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There is substantial evidence that the autonomic system plays an important part in the pathogenesis of atrial fibrillation (AF). It appears that, although some patients have a preponderantly sympathetic or vagal overactivation leading to AF, a combined sympathovagal drive is most commonly responsible for AF triggering. The purpose of this hypothesis-generating study was to test whether moxonidine, a centrally acting sympathoinhibitory agent, on top of optimal antihypertensive treatment, can lead to a decrease in AF burden in hypertensive patients with paroxysmal AF. This was a prospective, double-blind, 1-group, crossover study. Hypertensive patients with paroxysmal AF sequentially received treatment with placebo and moxonidine for two 6-week periods, respectively. The change in AF burden (measured as minutes of AF per day in three 48-hour Holter recordings) between the 2 treatment periods was the primary outcome measure. Fifty-six patients (median age 63.5 years, 35 men) were included. During moxonidine treatment, AF burden was reduced from 28.0 min/day (interquartile range [IQR] 15.0 to 57.8) to 16.5 min/day (IQR 4.0 to 36.3; p <0.01). European Heart Rhythm Association symptom severity class decreased from a median of 2.0 (IQR 1.0 to 2.0) to 1.0 (IQR 1.0 to 2.0; p = 0.01). Systolic blood pressure levels were similar in the 2 treatment periods, whereas diastolic blood pressure was lower (p <0.01) during moxonidine treatment. The most frequent complaint was dry mouth (28.6%). No serious adverse events were recorded. In conclusion, treatment with moxonidine, a centrally acting sympathoinhibitory agent, results in reduction of AF burden and alleviation of AF-related symptoms in hypertensive patients with paroxysmal AF.

Impulsivity refers to a wide spectrum of actions characterized by quick and nonplanned reactions to external and internal stimuli, without taking into account the possible negative consequences for the individual or others, and decision-making is one of the biologically dissociated impulsive behaviors. Changes in impulsivity may be associated with norepinephrine. Various populations of drug addicts all performed impulsive decision making, which is a key risk factor in drug dependence and relapse. The present study investigated the effects of clonidine, which decreased norepinephrine release through presynaptic alpha-2 receptor activation, on the impaired decision-making performance in abstinent heroin addicts. Decision-making performance was assessed using the original version of Iowa Gambling Task (IGT). Both heroin addicts and normal controls were randomly assigned to three groups receiving clonidine, 0, 75 µg or 150 µg orally under double blind conditions. Psychiatric symptoms, including anxiety, depression and impulsivity, were rated on standardized scales. Heroin addicts reported higher scores on the Barratt Impulsiveness Scale and exhibited impaired decision-making on the IGT. A single high-dose of clonidine improved the decision-making performance in heroin addicts. Our results suggest clonidine may have a potential therapeutic role in heroin addicts by improving the impaired impulsive decision-making. The current findings have important implications for behavioral and pharmacological interventions targeting decision-making in heroin addiction.

Ketamine produces a rapid antidepressant response in over 50% of adults with treatment-resistant depression. A long infusion of ketamine may provide durable remission of depressive symptoms, but the safety, efficacy, and neurobiological correlates are unknown. In this open-label, proof-of-principle study, adults with treatment-resistant depression (N = 23) underwent a 96-h infusion of intravenous ketamine (0.15 mg/kg/h titrated toward 0.6 mg/kg/h). Clonidine was co-administered to reduce psychotomimetic effects. We measured clinical response for 8 weeks post-infusion. Resting-state functional magnetic resonance imaging was used to assess functional connectivity in patients pre- and 2 weeks post-infusion and in matched non-depressed controls (N = 27). We hypothesized that responders to therapy would demonstrate response-dependent connectivity changes while all subjects would show treatment-dependent connectivity changes. Most participants completed infusion (21/23; mean final dose 0.54 mg/kg/h, SD 0.13). The infusion was well tolerated with minimal cognitive and psychotomimetic side effects. Depressive symptoms were markedly reduced (MADRS 29 ± 4 at baseline to 9 ± 8 one day post-infusion), which was sustained at 2 weeks (13 ± 8) and 8 weeks (15 ± 8). Imaging demonstrated a response-dependent decrease in hyperconnectivity of the subgenual anterior cingulate cortex to the default mode network, and a treatment-dependent decrease in hyperconnectivity within the limbic system (hippocampus, amygdala, medial thalamus, nucleus accumbens). In exploratory analyses, connectivity was increased between the limbic system and frontal areas, and smaller right hippocampus volume at baseline predicted larger MADRS change. A single prolonged infusion of ketamine provides a tolerated, rapid, and sustained response in treatment-resistant depression and normalizes depression-related hyperconnectivity in the limbic system and frontal lobe.ClinicalTrials.gov: Treatment Resistant Depression (Pilot), NCT01179009.

Objective: To assess the prognostic impact of autonomic activity, as reflected by catecholamines and heart rate variability (HRV), in patients with stable angina pectoris. Design: Double blind, randomised treatment with metoprolol or verapamil. 24 hour ambulatory ECG, used for frequency domain analyses of HRV, and symptom limited exercise tests at baseline and after one month of treatment. Catecholamine concentrations were measured in plasma (rest and exercise) and urine. Setting: Single centre at a university hospital. Patients: 641 patients (449 men) with stable angina pectoris. Main outcome measures: Cardiovascular (CV) death, non-fatal myocardial infarction (MI). Results: During follow up (median 40 months) there were 27 CV deaths and 26 MIs. Patients who died of CV causes had lower total power and high (HF), low (LF), and very low (VLF) frequency components of HRV. HRV was not altered in patients who suffered non-fatal MI. Catecholamines did not differ between patients with and those without events. Metoprolol increased HRV. Verapamil decreased noradrenaline (norepinephrine) excretion. Multivariate Cox analyses showed that total power, HF, LF, and VLF independently predicted CV death (also non-sudden death) but not MI. LF:HF ratios and catecholamines were not related to prognosis. Treatment effects on HRV did not influence prognosis. Conclusions: Low HRV predicted CV death but not non-fatal MI. Neither the LF:HF ratio nor catecholamines carried any prognostic information. Metoprolol and verapamil influenced LF, HF, and catecholamines differently but treatment effects were not related to prognosis.

The global burden of atrial fibrillation (AF) is constantly increasing, necessitating novel and effective therapeutic options. Sodium glucose co-transporter 2 (SGLT2) inhibitors have been introduced in clinical practice as glucose-lowering medications. However, they have recently gained prominence for their potential to exert substantial cardiorenal protection and are being evaluated in large clinical trials including patients with type 2 diabetes and normoglycemic adults. In this review we present up-to-date available evidence in a pathophysiology-directed manner from cell to bedside. Preclinical and clinical data regarding a conceivable antiarrhythmic effect of SGLT2 inhibitors are beginning to accumulate. Herein we comprehensively present data that explore the potential pathophysiological link between SGLT2 inhibitors and AF. With regard to clinical data, no randomized controlled trials evaluating SGLT2 inhibitors effects on AF as a pre-specified endpoint are available. However, data from randomized controlled trial post-hoc analysis as well as observational studies point to a possible beneficial effect of SGLT2 inhibitors on AF. Meta-analyses addressing this question report inconsistent results and the real magnitude of AF prevention by SGLT2 inhibition remains unclear. Still, while (i) pathophysiologic mechanisms involved in AF might be favorably affected by SGLT2 inhibitors and (ii) emerging, yet inconsistent, clinical data imply that SGLT2 inhibitor-mediated cardiorenal protection could also exert antiarrhythmic effects, the argument of whether these novel drugs will reduce AF burden is unsettled and mandates appropriately designed and adequately sized randomized controlled studies.

Purpose of ReviewThe moderate glucose-lowering effect of sodium glucose co-transporter 2 (SGLT2) inhibitors is unlikely to explain SGLT2 inhibitor-mediated beneficial outcomes, and unravelling the underlying mechanisms is a high priority in the research community. Given the dominant pathophysiologic role of the sympathetic nervous system activation in conditions such as hypertension and perturbed glucose homeostasis, it is pertinent to postulate that SGLT2 inhibitors may exert their beneficial effects at least in part via sympathetic inhibition.Recent FindingsSGLT2 inhibitors have shown enormous potential to improve cardiovascular outcomes in patients with type 2 diabetes, and their therapeutic potential is currently being investigated in a range of associated comorbidities such as heart failure and chronic kidney disease. Indeed, recent experimental data in relevant animal models highlight a bidirectional interaction between sympathetic nervous system activation and SGLT2 expression, and this facilitates several of the features associated with SGLT2 inhibition observed in clinical trials including improved glucose metabolism, weight loss, increased diuresis, and lowering of blood pressure.SummaryCurrently available data highlight the various levels of interaction between the sympathetic nervous system and SGLT2 expression and explores the potential for SGLT2 inhibition as a therapeutic strategy in conditions commonly characterised by sympathetic activation.

A stellate ganglion block (SGB) is a clinical sympathetic block which can inhibit the body systemic inflammatory response. However, whether and how SGB can attenuate the sepsis-induced acute lung injury remains unclear. Here, we evaluated the effect of SGB on sepsis-induced acute lung injury in rats. Ninety healthy Sprague Dawley (SD) male rats were divided into three groups: the sham operation group (S group), sepsis group (Sep group), and SGB group. The sepsis model rats were produced by cecum ligation and puncture (CLP), and blood samples were taken from the abdominal aorta of the rats at different time points for evaluating the concentration of TNF-α, IL-6, and IL-10 by enzyme-linked immunosorbent assay (ELISA). The rats were sacrificed, and lungs were collected to measure the wet/dry (W/D) lung tissue weight ratio, score the lung tissue pathological damage by microscopic examination, determine the myeloperoxidase (MPO) activity by spectrophotometry, and measure nuclear factor-kappa B (NF-κB) p65 expression by Western blot. The concentration of serum TNF-α, IL-6, and IL-10, lung tissue W/D ratio, pathological injury score, MPO activity, and expression of NF-κB p65 were higher in the Sep group compared with the S group at T1–4. Furthermore, the concentration of serum TNF-α and IL-6, lung tissue W/D ratio, pathological damage score, MPO activity, and expression of NF-κB p65 were reduced and the concentration of IL-10 was increased in the SGB group compared with the Sep group at T1–4. The successful sepsis model rats were induced by CLP, and SGB attenuated the sepsis-induced acute lung injury in rats.

Worldwide, 200 million adults undergo major noncardiac surgery annually, and 10 million of these patients will have a major vascular complication. Low-dose clonidine and low-dose acetyl-salicylic acid (ASA) may prevent major perioperative vascular complications. We therefore initiated the POISE-2 trial to establish the perioperative effects of these 2 interventions. The POISE-2 trial is a 2 × 2 factorial randomized controlled trial of low-dose ASA vs placebo and low-dose clonidine vs placebo in 10,000 patients at risk for a perioperative cardiovascular event who are undergoing noncardiac surgery. Both study drugs are initiated prior to surgery (goal 2-4 hours) and are continued after surgery. Patients, health care providers, data collectors, and outcome adjudicators are blinded to treatment allocation. The primary outcome is a composite of mortality and nonfatal myocardial infarction at 30 days after randomization. To date, the POISE-2 trial has recruited more than 9,000 patients from 135 centers in 23 countries. Among the first 7,500 patients recruited, patients' mean age was 68.2 years, 53.4% were male, 34.0% had a history of vascular disease, and 38.3% had diabetes that was treated. Participants had orthopedic (38.1%), general (27.0%), urologic or gynecologic (17.2%), vascular (6.6%), thoracic (5.7%), and other (5.4%) surgery. POISE-2 is a large international trial that will rigorously evaluate the effects of low-dose clonidine and ASA in patients having noncardiac surgery.

Abstract Introduction: Sodium-glucose co-transporter 2 inhibitors (SGLT2is) have been shown to provide effective cardiorenal protection, reducing mortality in conditions such as heart failure and chronic kidney disease. While several mechanisms have been identified, recent research has shed light on the drug’s ability to attenuate sympathetic nervous system (SNS) activity. Controversy exists on whether this is due to the extra-renal effects of the drug, or simply due to its renoprotective effects. However, recent trials have highlighted the persistent efficacy of SGLT2i despite declining renal function. Therefore, investigating the ability of SGLT2i to attenuate the SNS independently of the kidney could lead to more insight into its mechanism of action. So far, there has been limited research done on investigating the extra-renal effects of SGLT2i in human subjects on dialysis where the glycosuric renal effects of SGLT2i are negligible. This current study therefore aims to investigate the effects of SGLT2i on the SNS in anuric haemodialysis patients. Methods: We developed a protocol for a mechanistic study to investigate the extra-renal effects of SGLT2i on the SNS. The study will be an investigator-led, open-label, prospective study involving 20 adult (aged ≥18 years) haemodialysis patients with a residual urine output of ≤250 mL/day. Participants will be administered empagliflozin 25 mg/day for 6 weeks. Baseline SNS activity will be measured before and after administration by microneurography to assess central SNS outflow. Secondary outcomes such as changes from baseline in SNS stressor response, heart rate variability, and endothelial function will also be examined. We hypothesize that the use of empagliflozin will result in reduced sympathetic drive in anuric haemodialysis patients. Discussion: This will be the first study evaluating the effects of SGLT2i on the SNS in haemodialysis subjects. This study aims to enhance our understanding of the potential role of SGLT2i-induced SNS reduction in the setting of markedly reduced renal function. The study has received ethics approval from the Royal Perth Hospital Human Research Ethics Committee (RGS0000003840) (Australian New Zealand Clinical Trials Registry [ANZCTR] ID: ACTRN12623001237673).