A novel signalling mechanism regulating telomere length in cardiomyocytes

Clinical management and treatment of human diseases are continuously improving, with a progressive elongation of life expectancy in Western countries. As a consequence of the elevation of the average age of the population, the incidence of ageing-related diseases will progressively in- crease in the next years. Among ageing-related diseases, cardiovascular diseases still represent the first of cause of death in the Western world

Acute Treatment with Renal Denervation in a Patient with Resistant Hypertension and Hemorrhagic Stroke

A 49-year-old man with refractory hypertension was admitted to our hospital in a coma caused by hemorrhagic stroke. Severe hypertension was observed during hospitalization despite a full antihypertensive therapy. Considering the risk of enlargement of the intracranial hematoma, the decision was made to perform renal denervation (RDN). A significant blood pressure reduction was obtained after RDN. The patient had a progressive improvement of general conditions and came out of the coma after a few days. This case underlines the safety and the feasibility of RDN in a critically ill patient

Paclitaxel in endovascular devices. Identikit of a “serial killer”?

Recent developments in the management of peripheral artery disease have been momentous, and a key advance has been the introduction of drug-coated balloons, which capitalise on the mechanical effects of angioplasty balloons, and on the pharmacologic effects of anti-restenotic drugs [1,2]. Indeed, single reports from randomized trials and pooled estimates from meta-analyses have clearly showed that paclitaxel-coated balloons reduce the risk of restenosis and repeat revascularization, while improving patency, limb salvage, and freedom from claudication

Veneto's successful lesson for a world shocked by COVID-19: think globally and act locally

Severe acute respiratory syndrome coronavirus 2 (SARSCoV- 2) infection has wreaked havoc globally, with an ominous morbidity and mortality impact.1,2 Indeed, croronavirus disease 2019 (COVID-19) still represents a formidable challenge for pathophysiology, prognostication, management, and rehabilitation. This holds even truer given the conflicting reports accrued so far for several purportedly effective interventions.1,3,4 Although substantial steps have been accomplished in terms of diagnostic yield, even recognizing early infection is still quite challenging. Each country has addressed COVID-19 in its own way, with variable results. Perusing data on China’s experience with the virus brings forward several questions in terms of completeness and truthfulness of reporting, with substantial skepticism despite several authoritative reports.5 For instance, to date, China has reported fewer COVID-19-related deaths than many smaller countries where COVID-19 spread much later (eg, The Netherlands). Countries and healthcare systems that have acted with a global vision, but also with a firm and proactive local hand, have seen the best results in terms of deaths and system derangement. Conversely, countries with a loose policy (either initially such as the United Kingdom or throughout such as Sweden) have already paid an enormous toll of life and pain, and hypothetically will continue to do so

Percutaneous coronary intervention driven by combined use of intracoronary anatomy and physiology Towards a tailored therapy for coronary artery disease

Coronary angiography classically allows a bidimensional evaluation of the vascular lumen, however with many limitations in the case of eccentric lesions, irregular contour or tortuosity of the vessel.Moreover, it does not enable to assess neither the features of the vessel wall, nor the functional significance of a lesion [1]. Newer technologies are available to overcome these limitations.We present a case of percutaneous coronary revascularization optimized by combined use of two of the most widely used techniques

Successful Coronary Stent Retrieval From a Pedal Artery

The purpose of this article is to report complications from a coronary drug-eluting stent lost in the peripheral circulation. We report the case of successful retrieval of a sirolimus coronary stent from a pedal artery in a young patient who underwent coronary angiography for previous anterior myocardial infarction. Recognition of stent embolization requires adequate removal of the device to avoid unwelcome clinical sequelae. Keywords Coronary stent Microsnare technique Peripheral embolization Stent retrieva

An exploratory study of MoS2 as anode material for potassium batteries

Potassium-based batteries represent one of the emerging classes of post-lithium electrochemical energy storage systems in the international scene, due to both the abundance of raw materials and achievable cell potentials not far from those of lithium batteries. In this context, it is important to define electrodes and electrolytes that give reproducible performance and that can be used by different research groups as an internal standard when developing new materials. We propose molybdenum disulfide (MoS2) as a valid anode choice, being a commercial and easily processable material, the 2D layered structure of which is promising for large potassium ions reversible storage. It has been proven to work for hundreds of cycles, keeping a constant specific capacity around 100 mAh g−1 while also preserving its electrochemical interphase and morphology

Comparison between intermediate and severe coronary stenoses and clinical outcomes of an OCT-guided PCI strategy

We compared optical coherence tomography (OCT) features of intermediate and severe coronary stenoses in patients with stable angina and acute coronary syndrome (ACS), and tested the clinical impact of an OCT-based strategy for treating intermediate stenoses

Processor Allocation for Optimistic Parallelization of Irregular Programs

Optimistic parallelization is a promising approach for the parallelization of irregular algorithms: potentially interfering tasks are launched dynamically, and the runtime system detects conflicts between concurrent activities, aborting and rolling back conflicting tasks. However, parallelism in irregular algorithms is very complex. In a regular algorithm like dense matrix multiplication, the amount of parallelism can usually be expressed as a function of the problem size, so it is reasonably straightforward to determine how many processors should be allocated to execute a regular algorithm of a certain size (this is called the processor allocation problem). In contrast, parallelism in irregular algorithms can be a function of input parameters, and the amount of parallelism can vary dramatically during the execution of the irregular algorithm. Therefore, the processor allocation problem for irregular algorithms is very difficult. In this paper, we describe the first systematic strategy for addressing this problem. Our approach is based on a construct called the conflict graph, which (i) provides insight into the amount of parallelism that can be extracted from an irregular algorithm, and (ii) can be used to address the processor allocation problem for irregular algorithms. We show that this problem is related to a generalization of the unfriendly seating problem and, by extending Tur\'an's theorem, we obtain a worst-case class of problems for optimistic parallelization, which we use to derive a lower bound on the exploitable parallelism. Finally, using some theoretically derived properties and some experimental facts, we design a quick and stable control strategy for solving the processor allocation problem heuristically.Comment: 12 pages, 3 figures, extended version of SPAA 2011 brief announcemen