generate at least one quantitative, reproducible and validated index that precisely evaluates the extent of chronic arterial barodenervation performed in conscious rats. Data from 79 conscious male Wistar rats of about 65-70 days of age with diverse extents of chronic arterial barodenervation and used in previous experiments were reanalyzed. The mean arterial pressure (MAP) and the heart rate (HR) of all rats were measured systematically before (over 1 h) and after three consecutive iv bolus injections of phenylephrine (PHE) and sodium nitroprusside (SNP). Four expressions of the effectiveness of barodenervation (MAP lability, PHE ratio, SNP ratio, and SNP-PHE slope) were assessed with linear fixed models, three-level average variance, average separation among levels, outlier box plot analysis, and overlapping graphic analysis. The analysis indicated that a) neither MAP lability nor SNP-PHE slope was affected by the level of chronic sodium intake; b) even though the Box-Cox transformations of both MAP lability [transformed lability index (TLI)] and SNP-PHE slope [transformed general sensitivity index (TGSI), {((3-(ΔHRSNP-ΔHRPHE/ΔMAPSNP-ΔMAPPHE))-0.4-1)/-0.04597}] could be two promising indexes, TGSI proved to be the best index; c) TLI and TGSI were not freely interchangeable indexes for this purpose. TGSI ranges that permit differentiation between sham (10.09 to 11.46), aortic (8.40 to 9.94) and sino-aortic (7.68 to 8.24) barodenervated conscious rats were defined.

Control neural de la circulación periférica y de la presión arterial / Neural control of the peripheral circulation and blood pressure

In the XIX century Claude Bernard discovered the action of the nervous system on the peripheral circulation. In the first half of the XX century Ewald Hering discovered the baro-receptor and the reflex control of the heart rate and blood pressure. Cowley and Guyton demonstrated that sino-aortic denervation induces persistent changes in the blood pressure in the dog. The autonomic nervous system is mainly responsible for the regulation of the circulation and blood pressure in the short term on a beat to beat basis. It controls the vasomotor tone, the heart rate and the cardiac output. With the advent of non invasive methods that measure the blood pressure on a beat to beat basis (Finapres) and with the methods of measurement of the variability of the blood pressure in the frequency domain (spectral analysis) we can currently measure many variables including heart rate, blood pressure, stroke volume, peripheral resistances and the baroreceptor sensitivity and make some inferences about their control mechanisms. These variables can be measured at rest in the supine position, standing up, during rhythmic breathing and during the Valsalva maneuver. In this article we present a review of the neural control of the blood pressure and heart rate.

Evidence that blood pressure remains under the control of arterial baroreceptors in renal hypertensive rats

The purpose of the present study was to determine the range of the influence of the baroreflex on blood pressure in chronic renal hypertensive rats. Supramaximal electrical stimulation of the aortic depressor nerve and section of the baroreceptor nerves (sinoaortic denervation) were used to obtain a global analysis of the baroreceptor-sympathetic reflex in normotensive control and in chronic (2 months) 1-kidney, 1-clip hypertensive rats. The fall in blood pressure produced by electrical baroreceptor stimulation was greater in renal hypertensive rats than in normotensive controls (right nerve: -47 ± 8 vs -23 ± 4 mmHg; left nerve: -51 ± 7 vs -30 ± 4 mmHg; and both right and left nerves: -50 ± 8 vs -30 ± 4 mmHg; P < 0.05). Furthermore, the increase in blood pressure level produced by baroreceptor denervation in chronic renal hypertensive rats was similar to that observed in control animals 2-5 h (control: 163 ± 5 vs 121 ± 1 mmHg; 1K-1C: 203 ± 7 vs 170 ± 5 mmHg; P < 0.05) and 24 h (control: 149 ± 3 vs 121 ± 1 mmHg; 1K-1C: 198 ± 8 vs 170 ± 5 mmHg; P < 0.05) after sinoaortic denervation. Taken together, these data indicate that the central and peripheral components of the baroreflex are acting efficiently at higher arterial pressure in renal hypertensive rats when the aortic nerve is maximally stimulated or the activity is abolished.

Acute and chronic electrical activation of baroreceptor afferents in awake and anesthetized subjects

Electrical stimulation of baroreceptor afferents was used in the 1960's in several species, including human beings, for the treatment of refractory hypertension. This approach bypasses the site of baroreceptor mechanosensory transduction. Chronic electrical stimulation of arterial baroreceptors, particularly of the carotid sinus nerve (Hering's nerve), was proposed as an ultimate effort to treat refractory hypertension and angina pectoris due to the limited nature of pharmacological therapy available at that time. Nevertheless, this approach was abandoned in the early 1970's due to technical limitations of implantable devices and to the development of better-tolerated antihypertensive medications. More recently, our laboratory developed the technique of electrical stimulation of the aortic depressor nerve in conscious rats, enabling access to hemodynamic responses without the undesirable effect of anesthesia. In addition, electrical stimulation of the aortic depressor nerve allows assessment of the hemodynamic responses and the sympathovagal balance of the heart in hypertensive rats, which exhibit a well-known decrease in baroreflex sensitivity, usually attributed to baroreceptor ending dysfunction. Recently, there has been renewed interest in using electrical stimulation of the carotid sinus, but not the carotid sinus nerve, to lower blood pressure in conscious hypertensive dogs as well as in hypertensive patients. Notably, previous undesirable technical outcomes associated with electrical stimulation of the carotid sinus nerve observed in the 1960's and 1970's have been overcome. Furthermore, promising data have been recently reported from clinical trials that evaluated the efficacy of carotid sinus stimulation in hypertensive patients with drug resistant hypertension.

Controle neurovascular de corredores amadores hipertensos / Neurovascular control of hypertensive amateur runners

INTRODUÇÃO: Alterações neurovasculares presentes na hipertensão arterial são minimizadas pelo treinamento físico em hipertensos previamente sedentários. Entretanto, é desconhecido se atletas hipertensos apresentam alterações neurovasculares ou se o treinamento físico previne tais danos. Este estudo avaliou o controle neurovascular de corredores hipertensos, durante o treinamento competitivo, assim como o efeito de 4 meses de treinamento de intensidade moderada nesta população. MÉTODOS: 37 corredores, homens (20 normotensos, 43 +-1 anos e 17 hipertensos, 42+-1 anos), foram avaliados no treinamento competitivo e posteriormente divididos em 4 subgrupos: normotensos que mantiveram treinamento competitivo (n=10); normotensos que realizaram treinamento de intensidade moderada (n=10); hipertensos que mantiveram treinamento competitivo (n=8); hipertensos que realizaram treinamento de intensidade moderada (n=8). Após 4 meses de intervenção, todos os corredores foram novamente avaliados. Atividade nervosa simpática muscular (ANSM) (microneurografia), propriedades arteriais (velocidade da onda de pulso (VOP) e sistema echo-tracking de alta resolução), controle barorreflexo da frequência cardíaca (FC) e da ANSM (infusão de drogas vasoativas) foram avaliados. RESULTADOS: Corredores hipertensos apresentaram maior pressão arterial sistólica (P < 0,001), diastólica (PAD) (P < 0,001) e média (PAM) (P < 0,001) que corredores normotensos. A ANSM foi maior no grupo hipertenso (disparos/min.; P=0,02 e disparos/100 batimentos; P=0,004) em relação ao grupo normotenso. Não houve diferença na VOP (P=0,71) e nas variáveis da carótida: espessura intima-média (P=0,18), diâmetro (P=0,09) e distensão (P=0,79) entre os grupos. A equação sigmoidal para controle barorreflexo da FC, mostrou menor ganho barorreflexo nos corredores hipertensos em relação aos normotensos (resetting) (P=0,002). O controle barorreflexo da FC, avaliado pela análise de regressão linear, não foi...

INTRODUCTION: Neurovascular alterations presented in hypertension are minimized by physical training in previously sedentary hypertensive. However it is unknown if hypertensive athletes present neurovascular alterations or if physical training prevents these damages. This study evaluated the neurovascular control of hypertensive runners during competitive training as well as the effect of 4 months of moderate intensity training in this population. METHODS: 37 runners, male (20 normotensive, 43+-1 years old and 17 hypertensive, 42+-1 years old), were evaluated during competitive training and after that were divided in 4 subgroups: normotensive who maintained competitive training (n=10); normotensive who performed moderate intensity training (n=10); hypertensive who maintained competitive training (n=8); hypertensive who performed moderate intensity training (n=8). After 4 months of intervention, all the runners were evaluated again. Muscle sympathetic nerve activity (MSNA) (microneurography), arterial properties (pulse wave velocity (PWV) and high-resolution echo-tracking system), baroreflex control of heart rate (HR) and MSNA (infusion of vasoactive drugs) were evaluated. RESULTS: Hypertensive runners had higher systolic (P < 0.001), diastolic (DAP) (P < 0.001) and mean (MAP) (P < 0.001) arterial pressure than normotensive runners. MSNA was higher in hypertensive group (bursts/min.; P=0.02 and bursts/100 heart beats; P=0.004) than in normotensive group. There was no difference in PWV (P=0.71) and carotid variables: intima-media thickness (P=0.18), diameter (P=0.09) and distension (P=0.79) between groups. The gain of baroreflex control of HR, evaluated by sigmoidal logistic equation was lower in hypertensive runners than normotensive runners (resetting) (P=0.002). Baroreflex controf of HR, evaluated by linear equation analysis, was not different between groups during increase (slope P=0.41; intercept P=0.31) and decrease (slope P=0.16...