Nora E. Straznicky

Mechanisms of Sympathetic Activation in Obesity-Related Hypertension

Obesity prevalence is soaring in industrialized countries and progressively increasing in the developing world. Altered patterns of nutrition and reduction in work-related energy expenditure have led to obesity becoming a truly global health issue. The central thermodynamic formulation for the origins of obesity, a mismatched energy balance equation, with an excess of dietary calorie intake over body energy expenditure, is a first step in the understanding of this phenomenon but leaves the diverse causal issues unexplored. Dietary calorie intake is modified by multiple social, economic, and cultural issues. Similarly, the reduction in energy expenditure in recent decades has complex origins, deriving from demographic and social change, which includes third-world transition from a labor-intensive agricultural economy to an industrial base, the introduction of household labor-saving devices, the popularity of transportation modes not reliant on physical effort, and from changed recreational habits, particularly in childhood (computer games instead of physical games). The prevalence of childhood obesity is escalating, having whimsically but not entirely unrealistically been attributed to “potato chips and computer chips.” Obesity and hypertension are intimately associated, and both very commonly coexist in individual patients with insulin resistance, hyperinsulinemia, and hyperlipidemia, this clustering of adverse health factors1 being designated the metabolic syndrome. The pathophysiological mechanisms by which obesity leads to hypertension remain uncertain. Understanding these processes might, perhaps, provide a more rational basis for drug treatment of obesity-related hypertension. Attempts at reduction in body weight, although pivotal in the treatment of obesity-related hypertension, more often than not fail, so that antihypertensive drug therapy is often needed. This review analyses the proposition that obesity is characterized by activation of the sympathetic nervous system and that obesity-related hypertension is, in fact, neurogenic, being initiated and sustained by neural mechanisms. At one time, this idea would have been held to fly in the …

Sympathetic activation in chronic renal failure.

The potential involvement of sympathetic overactivity has been neglected in this population despite accumulating experimental and clinical evidence suggesting a crucial role of sympathetic activation for both progression of renal failure and the high rate of cardiovascular events in patients with chronic kidney disease. The contribution of sympathetic neural mechanisms to the occurrence of cardiac arrhythmias, the development of hypertension, and the progression of heart failure are well established; however, the exact mechanisms contributing to heightened sympathetic tone in patients with chronic kidney disease are unclear. This review analyses potential mechanisms underlying sympathetic activation in chronic kidney disease, the range of adverse consequences associated with this activation, and potential therapeutic implications resulting from this relationship.

Sympathetic nervous activation in obesity and the metabolic syndrome--causes, consequences and therapeutic implications.

The world wide prevalence of obesity and the metabolic syndrome is escalating. Contrary to earlier experimental evidence, human obesity is characterised by sympathetic nervous activation, with the outflows to both the kidney and skeletal muscle being activated. While the mechanisms responsible for initiating the sympathetic activation remain to be unequivocally elucidated, hyperinsulinemia, obstructive sleep apnoea, increased circulating adipokines, stress and beta adrenergic receptor polymorphisms are implicated. The pattern of sympathetic activation may be the pathophysiological mechanism underpinning much obesity-related illnesses with the consequences including, amongst others, the development of hypertension, insulin resistance, diastolic dysfunction and renal impairment. While diet and exercise are the first line therapy for the treatment of obesity and the metabolic syndrome, pharmacological interventions targeting the sympathetic nervous system, either directly or indirectly are also likely to be of benefit. Importantly, the benefit may not necessarily be weight related but may be associated with a reduction in end organ damage.

Differing Pattern of Sympathoexcitation in Normal-Weight and Obesity-Related Hypertension

Hypertension in normal-weight and obese individuals is characterized by activation of the sympathetic nervous system. Measurement of spillover of the sympathetic transmitter, norepinephrine, to plasma indicates that the regional pattern of sympathetic activation in the 2 “variants” of essential hypertension differs, excluding the heart in obesity-related hypertension. Whether sympathetic nerve firing characteristics also differ is unknown. We studied multiunit and single fiber sympathetic nerve firing properties in patients with normal-weight hypertension and obesity-related hypertension, comparing these with nerve characteristics in normal-weight and obese people with normal blood pressure. Both normal-weight hypertensive (n=10) and obese hypertensive (n=14) patients had increased total multiunit muscle sympathetic nerve activity compared with the normal-weight (n=11) and obese (n=11) people with normal blood pressure (65±4 versus 47±6 bursts per 100 heartbeats, P<0.01 in the normal-weight groups and 68±4 versus 53±3 bursts per 100 beats, P<0.01 in the obese groups). Sympathetic activation in normal-weight hypertension was characterized by increased firing rate of single vasoconstrictor fibers (70±8 versus 28±3 spikes per 100 beats; P<0.001), increased firing probability per heartbeat (39±3% versus 20±3%; P<0.001), and higher incidence of multiple spikes per heartbeat (30±4% versus 17±4%; P<0.05). Sympathetic activation in obesity-related hypertension differed, involving recruitment of previously silent fibers, which fired at a normal rate. The pattern of sympathetic activation in normal-weight and obesity-related hypertension differs in terms of both the firing characteristics of individual sympathetic fibers and the sympathetic outflows involved. The underlying central nervous system mechanism and the adverse consequences of the 2 modes of sympathetic activation may differ.

Predicting the Glycemic Response to Gastric Bypass Surgery in Patients With Type 2 Diabetes

OBJECTIVE To find clinically meaningful preoperative predictors of diabetes remission and conversely inadequate glycemic control after gastric bypass surgery. Predicting the improvement in glycemic control in those with type 2 diabetes after bariatric surgery may help in patient selection. RESEARCH DESIGN AND METHODS Preoperative details of 154 ethnic Chinese subjects with type 2 diabetes were examined for their influence on glycemic outcomes at 1 year after gastric bypass. Remission was defined as HbA1c ≤6%. Analysis involved binary logistic regression to identify predictors and provide regression equations and receiver operating characteristic curves to determine clinically useful cutoff values. RESULTS Remission was achieved in 107 subjects (69.5%) at 12 months. Diabetes duration <4 years, body mass >35 kg/m2, and fasting C-peptide concentration >2.9 ng/mL provided three independent preoperative predictors and three clinically useful cutoffs. The regression equation classification plot derived from continuous data correctly assigned 84% of participants. A combination of two or three of these predictors allows a sensitivity of 82% and specificity of 87% for remission. Duration of diabetes (with different cutoff points) and C-peptide also predicted those cases in which HbA1c ≤7% was not attained. Percentage weight loss after surgery was also predictive of remission and of less satisfactory outcomes. CONCLUSIONS The glycemic response to gastric bypass is related to BMI, duration of diabetes, fasting C-peptide (influenced by insulin resistance and residual β-cell function), and weight loss. These data support and refine previous findings in non-Asian populations. Specific ethnic and procedural regression equations and cutoff points may vary.

Renal denervation: a potential new treatment modality for polycystic ovary syndrome?

Objective Polycystic ovary syndrome (PCOS) is associated with sympathetic nervous system activation, insulin resistance, and blood pressure elevation. Renal nerve ablation has been demonstrated to reduce sympathetic outflow and improve blood pressure control. Here we report on the effects of renal denervation on hemodynamic, metabolic, and renal parameters in two obese PCOS patients with hypertension. Methods Sympathetic nerve activity was assessed at baseline using microneurography and norepinephrine spillover measurements. Insulin sensitivity was assessed by euglycemic hyperinsulinemic clamp. Measurements of cystatin-C, creatinine clearance, and urinary albumin-creatinine ratio were also obtained. All measurements were repeated 3 months after bilateral renal denervation achieved via percutaneous endovascular radiofrequency ablation. Results Muscle sympathetic nerve activity and whole body norepinephrine spillover were substantially elevated at baseline in both patients by approximately 2.5–3-fold. Bilateral renal nerve ablation reduced both indices of sympathetic nerve activity. This was associated with moderate reductions in blood pressure and a substantial improvement in insulin sensitivity by approximately 17.5% in the absence of weight changes at 3-month follow-up. Glomerular hyperfiltration and urinary albumin excretion were also reduced. Conclusion These findings corroborate the relevance of sympathetic activation in PCOS and suggest that renal denervation exerts beneficial effects not only on blood pressure control but also on insulin sensitivity, renal, and endocrine abnormalities characteristic of PCOS.

Sympathetic Nervous System Activity Is Associated With Obesity-Induced Subclinical Organ Damage in Young Adults

Excess weight is established as a major risk factor for cardiovascular diseases, particularly in young individuals. To get a better understanding of the pathophysiology underlying increased cardiovascular disease risk, we evaluated early signs of organ damage and their possible relationship to sympathetic nervous activity. Eighteen lean (body mass index <25 kg/m2) and 25 overweight or obese (body mass index >25 kg/m2) healthy university students were included in the study. We comprehensively assessed subclinical target organ damage, including the following: (1) assessment of renal function; (2) left ventricular structure and systolic and diastolic function; and (3) endothelial function. Muscle sympathetic nervous activity was assessed by microneurography. Participants with excess weight had decreased endothelial function (P<0.01), elevated creatinine clearance (P<0.05), increased left ventricular mass index (P<0.05), increased left ventricular wall thickness (P<0.01), lower systolic and diastolic function (P<0.01), and elevated muscle sympathetic nervous activity (P<0.001) compared with lean individuals. In multiple regression analysis, endothelial function was inversely related to muscle sympathetic nervous activity (R2=0.244; P<0.05), whereas creatinine clearance and left ventricular mass index were positively related to muscle sympathetic nervous activity, after adjustment for body mass index, sex, and blood pressure (R2=0.318, P<0.01 and R2=0.312, P<0.05, respectively). Excess weight in young individuals is associated with subclinical alterations in renal and endothelial function, as well as in the structure of the heart, even in the absence of hypertension. Sympathetic activity is closely associated with cardiovascular and renal alterations observed in these subjects.

Feasibility of catheter-based renal nerve ablation and effects on sympathetic nerve activity and blood pressure in patients with end-stage renal disease.

BACKGROUND AND OBJECTIVES Sympathetic activation is a hallmark of ESRD and adversely affects cardiovascular prognosis. Efferent sympathetic outflow and afferent neural signalling from the failing native kidneys are key mediators and can be targeted by renal denervation (RDN). Whether this is feasible and effective in ESRD is not known. DESIGN, SETTING, PARTICIPANTS AND MEASUREMENTS In an initial safety and proof-of-concept study we attempted to perform RDN in 12 patients with ESRD and uncontrolled blood pressure (BP). Standardized BP measurements were obtained in all patients on dialysis free days at baseline and follow up. Measures of renal noradrenaline spillover and muscle sympathetic nerve activity were available from 5 patients at baseline and from 2 patients at 12 month follow up and beyond. RESULTS Average office BP was 170.8 ± 16.9/89.2 ± 12.1 mmHg despite the use of 3.8 ± 1.4 antihypertensive drugs. All 5 patients in whom muscle sympathetic nerve activity and noradrenaline spillover was assessed at baseline displayed substantially elevated levels. Three out of 12 patients could not undergo RDN due to atrophic renal arteries. Compared to baseline, office systolic BP was significantly reduced at 3, 6, and 12 months after RDN (from 166 ± 16.0 to 148 ± 11, 150 ± 14, and 138 ± 17 mmHg, respectively), whereas no change was evident in the 3 non-treated patients. Sympathetic nerve activity was substantially reduced in 2 patients who underwent repeat assessment. CONCLUSIONS RDN is feasible in patients with ESRD and associated with a sustained reduction in systolic office BP. Atrophic renal arteries may pose a problem for application of this technology in some patients with ESRD.

Change in sympathetic nerve firing pattern associated with dietary weight loss in the metabolic syndrome

Sympathetic activation in subjects with the metabolic syndrome (MS) plays a role in the pathogenesis of cardiovascular disease development. Diet-induced weight loss decreases sympathetic outflow. However the mechanisms that account for sympathetic inhibition are not known. We sought to provide a detailed description of the sympathetic response to diet by analyzing the firing behavior of single-unit sympathetic nerve fibers. Fourteen subjects (57 ± 2 years, nine men, five females) fulfilling ATP III criteria for the MS underwent a 3-month low calorie diet. Metabolic profile, hemodynamic parameters, and multi-unit and single-unit muscle sympathetic nerve activity (MSNA, microneurography) were assessed prior to and at the end of the diet. Patients’ weight dropped from 96 ± 4 to 88 ± 3 kg (P < 0.001). This was associated with a decrease in systolic and diastolic blood pressure (−12 ± 3 and −5 ± 2 mmHg, P < 0.05), and in heart rate (−7 ± 2 bpm, P < 0.01) and an improvement in all metabolic parameters (fasting glucose: −0.302.1 ± 0.118 mmol/l, total cholesterol: −0.564 ± 0.164 mmol/l, triglycerides: −0.414 ± 0.137 mmol/l, P < 0.05). Multi-unit MSNA decreased from 68 ± 4 to 59 ± 5 bursts/100 heartbeats (P < 0.05). Single-unit MSNA indicated that the firing rate of individual vasoconstrictor fibers decreased from 59 ± 10 to 32 ± 4 spikes/100 heart beats (P < 0.05). The probability of firing decreased from 34 ± 5 to 23 ± 3% of heartbeats (P < 0.05), and the incidence of multiple firing decreased from 14 ± 4 to 6 ± 1% of heartbeats (P < 0.05). Cardiac and sympathetic baroreflex function were significantly improved (cardiac slope: 6.57 ± 0.69 to 9.57 ± 1.20 ms·mmHg−1; sympathetic slope: −3.86 ± 0.34 to −5.05 ± 0.47 bursts/100 heartbeats·mmHg−1, P < 0.05 for both). Hypocaloric diet decreased sympathetic activity and improved hemodynamic and metabolic parameters. The sympathoinhibition associated with weight loss involves marked changes, not only in the rate but also in the firing pattern of active vasoconstrictive fibers.

Gender differences in sympathetic nervous activity: influence of body mass and blood pressure.

Background Obesity and high blood pressure (BP) commonly coexist in patients, and both conditions are associated with elevated sympathetic nervous activity. We tested whether the sympathetic nervous system was differently affected in men and women by the body mass index (BMI), BP, leptin and weight loss. Methods We measured muscle sympathetic nerve activity (MSNA, microneurography), BP and plasma leptin concentrations in 167 age-matched normotensive and hypertensive men and women divided into three subgroups: lean, BMI < 25 kg/m2; overweight, BMI ≥ 25 and < 30 kg/m2; and obese, BMI ≥ 30 kg/m2. These measurements were repeated in a subgroup of 19 obese subjects who underwent a 12-week diet. Results Women with hypertension had increased MSNA compared with their normotensive counterparts (37 ± 2 versus 25 ± 2 bursts/min, analysis of variance, P < 0.001) and MSNA was significantly related to BP (P < 0.05, r2 = 0.236) but not to BMI. MSNA in men with hypertension was no different from that in normotensive subjects (33 ± 2 versus 30 ± 2 bursts/min), but MSNA was significantly related to BMI (P < 0.05, r2 = 0.249). Diet resulted in the same degree of weight loss in men and women, but induced a decrease in MSNA only in men (43 ± 3 to 34 ± 3 bursts/min, P < 0.01). The plasma leptin concentration was higher in women than in men, and for both groups it was related to BMI not BP (r2 = 0.497, P < 0.001 in women and r2 = 0.483, P < 0.001 in men). Conclusion These data demonstrate a gender difference in the regulation of the sympathetic nervous system, in which MSNA mainly relates to BP in women and to BMI in men.