Carotid Baroreceptor Stimulation for the Treatment of Resistant Hypertension

Interventional activation of the carotid baroreflex has been an appealing idea for the management of resistant hypertension for several decades, yet its clinical application remained elusive and a goal for the future. It is only recently that the profound understanding of the complex anatomy and pathophysiology of the circuit, combined with the accumulation of relevant experimental and clinical data both in animals and in humans, has allowed the development of a more effective and well-promising approach. Indeed, current data support a sustained over a transient reduction of blood pressure through the resetting of baroreceptors, and technical deficits have been minimized with a subsequent recession of adverse events. In addition, clinical outcomes from the application of a new implantable device (Rheos) that induces carotid baroreceptor stimulation point towards a safe and effective blood pressure reduction, but longer experience is needed before its integration in the everyday clinical practice. While accumulating evidence indicates that carotid baroreceptor stimulation exerts its benefits beyond blood pressure reduction, further research is necessary to assess the spectrum of beneficial effects and evaluate potential hazards, before the extraction of secure conclusions

Benefits from Treatment and Control of Patients with Resistant Hypertension

Resistant hypertension is commonly found in everyday clinical practice. However, the risks of resistant hypertension, as well as the benefits of treatment and control of blood pressure in patients with resistant hypertension remain vaguely clarified. Data from small clinical studies and observational cohorts suggest that patients with resistant hypertension are at increased cardiovascular risk, while control of blood pressure offers substantial benefits. It has to be noted however that data from appropriate large randomized studies are missing, and resistant hypertension remains remarkably understudied. Resistant hypertension has attracted significant scientific interest lately, as new therapeutic modalities become available. The interventional management of resistant hypertension either by carotid baroreceptor stimulation or renal sympathetic denervation is currently under investigation with promising preliminary results. This review presents available evidence regarding the benefits of treatment and control of blood pressure in patients with resistant hypertension and offers a critical evaluation of existing data in this field

The interaction of vasoactive substances during exercise modulates platelet aggregation in hypertension and coronary artery disease

<p>Abstract</p> <p>Background</p> <p>Acute vigorous exercise, associated with increased release of plasma catecholamines, transiently increases the risk of primary cardiac arrest. We tested the effect of acute submaximal exercise on vasoactive substances and their combined result on platelet function.</p> <p>Methods</p> <p>Healthy volunteers, hypertensive patients and patients with coronary artery disease (CAD) performed a modified treadmill exercise test. We determined plasma catecholamines, thromboxane A₂, prostacyclin, endothelin-1 and platelet aggregation induced by adenosine diphosphate (ADP) and collagen at rest and during exercise.</p> <p>Results</p> <p>Our results during exercise showed a) platelet activation (increased thromboxane B₂, TXB₂), b) increased prostacyclin release from endothelium and c) decreased platelet aggregation in all groups, significantly more in healthy volunteers than in patients with CAD (with hypertensives lying in between these two groups).</p> <p>Conclusion</p> <p>Despite the pronounced activation of Sympathetic Nervous System (SNS) and increased TXB₂levels during acute exercise platelet aggregation decreases, possibly to counterbalance the prothrombotic state. Since this effect seems to be mediated by the normal endothelium (through prostacyclin and nitric oxide), in conditions characterized by endothelial dysfunction (hypertension, CAD) reduced platelet aggregation is attenuated, thus posing such patients in increased risk for thrombotic complications.</p

Molecular basis of statin-associated myopathy

Coronary artery disease (CAD) constitutes the most common cause of morbidity and mortality in developed countries. Statins effectively reduce low-density lipoprotein cholesterol, an important risk factor for CAD and related acute coronary syndromes. They are an extensively studied group of drugs with versatile properties. Overall, they are safe and effective drugs but their myotoxic potential cannot be overlooked. In this review we focus on the pathogenesis of statins' myopathic side effects. Statins can interfere with protein modification at multiple levels. They can affect protein prenylation, an important post-translational modification of membrane bound proteins. They can also adversely affect selenoprotein synthesis, or can interfere with the biosynthesis of dolichols, which are involved in the process of protein glycosylation. Statin-induced myopathy may be also associated with mitochondrial dysfunction. Statins remain the spearhead of our armamentarium in treating atherosclerotic disease. Consistent with their versatile properties it is anticipated to see in the future their indications to expand. Better understanding of the molecular mechanisms involved in statin-induced myopathy may help identify patient groups susceptible to statins' side effects, thereby increasing their safety

Supporting Active Pharmacovigilance via IT Tools in the Clinical Setting and Beyond: Regulatory and Management Aspects.

Information Technology (IT) could have a prominent role towards the "Active Pharmacovigilance" (AP) paradigm by facilitating the analysis of potential Adverse Drug Reactions (ADRs). PVClinical project aims to build an IT platform enabling the investigation of potential ADRs in the clinical environment and beyond. In this paper, we outline the respective EU regulatory framework and the related Business Processes (BPs), elaborated based on input from clinicians and PV experts as part of the project's "user requirements analysis" phase, highlighting their potential pivotal role in the design of IT tools aiming to support AP