Abstract Aims Cardiogenic shock (CS) is often treated with catecholamines titrated to an adequate target mean arterial pressure (MAP) while minimising adverse effects. We aim to assess the optimal catecholamine dose/MAP balance in heart failure-associated CS (HF-CS). Methods and results Patients with HF-CS were retrospectively enrolled from 16 tertiary centres in 5 European countries (2016-2021; NCT03313687). Dosage was quantified by inotropic scores (epinephrine, norepinephrine, dobutamine). Associations of baseline and seven-day summarised dosage with intensive care unit (ICU) discharge (mixed-effects logistic regression) and 30-day mortality (Cox regression) were analysed. Potential catecholamine/MAP target ratios for optimised outcomes were assessed in models adjusted for age, sex, pH, lactate and prior resuscitation, stratified by centre. N=704 patients: median age 63 years, 74% male, 34% post-resuscitation, median lactate 5.2 mmol/l. Of these, 53% were discharged from ICU, 48% died within 30 days. Higher inotropic scores independently predicted a lower probability of ICU discharge (baseline score: OR 0.78 95%-CI 0.69-0.88; summarised score: OR 0.46 0.38-0.56; both p0.001) and higher risk of 30-day mortality (baseline score: HR 1.27 1.15-1.40, summarised score HR 1.83 1.60-2.09; both p0.001). A score/MAP ratio 0.403 µg/kg/min/mmHg was associated with higher ICU discharge odds (ceiling effect); a 0.426 µg/kg/min/mmHg with lower 30-day mortality hazards (no ceiling effect). Lowering catecholamine doses by accepting reduced MAP targets was linked to better outcomes. Conclusion In HF-CS, higher catecholamine support independently associates with worse outcomes. Accepting lower blood pressure targets to reduce catecholamine dosage may improve outcomes. Validation in randomised controlled trials is urgently needed.
Beer et al. (Mon,) studied this question.