Effect of Intravenous or Intraosseous Calcium vs Saline on Return of Spontaneous Circulation in Adults With Out-of-Hospital Cardiac Arrest: A Randomized Clinical Trial.

Importance It is unclear whether administration of calcium has a beneficial effect in patients with cardiac arrest. Objective To determine whether administration of calcium during out-of-hospital cardiac arrest improves return of spontaneous circulation in adults. Design, Setting, and Participants This double-blind, placebo-controlled randomized clinical trial included 397 adult patients with out-of-hospital cardiac arrest and was conducted in the Central Denmark Region between January 20, 2020, and April 15, 2021. The last 90-day follow-up was on July 15, 2021. Interventions The intervention consisted of up to 2 intravenous or intraosseous doses with 5 mmol of calcium chloride (n = 197) or saline (n = 200). The first dose was administered immediately after the first dose of epinephrine. Main Outcomes and Measures The primary outcome was sustained return of spontaneous circulation. The secondary outcomes included survival and a favorable neurological outcome (modified Rankin Scale score of 0-3) at 30 days and 90 days. Results Based on a planned interim analysis of 383 patients, the steering committee stopped the trial early due to concerns about harm in the calcium group. Of 397 adult patients randomized, 391 were included in the analyses (193 in the calcium group and 198 in the saline group; mean age, 68 [SD, 14] years; 114 [29%] were female). There was no loss to follow-up. There were 37 patients (19%) in the calcium group who had sustained return of spontaneous circulation compared with 53 patients (27%) in the saline group (risk ratio, 0.72 [95% CI, 0.49 to 1.03]; risk difference, -7.6% [95% CI, -16% to 0.8%]; P = .09). At 30 days, 10 patients (5.2%) in the calcium group and 18 patients (9.1%) in the saline group were alive (risk ratio, 0.57 [95% CI, 0.27 to 1.18]; risk difference, -3.9% [95% CI, -9.4% to 1.3%]; P = .17). A favorable neurological outcome at 30 days was observed in 7 patients (3.6%) in the calcium group and in 15 patients (7.6%) in the saline group (risk ratio, 0.48 [95% CI, 0.20 to 1.12]; risk difference, -4.0% [95% CI, -8.9% to 0.7%]; P = .12). Among the patients with calcium values measured who had return of spontaneous circulation, 26 (74%) in the calcium group and 1 (2%) in the saline group had hypercalcemia. Conclusions and Relevance Among adults with out-of-hospital cardiac arrest, treatment with intravenous or intraosseous calcium compared with saline did not significantly improve sustained return of spontaneous circulation. These results do not support the administration of calcium during out-of-hospital cardiac arrest in adults. Trial Registration ClinicalTrials.gov Identifier: NCT04153435.

[1]  J. Soar,et al.  European Resuscitation Council Guidelines 2021: Adult advanced life support. , 2021, Resuscitation.

[2]  C. Gudex,et al.  The Danish EQ-5D-5L Value Set: A Hybrid Model Using cTTO and DCE Data , 2021, Applied Health Economics and Health Policy.

[3]  F. Harrell,et al.  Using Bayesian Methods to Augment the Interpretation of Critical Care Trials. An Overview of Theory and Example Reanalysis of the Alveolar Recruitment for Acute Respiratory Distress Syndrome Trial , 2020, American journal of respiratory and critical care medicine.

[4]  R. Berg,et al.  Trends over time in drug administration during pediatric in-hospital cardiac arrest in the United States. , 2020, Resuscitation.

[5]  P. Kudenchuk,et al.  Part 3: Adult Basic and Advanced Life Support: 2020 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care. , 2020, Circulation.

[6]  N. Paradis,et al.  Intravenous calcium as a pressor in a swine model of hypoxic pseudo-pulseless electrical mechanical activity—a preliminary report , 2020, Intensive Care Medicine Experimental.

[7]  Hans Kirkegaard,et al.  The Danish prehospital emergency healthcare system and research possibilities , 2019, Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine.

[8]  G. Fitzmaurice,et al.  Annual Incidence of Adult and Pediatric In-Hospital Cardiac Arrest in the United States , 2019, Circulation. Cardiovascular quality and outcomes.

[9]  G. Landoni,et al.  Calcium Administration During Weaning From Cardiopulmonary Bypass: A Narrative Literature Review. , 2019, Journal of cardiothoracic and vascular anesthesia.

[10]  R. Neumar,et al.  Vasopressors during adult cardiac arrest: A systematic review and meta-analysis. , 2019, Resuscitation.

[11]  M. Donnino,et al.  Trends Over Time in Drug Administration During Adult In-Hospital Cardiac Arrest* , 2019, Critical care medicine.

[12]  D. Atkins,et al.  Effectiveness of antiarrhythmic drugs for shockable cardiac arrest: A systematic review. , 2018, Resuscitation.

[13]  M. Donnino,et al.  "Resuscitation time bias"-A unique challenge for observational cardiac arrest research. , 2018, Resuscitation.

[14]  J. Soar,et al.  European Resuscitation Council Guidelines for Resuscitation 2015: Section 3. Adult advanced life support. , 2015, Resuscitation.

[15]  B. Kahan Accounting for centre-effects in multicentre trials with a binary outcome – when, why, and how? , 2014, BMC Medical Research Methodology.

[16]  M. Parr,et al.  Calcium administration during cardiac arrest: a systematic review , 2013, European journal of emergency medicine : official journal of the European Society for Emergency Medicine.

[17]  G. Bonsel,et al.  Development and preliminary testing of the new five-level version of EQ-5D (EQ-5D-5L) , 2011, Quality of Life Research.

[18]  G. Guyatt,et al.  Stopping randomized trials early for benefit and estimation of treatment effects: systematic review and meta-regression analysis. , 2010, JAMA.

[19]  L. Ghibelli,et al.  The Dual Role of Calcium as Messenger and Stressor in Cell Damage, Death, and Survival , 2010, International journal of cell biology.

[20]  D. Clapham,et al.  Calcium Signaling , 2007, Cell.

[21]  C. Schäfer,et al.  Cellular mechanisms of ischemia-reperfusion injury. , 2003, The Annals of thoracic surgery.

[22]  G. Guyatt,et al.  Post-randomisation exclusions: the intention to treat principle and excluding patients from analysis , 2002, BMJ : British Medical Journal.

[23]  I. Stiell,et al.  Do advanced cardiac life support drugs increase resuscitation rates from in-hospital cardiac arrest? The OTAC Study Group. , 1998, Annals of emergency medicine.

[24]  A. Laupacis,et al.  Association of drug therapy with survival in cardiac arrest: limited role of advanced cardiac life support drugs. , 1995, Academic emergency medicine : official journal of the Society for Academic Emergency Medicine.

[25]  J. Vincent,et al.  Calcium Administration for Cardiovascular Support in Critically Ill Patients: When Is It Indicated? , 1995, Journal of intensive care medicine.

[26]  D. Clapham,et al.  Calcium signaling , 1995, Cell.

[27]  S. Gando,et al.  Variation in serum ionized calcium on cardiopulmonary resuscitation , 1988, Journal of Anesthesia.

[28]  P. Urban,et al.  Cardiac arrest and blood ionized calcium levels. , 1988, Annals of internal medicine.

[29]  H. Schouten,et al.  Interobserver agreement for the assessment of handicap in stroke patients. , 1988, Stroke.

[30]  D. Kass,et al.  Comparative influence of load versus inotropic states on indexes of ventricular contractility: experimental and theoretical analysis based on pressure-volume relationships. , 1987, Circulation.

[31]  M Nurminen,et al.  Comparative analysis of two rates. , 1985, Statistics in medicine.

[32]  H. Stueven,et al.  The effectiveness of calcium chloride in refractory electromechanical dissociation. , 1984, Annals of emergency medicine.

[33]  H. Stueven,et al.  Lack of effectiveness of calcium chloride in refractory asystole. , 1984, Annals of emergency medicine.

[34]  J. Rosborough,et al.  Hypocalcemia following resuscitation from cardiac arrest revisited. , 2010, Resuscitation.

[35]  D. Allen,et al.  Intracellular calcium and myocardial function during ischemia. , 1993, Advances in experimental medicine and biology.

[36]  A. Fabiato,et al.  Calcium and cardiac excitation-contraction coupling. , 1979, Annual review of physiology.