Rhythm and conduction disturbances and sudden cardiac death (SCD) are important manifestations of cardiac involvement in autoimmune rheumatic diseases (ARDs). In patients with rheumatoid arthritis (RA), a major cause of SCD is atherosclerotic coronary artery disease, leading to acute coronary syndrome and ventricular arrhythmias. In systemic lupus erythematosus (SLE), sinus tachycardia, atrial fibrillation and atrial ectopic beats are the major cardiac arrhythmias. In some cases, sinus tachycardia may be the only manifestation of cardiac involvement. The most frequent cardiac rhythm disturbances in systemic sclerosis (SSc) are premature ventricular contractions (PVCs), often appearing as monomorphic, single PVCs, or rarely as bigeminy, trigeminy or pairs. Transient atrial fibrillation, flutter or paroxysmal supraventricular tachycardia are also described in 20-30% of SSc patients. Non-sustained ventricular tachycardia was described in 7-13%, while SCD is reported in 5-21% of unselected patients with SSc. The conduction disorders are more frequent in ARD than the cardiac arrhythmias. In RA, infiltration of the atrioventricular (AV) node can cause right bundle branch block in 35% of patients. AV block is rare in RA, and is usually complete. In SLE small vessel vasculitis, the infiltration of the sinus or AV nodes, or active myocarditis can lead to first-degree AV block in 34-70% of patients. In contrast to RA, conduction abnormalities may regress when the underlying disease is controlled. In neonatal lupus, 3% of infants whose mothers are antibody positive develop complete heart block. Conduction disturbances in SSc are due to fibrosis of sinoatrial node, presenting as abnormal ECG, bundle and fascicular blocks and occur in 25-75% of patients.
Ularitide lowered cardiac filling pressures and improved dyspnoea without apparent early deleterious effects on renal function in DHF patients. These results suggest that ularitide may play a role in the management of DHF.
Despite a myriad of causes, pericardial diseases present in few clinical syndromes. Acute pericarditis should be differentiated from aortic dissection, myocardial infarction, pneumonia/pleuritis, pulmonary embolism, pneumothorax, costochondritis, gastroesophageal reflux/neoplasm, and herpes zoster. High-risk features indicating hospitalization are: fever >38 °C, subacute onset, large effusion/tamponade, failure of non-steroidal anti-inflammatory drugs (NSAIDs), previous immunosuppression, trauma, anticoagulation, neoplasm, and myopericarditis. Treatment comprises 10-14-days NSAID plus 3 months colchicine (2 × 0.5 mg; 1 × 0.5 mg in patients <70 kg). Corticosteroids are avoided, except for autoimmunity, as they facilitate the recurrences. Echo-guided pericardiocentesis (±fluoroscopy) is indicated for tamponade and effusions >2 cm. Smaller effusions are drained if neoplastic, purulent or tuberculous etiology is suspected. In recurrent pericarditis, repeated testing for autoimmune and thyroid disease is appropriate. Pericardioscopy and pericardial/epicardial biopsy may clarify the etiology. Familial clustering was recently associated with tumor necrosis factor receptor-associated periodic syndrome (TNFRSF1A gene mutation). Treatment includes 10-14 days NSAIDs with colchicine 0.5 mg bid for up to 6 months. In non-responders, low-dose steroids, intrapericardial steroids, azathioprine, and cyclophosphamide can be tried. Successful management with interleukin-1 receptor antagonist (anakinra) was recently reported. Pericardiectomy remains the last option in >2 years severely symptomatic patients. In constriction, expansion of the heart is impaired by the rigid, chronically inflamed/thickened pericardium (no thickening ~20 %). Chest radiography, echocardiography, computerized tomography, magnetic resonance imaging, hemodynamics, and endomyocardial biopsy indicate the diagnosis. Pericardiectomy is the only treatment for permanent constriction. Predictors of poor survival are prior radiation, renal dysfunction, high pulmonary artery pressures, poor left ventricular function, hyponatremia, age, and simultaneous HIV and tuberculous infection.
Background: We assessed the prevalence of newly diagnosed prediabetes and type-2 diabetes mellitus (T2DM), and their impact on long-term mortality in patients hospitalized for worsening heart failure with reduced ejection fraction (HFrEF). Methods: We included patients hospitalized with HFrEF and New York Heart Association (NYHA) functional class II-III. Baseline two-hour oral glucose tolerance test was used to classify patients as normoglycaemic or having newly diagnosed prediabetes or T2DM. Outcomes included post-discharge all-cause and cardiovascular mortality during the median follow-up of 2.1 years. Results: At baseline, out of 150 patients (mean-age 57 AE 12 years; 88% male), prediabetes was diagnosed in 65 (43%) patients, and T2DM in 29 (19%) patients. These patients were older and more often with NYHA class III symptoms, but distribution of comorbidities was similar to normoglycaemic patients. Taking normoglycaemic patients as a reference, adjusted risk of all-cause mortality was significantly increased both in patients with prediabetes (hazard ratio, 2.6; 95% confidence interval (CI), 1.1-6.3; p ¼ 0.040) and in patients with T2DM (hazard ratio, 5.3; 95% CI, 1.7-15.3; p ¼ 0.023). Likewise, both prediabetes (hazard ratio, 2.9; 95% CI, 1.1-7.9; p ¼ 0.041) and T2DM (hazard ratio, 9.7; 95% CI 2.9-36.7; p ¼ 0.018) independently increased the risk of cardiovascular mortality compared with normoglycaemic individuals. There was no interaction between either prediabetes or T2DM and heart failure aetiology or gender on study outcomes (all interaction p-values > 0.05). Conclusions: Newly diagnosed prediabetes and T2DM are highly prevalent in patients hospitalized for worsening HFrEF and NYHA functional class II-III. Importantly, they impose independently increased long-term risk of higher all-cause and cardiovascular mortality.
Aims To assess the proportion of patients with heart failure and reduced ejection fraction (HFrEF) who are eligible for sacubitril/valsartan (LCZ696) based on the European Medicines Agency/Food and Drug Administration (EMA/FDA) label, the PARADIGM‐HF trial and the 2016 ESC guidelines, and the association between eligibility and outcomes. Methods and results Outpatients with HFrEF in the ESC‐EORP‐HFA Long‐Term Heart Failure (HF‐LT) Registry between March 2011 and November 2013 were considered. Criteria for LCZ696 based on EMA/FDA label, PARADIGM‐HF and ESC guidelines were applied. Of 5443 patients, 2197 and 2373 had complete information for trial and guideline eligibility assessment, and 84%, 12% and 12% met EMA/FDA label, PARADIGM‐HF and guideline criteria, respectively. Absent PARADIGM‐HF criteria were low natriuretic peptides (21%), hyperkalemia (4%), hypotension (7%) and sub‐optimal pharmacotherapy (74%); absent Guidelines criteria were LVEF>35% (23%), insufficient NP levels (30%) and sub‐optimal pharmacotherapy (82%); absent label criteria were absence of symptoms (New York Heart Association class I). When a daily requirement of ACEi/ARB ≥ 10 mg enalapril (instead of ≥ 20 mg) was used, eligibility rose from 12% to 28% based on both PARADIGM‐HF and guidelines. One‐year heart failure hospitalization was higher (12% and 17% vs. 12%) and all‐cause mortality lower (5.3% and 6.5% vs. 7.7%) in registry eligible patients compared to the enalapril arm of PARADIGM‐HF. Conclusions Among outpatients with HFrEF in the ESC‐EORP‐HFA HF‐LT Registry, 84% met label criteria, while only 12% and 28% met PARADIGM‐HF and guideline criteria for LCZ696 if requiring ≥ 20 mg and ≥ 10 mg enalapril, respectively. Registry patients eligible for LCZ696 had greater heart failure hospitalization but lower mortality rates than the PARADIGM‐HF enalapril group.
Natural history of pericardial diseases can be complicated with pericardial emergencies requiring prompt diagnosis, intensive care with hemodynamic monitoring, and early aggressive management. Medical supportive measures, drainage of pericardial effusion, surgical pericardiotomy, and pericardiectomy should be applied when needed with no delay. This procedural approach also applies to iatrogenic interventions leading to tamponade.
Buckground: The idea to enter the normal pericardial sac safely was unrealistic until recently. The development of a novel instrument (PerDUCERO pericardial access device) for percutaneous access to the pericardium could potentially have a significant impact, not only on patients with pericardial diseases but even more, or primarily, on diagnosis and treatment of myocardial and coronary disease and arrhythmias. Hypothesis: The overall objective of the present study was to evaluate the feasibility and safety of the percutaneous pericardial access with PerDUCER in patients with pericardial disease, and to analyze our initial experience with this new technique, with particular emphasis on sequential procedural steps. Methods: The device was studied in five patients with pericardial disease (two men, mean age 50.4 years, range 30-68, four with normal body mass index). The procedure consists of two distinct techniques: (1) access to the mediastinal space, and (2) pericardial capture, puncture, and insertion of the guidewire. Access to the mediastinal space includes the introduction of a blunt cannula, a 0.038 guidewire, a dilator-introducer sheath set, and insertion of the PerDUCER device. Key points of the PerDUCER procedure are as follows: introduction of the blunt cannula without resistance, placement of the dilator-introducer sheath at the upper third of the heart, systolic movements of the PerDUCER device, successful vacuum and capture of pericardium, puncture and introduction of the intrapericardial guidewire.
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