Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) recently emerged in Wuhan, Hubei-China, as responsible for the coronavirus disease 2019 (COVID-19) and then spread rapidly worldwide. While most individuals remain asymptomatic or develop only mild symptoms, approximately 5% develop severe forms of COVID-19 characterized by acute respiratory distress syndrome (ARDS) and multiple-organ failure (MOF) that usually require intensive-care support and often yield a poor prognosis. Summary: The pathophysiology of COVID-19 is far from being completely understood, and the lack of effective treatments leads to a sense of urgency to develop new therapeutic strategies based on pathophysiological assumptions. The exaggerated cytokine release in response to viral infection, a condition known as cytokine release syndrome (CRS) or cytokine storm, is emerging as the mechanism leading to ARDS and MOF in COVID-19, thus endorsing the hypothesis that properly timed
From December 31st, 2019, a novel highly pathogenic coronavirus, severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2), has spread worldwide, reaching at present the dimension of a pandemic. In addition to damaging the lungs, SARS‐CoV‐2 may also damage the heart and this is corroborated by the evidence that cardiovascular comorbidities are associated with a higher mortality and poor clinical outcomes in patient infected by the virus. During the infection myocardial injury, myocarditis and arrhythmias have also been reported, but the pathophysiological mechanisms of these complications are yet to be understood. Great attention is also being posed on the potential beneficial/harmful role of angiotensin converting enzyme (ACE) inhibitors, as far as the virus binds to ACE2 to infect cells, but evidences lack. Furthermore, SARS‐CoV‐2 can also affect the aspect of acute coronary syndromes, not only because these two distinct pathological entities share pathogenic aspects (such as the systemic inflammatory state and cytokine release), but also and above all for the consequences that the need to contain the infection has on the management of cardiological urgencies. The aim of this review was therefore to summarize the relationship between the virus and the cardiovascular system.
Background
Data on the interplay between sexual hormones balance, platelet function and clinical outcomes of adults with ischemic heart disease (IHD) are still lacking.
Objective
To assess the association between the Testosterone (T)-to-Estradiol (E2) Ratio (T/E2) and platelet activation biomarkers in IHD and its predictive value on adverse outcomes.
Methods
The EVA study is a prospective observational study of consecutive hospitalized adults with IHD undergoing coronary angiography and/or percutaneous coronary interventions. Serum T/E2 ratios E2, levels of thromboxane B2 (TxB2) and nitrates (NO), were measured at admission and major adverse events, including all-cause mortality, were collected during a long-term follow-up.
Results
Among 509 adults with IHD (mean age 67 ± 11 years, 30% females), males were older with a more adverse cluster of cardiovascular risk factors than females. Acute coronary syndrome and non-obstructive coronary artery disease were more prevalent in females versus males. The lower sex-specific T/E2 ratios identified adults with the highest level of serum TxB2 and the lowest NO levels. During a median follow-up of 23.7 months, the lower sex-specific T/E2 was associated with higher all-cause mortality (HR 3.49; 95% CI 1.24–9.80; p = 0.018). In in vitro, platelets incubated with T/E2 ratios comparable to those measured in vivo in the lowest quartile showed increased platelet activation as indicated by higher levels of aggregation and TxB2 production.
Conclusion
Among adults with IHD, higher T/E2 ratio was associated with a lower long-term risk of fatal events. The effect of sex hormones on the platelet thromboxane release may partially explain such finding.
Despite continuous technological developments, transvenous pacemakers (PM) are still associated with significant immediate and longterm complications, mostly lead or pocket-related. Recent technological advances brought to the introduction in clinical practice of leadless PM for selected cohort of patients. These miniaturize devices are implanted through the femoral vein and advanced to the right ventricle, without leaving leads in place. Lack of upper extremity vascular access and/or high infective risk in patients requiring VVI pacing are the most common indications to leadless PM. The recently introduced MICRA AV leadless PM also allows ventricular synchronization through mechanical sensing of atrial contraction waves, thus solving the problem of AV synchronization. This review will discuss and summarize available clinical evidence on leadless PM, their performance compared to transvenous devices, current applications and future perspectives.
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