Aims Data regarding impact of COVID‐19 in chronic heart failure (CHF) patients and its potential to trigger acute heart failure (AHF) is lacking. The aim of this work was to study characteristics, cardiovascular outcomes and mortality in patients with confirmed COVID‐19 infection and prior diagnosis of HF. Also, to identify predictors and prognostic implications for AHF decompensations during hospital admission and to determine whether there was a correlation between withdrawal of HF guideline‐directed medical therapy (GDMT) and worse outcomes during hospitalization. Methods and results A total of 3080 consecutive patients with confirmed COVID‐19 infection and at least 30‐day follow‐up were analyzed. Patients with previous history of CHF (152, 4.9%), were more prone to develop AHF (11.2% vs 2.1%; p<0.001) and had higher levels of NT‐proBNP. Also, previous CHF group had higher mortality rates (48.7% vs 19.0%; p<0.001). In contrast, 77 patients (2.5%) were diagnosed of AHF and the vast majority (77.9%) developed in patients without history of HF. Arrhythmias during hospital admission and CHF were main predictors of AHF. Patients developing AHF had significantly higher mortality (46.8% vs 19.7%; p<0.001). Finally, withdrawal of beta‐blockers, mineralocorticoid antagonists and ACE/ARB inhibitors was associated with a significant increase of in‐hospital mortality. Conclusions Patients with COVID‐19 have a significant incidence of AHF, entity that carries within a very high mortality. Moreover, patients with history of CHF are prone to develop acute decompensation after COVID‐19 diagnosis. Withdrawal of GDMT was associated with higher mortality.
Aims Extensive research regarding the association of troponin and prognosis in coronavirus disease 2019 (COVID‐19) has been performed. However, data regarding natriuretic peptides are scarce. N‐terminal pro B‐type natriuretic peptide (NT‐proBNP) reflects haemodynamic stress and has proven useful for risk stratification in heart failure (HF) and other conditions such as pulmonary embolism and pneumonia. We aimed to adequately characterize NT‐proBNP concentrations using a large cohort of patients with COVID‐19, and to investigate its association with prognosis. Methods and results Consecutive patients with confirmed severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) infection and available NT‐proBNP determinations, from March 1st to April 20th, 2020 who completed at least 1‐month follow‐up or died, were studied. Of 3080 screened patients, a total of 396 (mean age 71.8 ± 14.6 years, 61.1% male) fulfilled all the selection criteria and were finally included, with a median follow‐up of 53 (18–62) days. Of those, 192 (48.5%) presented NT‐proBNP levels above the recommended cut‐off for the identification of HF. However, only 47 fulfilled the clinical criteria for the diagnosis of HF. Patients with higher NT‐proBNP during admission experienced more frequent bleeding, arrhythmias and HF decompensations. NT‐proBNP was associated with mortality both in the whole study population and after excluding patients with HF. A multivariable Cox model confirmed that NT‐proBNP was independently associated with mortality after adjusting for all relevant confounders (hazard ratio 1.28, 95% confidence interval 1.13–1.44, per logarithmic unit). Conclusion NT‐proBNP is frequently elevated in COVID‐19. It is strongly and independently associated with mortality after adjusting for relevant confounders, including chronic HF and acute HF. Therefore, its use may improve early prognostic stratification in this condition.
Background— It is recommended that comatose survivors of out-of-hospital cardiac arrest should be cooled to 32° to 34°C for 12 to 24 hours. However, the optimal level of cooling is unknown. The aim of this pilot study was to obtain initial data on the effect of different levels of hypothermia. We hypothesized that deeper temperatures will be associated with better survival and neurological outcome. Methods and Results— Patients were eligible if they had a witnessed out-of-hospital cardiac arrest from March 2008 to August 2011. Target temperature was randomly assigned to 32°C or 34°C. Enrollment was stratified on the basis of the initial rhythm as shockable or asystole. The target temperature was maintained during 24 hours followed by 12 to 24 hours of controlled rewarming. The primary outcome was survival free from severe dependence (Barthel Index score ≥60 points) at 6 months. Thirty-six patients were enrolled in the trial (26 shockable rhythm, 10 asystole), with 18 assigned to 34°C and 18 to 32°C. Eight of 18 patients in the 32°C group (44.4%) met the primary end point compared with 2 of 18 in the 34°C group (11.1%) (log-rank P =0.12). All patients whose initial rhythm was asystole died before 6 months in both groups. Eight of 13 patients with initial shockable rhythm assigned to 32°C (61.5%) were alive free from severe dependence at 6 months compared with 2 of 13 (15.4%) assigned to 34°C (log-rank P =0.029). The incidence of complications was similar in both groups except for the incidence of clinical seizures, which was lower (1 versus 11; P =0.0002) in patients assigned to 32°C compared with 34°C. On the contrary, there was a trend toward a higher incidence of bradycardia (7 versus 2; P =0.054) in patients assigned to 32°C. Although potassium levels decreased to a greater extent in patients assigned to 32°C, the incidence of hypokalemia was similar in both groups. Conclusions— The findings of this pilot trial suggest that a lower cooling level may be associated with a better outcome in patients surviving out-of-hospital cardiac arrest secondary to a shockable rhythm. The benefits observed here merit further investigation in a larger trial in out-of-hospital cardiac arrest patients with different presenting rhythms. Clinical Trial Registration— URL: http://www.clinicaltrials.gov . Unique identifier: NCT01155622.
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