Participation of the hypothalamus-hypophysis axis in the sympathetic activation of human obesity.

Previous studies have shown that hypothalamic and hypophyseal factors are involved in the acute sympathoexcitation induced by a variety of laboratory stimuli. Whether a chronic condition of sympathetic activation, such as that characterizing human obesity, is also dependent on these factors has never been investigated. In 40 normotensive obese subjects ([mean+/-SEM] age, 39.1+/-0.8 years) we measured blood pressure (Finapres), heart rate (ECG), and postganglionic muscle sympathetic nerve activity (MSNA) (microneurography). In 20 subjects measurements were repeated, according to a double-blind randomized sequence, after a midnight oral dose of dexamethasone (1 mg) (n=10) or placebo (n=10), while in the remaining subjects they were performed again after 1 week of a daily evening oral administration of 1 mg of dexamethasone (n=10) or placebo (n=10). The same protocol was performed in 16 age-matched lean normotensives. In both groups acute dexamethasone administration markedly reduced plasma cortisol (radioimmunoassay), without affecting hemodynamic and neural variables. In contrast to the acute administration, in obese subjects prolonged dexamethasone administration, although not affecting blood pressure and heart rate, significantly reduced both plasma cortisol (from 16.0+/-1.3 to 0.7+/-0.1 microg/dL; P<0.01) and MSNA (from 59.5+/-2.8 to 39.6+/-2.9 bursts per 100 heartbeats; P<0.02; -33.1+/-4.1%). This was not the case in lean subjects, in which the dexamethasone-induced reduction in plasma cortisol was associated with a slight and nonsignificant MSNA decrease. In both lean and obese subjects, placebo administration caused no change in any variable. Thus, prolonged dexamethasone administration exerts in obese subjects marked sympathoinhibitory effects that are not detectable in lean individuals. This suggests that hypothalamic and hypophyseal factors substantially contribute to the sympathoexcitation of obesity.

Effects of chronic clonidine administration on sympathetic nerve traffic and baroreflex function in heart failure.

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.

Sympathetic and reflex abnormalities in heart failure secondary to ischaemic or idiopathic dilated cardiomyopathy.

Congestive heart failure (CHF) is characterized by a sympathetic activation and a baroreflex impairment whose degree is directly related to the clinical severity of the disease. However, whether these abnormalities vary according to the ischaemic or idiopathic dilated nature of the CHF state has not been conclusively documented. In patients with a clinically stable, chronic CHF state in New York Heart Association functional class II and III, due either to ischaemic heart disease (IHD; n=22, age 60.3+/-2.4 years, means+/-S.E.M.) or to idiopathic dilated cardiomyopathy (IDC; n=20, age 58.9+/-2.8 years), and in 30 age-matched controls, we measured arterial blood pressure (using a Finapres device), heart rate (by electrocardiogram) and postganglionic muscle sympathetic nerve traffic (by microneurography) at rest and during baroreceptor manipulation induced by the vasoactive drug-infusion technique. Blood pressure values were not significantly different in CHF patients and controls. Compared with controls, heart rate was similarly increased and left ventricular ejection fraction (by echocardiography) similarly reduced in CHF patients with IHD or IDC. Muscle sympathetic nerve traffic was significantly greater in CHF patients than in controls, and did not differ between patients with IHD or IDC (67.3+/-4.2 and 67.8+/-3.8 bursts/100 heart beats respectively). This was also the case for the degree of baroreflex impairment. These data show that CHF states due to IHD or to IDC are characterized by a similar degree of peripheral sympathetic activation and by a similar impairment of the baroreflex function. Thus the neuroadrenergic and reflex abnormalities characterizing CHF are independent of its aetiology.

Adrenergic and reflex abnormalities in obesity-related hypertension.

Previous studies have shown that essential hypertension and obesity are both characterized by sympathetic activation coupled with a baroreflex impairment. The present study was aimed at determining the effects of the concomitant presence of the 2 above-mentioned conditions on sympathetic activity as well as on baroreflex cardiovascular control. In 14 normotensive lean subjects (aged 33. 5+/-2.2 years, body mass index 22.8+/-0.7 kg/m(2) [mean+/-SEM]), 16 normotensive obese subjects (body mass index 37.2+/-1.3 kg/m(2)), 13 lean hypertensive subjects (body mass index 24.0+/-0.8 kg/m(2)), and 16 obese hypertensive subjects (body mass index 37.5+/-1.3 kg/m(2)), all age-matched, we measured beat-to-beat arterial blood pressure (by Finapres device), heart rate (HR, by ECG), and postganglionic muscle sympathetic nerve activity (MSNA, by microneurography) at rest and during baroreceptor stimulation and deactivation induced by stepwise intravenous infusions of phenylephrine and nitroprusside, respectively. Blood pressure values were higher in lean hypertensive and obese hypertensive subjects than in normotensive lean and obese subjects. MSNA was significantly (P:<0.01) greater in obese normotensive subjects (49.1+/-3.0 bursts per 100 heart beats) and in lean hypertensive subjects (44.5+/-3.3 bursts per 100 heart beats) than in lean normotensive control subjects (32.2+/-2.5 bursts per 100 heart beats); a further increase was detectable in individuals with the concomitant presence of obesity and hypertension (62.1+/-3. 4 bursts per 100 heart beats). Furthermore, whereas in lean hypertensive subjects, only baroreflex control of HR was impaired, in obese normotensive subjects, both HR and MSNA baroreflex changes were attenuated, with a further attenuation being observed in obese hypertensive patients. Thus, the association between obesity and hypertension triggers a sympathetic activation and an impairment in baroreflex cardiovascular control that are greater in magnitude than those found in either of the above-mentioned abnormal conditions alone.

Sympathetic and reflex alterations in systo-diastolic and systolic hypertension of the elderly.

BACKGROUND: Previous studies have shown that young and middle-aged essential hypertensives are characterized by a sympathetic activation coupled with an impaired baroreflex-heart rate control. The present study aimed to determine whether these neuroadrenergic and reflex alterations also characterize systo-diastolic and systolic hypertension of the elderly. SUBJECTS AND METHODS: In 20 untreated elderly essential hypertensive subjects [10 with a systo-diastolic and 10 with an isolated systolic hypertension, aged 67.2 +/- 1.5 years and 66.9 +/- 1.7 years (mean +/- SEM)], we measured beat-to-beat arterial blood pressure (finger photoplethysmographic device), heart rate (electrocardiogram) and efferent postganglionic muscle sympathetic nerve activity (microneurography) at rest and during baroreceptor stimulation and deactivation induced by stepwise intravenous infusions of phenylephrine and nitroprusside, respectively. Data were compared with those obtained in 11 age-matched normotensive control subjects. RESULTS: Compared to the elderly normotensive group, muscle sympathetic nerve activity was increased to a similar degree in the group of systo-diastolic and systolic hypertension (50.8 +/- 4.2 versus 75.2 +/- 5.2 and 70.4 +/- 5.1 bursts per 100 heart beats, respectively, P< 0.01 for both). In the control group, the stepwise increase in arterial pressure induced by phenylephrine caused progressive bradycardia and sympathoinhibition, while the stepwise decrease in arterial pressure had opposite effects. While baroreceptor-heart rate control was markedly impaired (average reduction 41.6%), in both systo-diastolic and systolic hypertensive patients, baroreceptor modulation of sympathetic nerve traffic was similar to that seen in normotensive individuals. CONCLUSIONS: These data demonstrate that sympathetic activation is not only a feature of young and middle-aged, but also of elderly hypertensives, regardless of whether both systolic and diastolic or only systolic blood pressure is increased. They also show that hypertension of the elderly is not accompanied by an impaired baroreceptor modulation of sympathetic nerve traffic.

Sympathoexcitatory responses to the acute blood pressure fall induced by central or peripheral antihypertensive drugs.

This study was designed to evaluate the effects of an acute blood pressure reduction brought about by a peripheral vasodilator agent (prazosin) or by a drug combining central and peripheral modes of action (urapidil), on three markers of adrenergic tone such as muscle sympathetic nerve traffic (MSNA), venous plasma norepinephrine (NE), and heart rate (HR). In 12 untreated essential hypertensives (age, 50.7 +/- 1.9 years; mean +/- SEM), we evaluated in two experimental sessions, according to a double-blind crossover design, the effects of acute oral administration of 2 mg prazosin or 30 mg urapidil on beat-to-beat finger blood pressure (Finapres), HR (electrocardiogram), NE (high-performance liquid chromatography), and MSNA (microneurography at a peroneal nerve). In each session measurements were performed in the no-drug control state and repeated throughout a 3-h period after drug administration. For similar blood pressure reductions, the two drugs caused similar increases in NE and MSNA (peak effects: NE = +1.1 +/- 0.2 vs 0.9 +/- 0.2 nmol/L and MSNA = +10.9 +/- 1.8 vs +10.1 +/- 1.6 bursts/min for prazosin and urapidil respectively, P = ns between drugs), whereas HR increased more markedly after prazosin administration (+6.1 +/- 1.1 vs +2.4 +/- 0.8 beats/min, P < 0.05). These data provide evidence that acute blood pressure reductions induced by antihypertensive drugs with central or peripheral modes of action activate the sympathetic nervous system to a similar extent. Thus adrenergic activation is not peculiar to vasodilators but rather generalized to any drug-induced acute blood pressure fall, presumably because of the lack of a baroreflex resetting, which occurs during chronic but not during acute antihypertensive treatment.

Comparison of angiotensin II receptor blockers: impact of missed doses of candesartan cilexetil and losartan in systemic hypertension.

Blood pressure remains poorly controlled in the hypertensive population due in large part to low or unsatisfactory patient compliance. Clinical studies that incorporate an intentionally missed dose have been designed to evaluate the impact of poor patient compliance on the effectiveness of antihypertensive medications. In these studies, ambulatory blood pressure monitoring is continued throughout the dosing interval and beyond in order to determine when systolic and diastolic blood pressure increase into the hypertensive range. In an 8-week, randomized, double-blind, placebo-controlled trial in patients with mild-to-moderate hypertension, the antihypertensive effects of candesartan cilexetil 16 mg were maintained after a missed dose, whereas systolic and diastolic blood pressure increased toward baseline levels after a missed dose of losartan 100 mg. Candesartan cilexetil provided a significantly greater reduction in sitting systolic (p = 0.004) and diastolic blood pressure (p = 0.008) than losartan when measured 48 hours after the last dose. Moreover, the homogeneity of antihypertensive effects was greater after candesartan cilexetil than losartan based on calculation of the smoothness index from ambulatory systolic and diastolic measurements during the first 24-hour period after dosing and during the 12-hour period after the missed dose. These results demonstrate that missing or delaying a dose of candesartan cilexetil has less impact on antihypertensive efficacy than missing or delaying a dose of losartan.

Baroreflex and non-baroreflex modulation of vagal cardiac control after myocardial infarction.

Vagal control of sinus node exerted by arterial baroreceptors is markedly impaired 48 hours after acute myocardial infarction (AMI), but it recovers 10 days later. However, it is unknown whether this recovery is peculiar to baroreceptor vagal control or reflects normalization of the overall vagal modulation of heart rate. In 21 untreated patients (aged 51+/-3 years, mean +/- SEM) studied 10+/-1 and 21+/-1 days after an AMI and in 13 healthy controls (aged 47+/-2 years), we examined the increases in RR interval (electrocardiogram) induced by carotid baroreceptor stimulation via a neck chamber and by immersion of the face in iced water for 15 seconds (diving reflex). Both 10 and 21 days after AMI, baseline blood pressure and RR interval values were superimposable to those obtained in controls. Ten days after AMI, the bradycardic responses to carotid baroreceptor stimulation were similar to those seen in controls (maximal RR interval lengthenings: 248+/-34 vs 270+/-31 ms, respectively, p = NS) and remained virtually unchanged later. In contrast, the bradycardic response to diving was reduced in patients after AMI compared with controls (maximal RR interval lengthenings: 203+/-43 vs 325+/-52 ms, respectively, p <0.05) and did not improve later. Thus, in AMI recovery of the early impairment of baroreceptor-heart rate control does not reflect normalization of vagal cardiac control, which remains lower than normal values at a time when the baroreflex is restored.

Sympathetic nerve traffic responses to surgical removal of pheochromocytoma.

Pheochromocytoma is usually characterized by a marked increase in peripheral catecholamine secretion. Whether this is accompanied by an alteration in central sympathetic drive has not been clarified. In 6 patients with adrenal pheochromocytoma (mean+/-SEM age, 49. 3+/-7.2 years), we measured systolic and diastolic blood pressure (photoplethysmographic device), heart rate (ECG), venous plasma catecholamines (high-performance liquid chromatography), and postganglionic muscle sympathetic nerve activity (microneurography) before and 78.3+/-13 days after surgical removal of the tumor. In each experimental session, measurements were performed during (1) a 60-minute resting period to compare several values of sympathetic nerve traffic at similar blood pressures before and after surgery and (2) voluntary end-expiratory apnea, ie, a maneuver inducing sympathetic activation. Tumor removal significantly (P<0.05 at least) reduced plasma catecholamines, blood pressure, and heart rate. In contrast, muscle sympathetic nerve activity was significantly (P<0.01) increased, both when quantified as bursts per minute (from 28.1+/-5.7 to 54.3+/-7.5) and as bursts per 100 heartbeats (from 33. 4+/-5.6 to 65.1+/-6.5). This was also the case when data were evaluated in periods of 2 experimental sessions characterized by similar diastolic blood pressure values. The apnea maneuver induced sympathetic nerve traffic responses that were significantly (P<0.05) greater after surgery than before surgery. These data provide the first direct evidence that in pheochromocytoma central sympathetic outflow is markedly reduced and that this reduction cannot be ascribed to a reflex inhibitory response to elevated blood pressures. It is likely that this sympathoinhibition is rather due to a central depression of sympathetic outflow induced by high circulating catecholamines.

Muscle and skin sympathetic nerve traffic during the "white-coat" effect.

BACKGROUND: Sphygmomanometric blood pressure measurements induce an alerting reaction and thus an increase in the patient's blood pressure and heart rate. Whether and to what extent this "white-coat" effect is accompanied by detectable changes in sympathetic nerve traffic has never been investigated. METHODS AND RESULTS: In 10 mild untreated essential hypertensives (age 37.9+/-3. 8 years, mean+/-SEM), we measured arterial blood pressure (by Finapres), heart rate (by ECG), and postganglionic muscle and skin sympathetic nerve activity via microneurography. Measurements were performed with the subject supine during (1) a 15-minute control period, (2) a 10-minute visit by a doctor unfamiliar to the patient who was in charge of measuring his or her blood pressure by sphygmomanometry, and (3) a 15-minute recovery period after the doctor's departure. The entire procedure was performed twice at a 45-minute interval to obtain, in separate periods, muscle or skin sympathetic nerve traffic recordings, whose sequence was randomized. The doctor's visit induced a sudden, marked, and prolonged pressor and tachycardic response, accompanied by a significant increase in skin sympathetic nerve traffic (+38.6+/-6.7%, P<0.01). In contrast, muscle sympathetic nerve traffic was significantly inhibited (-25. 5+/-4.1%, P<0.01). All changes persisted throughout the doctor's visit and, with the exception of skin sympathetic nerve traffic, showed a slow rate of disappearance after the doctor's departure. CONCLUSIONS: Thus, the pressor and tachycardic responses to the alerting reaction that accompanies sphygmomanometric blood pressure measurement is characterized by a behavior of the adrenergic nervous system that causes muscle sympathoinhibition and skin sympathoexcitation.

Early effects of total paracentesis and albumin infusion on muscle sympathetic nerve activity in cirrhotic patients with tense ascites.

BACKGROUND/AIMS: Cirrhotic patients with ascites are characterized by a marked activation of the sympathetic and the renin-angiotensin-aldosterone system. Total paracentesis is associated with a short-lived suppression of the renin-angiotensin-aldosterone system. Little information exists as to whether this favourable effect is parallelled by sympathoinhibition. METHODS: In 16 Child C cirrhotic patients (age: 57.1+/-6.2 years, mean+/-SEM) with tense ascites we assessed the time course of the effects of total paracentesis followed by intravenous albumin (6-8 g/l of ascites) on beat-to-beat mean arterial pressure (Finapres), heart rate, plasma norepinephrine, epinephrine (high performance liquid chromatography) and muscle sympathetic nerve activity (microneurography, peroneal nerve). Measurements were obtained under baseline conditions, during staged removal of ascitic fluid (250 ml/min) and 24 h later. The patient remained supine throughout the study period. RESULTS: Total paracentesis (10.6+/-1.3 l) induced a decrease in mean arterial pressure (from 95.0+/-2.6 mmHg to 88.2+/-3.2 mmHg, p<0.01), in heart rate (from 82.5+/-3.3 beats/min to 77.1+/-2.8 beats/min, p<0.01) and a reduction in plasma norepinephrine values (from 782+/-133 pg/ml to 624+/-103 pg/ml, p<0.01), which were substantially maintained 24 h later. In eight patients muscle sympathetic nerve activity did not change during paracentesis (from 65+/-7.1 bursts/min to 65+/-7.4 bursts/min, p=NS), but a marked reduction was observed 24 h later (48.4+/-5.6 bursts/min, p<0.01). CONCLUSIONS: These data provide the first evidence that total paracentesis exerts an acute marked sympathoinhibitory effect. Whether this is a long-lasting phenomenon and to what extent plasma expansion with albumin contributes to this effects need to be further addressed.

Calcium antagonists and sympathetic activity in congestive heart failure.

OBJECTIVE: To review the sympathetic abnormalities occurring in heart failure, their pathophysiological importance and clinical relevance, and the effects of drug treatment, with particular reference to calcium antagonists. SYMPATHETIC ACTIVATION IN HEART FAILURE: Indirect and direct approaches to study sympathetic function in humans have documented conclusively that sympathetic activation represents a hallmark of cardiac failure syndrome. Evidence indicates that sympathetic overactivity is associated with, and probably caused by, a baroreflex impairment and that it has adverse effects on patients' prognosis and survival. GOALS OF DRUG TREATMENT IN CONGESTIVE HEART FAILURE: In the past, drug treatment in heart failure was aimed at improving patients' survival by ameliorating cardiac hemodynamics. It is now established that a major goal of therapeutic intervention is also to reduce sympathetic activation characterizing heart failure. CALCIUM ANTAGONISTS IN HEART FAILURE: Studies with short-acting calcium antagonists show that they enhance sympathetic activation and that this has an adverse effect on patients' survival. In contrast, third generation calcium antagonists such as amlodipine, which have a slow onset and long duration of action, do not adversely affect sympathetic function and reflex cardiovascular control. Indeed, evidence suggests calcium antagonists with this profile may exert favorable clinical effects.

Can good surrogate end-points predict the prognosis of hypertensive patients?

SURROGATE END-POINTS FOR PROGNOSIS OF HYPERTENSION: The identification of surrogate measures of cardiovascular risk in patients with hypertension may allow clinicians to better estimate a patient's long-term prognosis and monitor the effects of antihypertensive therapy in reducing risk and thereby reducing the cardiovascular complications of hypertension. PROGNOSTIC LIMITATIONS OF OFFICE BLOOD PRESSURE: Previous studies have shown that office blood pressure may predict the incidence of fatal and nonfatal cardiovascular complications of hypertension. However, evidence also suggests that the predictive value of office blood pressure is limited and that it does not provide accurate estimates of the changes in the cardiovascular risk profile that can occur with antihypertensive treatment. PROGNOSTIC VALUE OF 24-H AMBULATORY BLOOD PRESSURE: Cross-sectional studies have shown that 24-h average blood pressure values are more closely correlated with hypertensive target-organ damage [e.g. left ventricular hypertrophy (LVH), retinopathy, increased serum creatinine, albuminuria, and microalbuminuria] than are office blood pressure values. Although longitudinal evidence of the clinical relevance of 24-h ambulatory blood pressure monitoring is limited, preliminary data from a recently completed trial, the Study on Ambulatory Pressure and Lisinopril Evaluation (SAMPLE), have clearly shown the superiority of 24-h blood pressure monitoring over office readings in predicting the regression of LVH in hypertensive patients following treatment to reduce blood pressure.

Effect of chronic angiotensin converting enzyme inhibition on sympathetic nerve traffic and baroreflex control of the circulation in essential hypertension.

BACKGROUND: Human studies have shown that the blood pressure lowering effects of angiotensin converting enzyme inhibitors are accompanied by a reduction in plasma norepinephrine levels. Whether this is due to central or peripheral mechanisms is unknown, however. OBJECTIVE: To evaluate the effects of chronic interference with the renin-angiotensin system on sympathetic nerve traffic and baroreflex control of vagal and adrenergic cardiovascular drive. PATIENTS AND METHODS: In 18 untreated mild to moderate essential hypertensive patients aged 48.5+/-1.9 years (mean+/-SEM), we measured mean arterial pressure (Finapres), heart rate (electrocardiogram), plasma renin activity (radioimmunoassay), plasma norepinephrine (high-performance liquid chromatography) and postganglionic muscle sympathetic nerve activity (microneurography at a peroneal nerve). In nine patients, measurements were performed before and after 2 months of oral administration of lisinopril (10 mg/day), while in the remaining nine patients they were performed before and after a 2 month observation period, without the drug administration. Measurements were performed at rest and during baroreflex stimulation and deactivation elicited by stepwise intravenous infusions of phenylephrine and nitroprusside, respectively. RESULTS: Lisinopril induced a marked increase in plasma renin activity (from 1.1+/-0.2 to 6.4+/-1.3 ng/ml per h, P< 0.01) and a reduction in mean arterial pressure (from 109.6+/-3.1 to 98.7+/-2.9 mmHg, P < 0.01) without affecting the heart rate. Plasma norepinephrine and muscle sympathetic nerve activity values were not significantly different before and after lisinopril treatment (plasma norepinephrine values changed from 290.4+/-39.2 to 308.1+/-67.1 pg/ml; muscle sympathetic nerve activity changed from 56.4+/-5.3 to 50.6+/-6.6 bursts/100 heart beats). Neither the sympathoinhibitory nor the sympathoexcitatory responses to phenylephrine and nitroprusside were affected by lisinopril, nor the concomitant bradycardia and tachycardia. The curves relating mean arterial pressure to heart rate and muscle sympathetic nerve activity values during baroreceptor manipulation were shifted to the left, indicating a resetting of the baroreflex to the lower blood pressure values achieved during treatment. CONCLUSIONS In essential hypertension, sympathetic nerve traffic is not affected by chronic angiotensin converting enzyme inhibitor treatment that effectively interferes with the renin-angiotensin system and lowers the elevated blood pressure. The baroreflex ability to modulate heart rate and central sympathetic outflow is also unaffected. These data argue against the existence of a central sympathoexcitatory effect of angiotensin II in this condition. They also indicate that antihypertensive treatment with an angiotensin converting enzyme inhibitor preserves autonomic reflex control, with favorable consequences for cardiovascular homeostasis.

Sympathetic control of circulation in hypertension and congestive heart failure.

Adrenergic overactivity is a common hallmark of both essential hypertension and congestive heart failure. Indirect and direct measures of sympathetic function have clearly shown that sympathetic activation characterizes essential hypertension. This adrenergic overactivity appears to be related to the severity of the hypertensive state, being detectable in its early stages and showing a progressive increase with the severity of the disease. Essential hypertension is also associated with an impaired baroreflex control of vagal activity, whereas baroreceptor modulation of sympathetic nerve traffic remains unaltered, although undergoing a resetting phenomenon. In contrast, secondary hypertension is not associated with an increased adrenergic activity, thus suggesting that an enhancement in efferent sympathetic outflow is a peculiar feature of essential hypertension. Congestive heart failure is a condition also characterized by sympathetic activation, whose degree is proportional to the clinical severity of the disease. This is paralleled by an impairment in arterial baroreceptor modulation of both vagal and sympathetic activity, thus suggesting that the adrenergic overactivity in congestive heart failure is triggered by a reduced afferent restraint on the vasomotor centre. Chronic angiotensin-converting enzyme inhibition reduces the degree of both sympathetic activation and baroreflex dysfunction occurring in heart failure patients, a finding which documents that the neurohumoral abnormalities can be at least partially reversed by pharmacologic treatment.

Comparison between reproducibility and sensitivity of muscle sympathetic nerve traffic and plasma noradrenaline in man.

1. Although plasma noradrenaline and muscle sympathetic nerve traffic have been shown to be suitable markers of sympathetic activity in man, no study has systematically compared the reproducibility and sensitivity of these two indices of adrenergic tone. 2. Reproducibility data were collected in 10 subjects, in whom plasma noradrenaline was assessed by HPLC on blood samples withdrawn from an antecubital vein and efferent postganglionic muscle sympathetic nerve activity was measured by microneurography from a peroneal nerve, together with arterial blood pressure (Finapres technique). Measurements were obtained in a first session (session 1), 60 min later (session 2) and after 14 days (session 3). While muscle sympathetic nerve activity values recorded in the three different experimental sessions were closely and significantly correlated with each other (r always > 0.90, P < 0.001), noradrenaline showed a less significant correlation between sessions 1 and 2 (r = 0.71, P < 0.05) or no correlation between sessions 1 and 3 (r = 0.45, P not significant). 3. Sensitivity data were collected by evaluating muscle sympathetic nerve activity and noradrenaline values in three different age groups (young, middle-age and old subjects, n = 18), in three groups with different blood pressures (normotensive, mild and severe hypertensive subjects, n = 30) and in a group of eight subjects before and after a physical training programme, i.e. conditions known to increase or reduce sympathetic cardiovascular drive. Muscle sympathetic nerve activity was significantly increased by aging and hypertension, and reduced by physical training. The noradrenaline changes were much less marked and consistent. 4. These data suggest that muscle sympathetic nerve activity has a greater short- and medium-term reproducibility than noradrenaline. In several conditions known to modify sympathetic cardiovascular drive muscle sympathetic nerve activity also appears to change more clearly than noradrenaline.

Idiopathic hypereosinophilic syndrome and "eosinophilic leukemia".

We report a case of idiopathic hypereosinophilia syndrome (H.E.S.) with a pronounced myeloproliferative disorder, which during the course of the illness has exceeded more than one "blastic crisis". This again proposes the difficult relationship between H.E.S. and myeloproliferative syndromes (M.S.), and is indicative of why some cases of H.E.S. are differentially diagnosed as chronic myeloid leukemia (C.M.L.) with an eosinophilic component.