Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
BMC Cardiovascular Disorders
Published in: BMC Cardiovascular Disorders 1/2021

01-12-2021 | Stroke | Research article

Clinical prediction scores and early anticoagulation therapy for new-onset atrial fibrillation in critical illness: a post-hoc analysis

Authors: Masaaki Sakuraya, Takuo Yoshida, Yusuke Sasabuchi, Shodai Yoshihiro, Shigehiko Uchino

Published in: BMC Cardiovascular Disorders | Issue 1/2021

Login to get access

Abstract

Purpose

This study sought to describe the epidemiology of anticoagulation therapy for critically ill patients with new-onset atrial fibrillation (NOAF) according to CHA2DS2-VASc and HAS-BLED scores and to assess the efficacy of early anticoagulation therapy.

Method

Adult patients who developed NOAF during intensive care unit stay were included. We compared the patients who were treated with and without anticoagulation therapy within 48 h from AF onset. The primary outcome was a composite outcome that included mortality and ischemic stroke during the period until hospital discharge.

Results

In total, 308 patients were included in this analysis. Anticoagulants were administered to 95 and 33 patients within 48 h and after 48 h from NOAF onset, respectively. After grouping the patients into four according to their CHA2DS2-VASc and HAS-BLED bleeding scores, we found that the proportion of anticoagulation therapy administered was similar among all groups. After adjustment using a multivariable Cox regression model, we noted that early anticoagulation therapy did not decrease the composite outcome (adjusted hazard ratio [HR] 0.77; 95% confidence interval [CI] 0.47‒1.23). However, in patients without rhythm control drugs, early anticoagulation was significantly associated with better outcomes (adjusted HR 0.46; 95% CI; 0.22‒0.87, P = 0.041).

Conclusions

We found that clinical prediction scores were supposedly not used in the decision to implement anticoagulation therapy and that early anticoagulation therapy did not improve clinical outcomes in critically ill patients with NOAF.
Trial registration UMIN-CTR UMIN000026401. Registered 5 March 2017.
Appendix
Available only for authorised users
Literature
1.
Annane D, Sebille V, Duboc D, et al. Incidence and prognosis of sustained arrhythmias in critically ill patients. Am J Respir Crit Care Med. 2008;178:20–5.PubMedCrossRef
2.
Bender JS. Supraventricular tachyarrhythmias in the surgical intensive care unit: an under-recognized event. Am Surg. 1996;62:73–5.PubMed
3.
Knotzer H, Mayr A, Ulmer H, et al. Tachyarrhythmias in a surgical intensive care unit: a case-controlled epidemiologic study. Intensive Care Med. 2000;26:908–14.PubMedCrossRef
4.
Alonso-Coello P, Cook D, Xu SC, et al. Predictors, prognosis, and management of new clinically important atrial fibrillation after noncardiac surgery: a prospective cohort study. Anesth Analg. 2017;125:162–9.PubMedCrossRef
5.
6.
7.
8.
Walkey AJ, Hammill BG, Curtis LH, et al. Long-term outcomes following development of new-onset atrial fibrillation during sepsis. Chest. 2014;146:1187–95.PubMedPubMedCentralCrossRef
9.
Yoshida T, Fujii T, Uchino S, et al. Epidemiology, prevention, and treatment of new-onset atrial fibrillation in critically ill: a systematic review. J Intensive Care. 2015;3:19.PubMedPubMedCentralCrossRef
10.
Kuipers S, Klein Klouwenberg PM, Cremer OL. Incidence, risk factors and outcomes of new-onset atrial fibrillation in patients with sepsis: a systematic review. Crit Care. 2014;18:688.PubMedPubMedCentralCrossRef
11.
Gage BF, Waterman AD, Shannon W, et al. Validation of clinical classification schemes for predicting stroke: results from the National Registry of Atrial Fibrillation. JAMA. 2001;285:2864–70.PubMedCrossRef
12.
Lip GY, Nieuwlaat R, Pisters R, et al. Refining clinical risk stratification for predicting stroke and thromboembolism in atrial fibrillation using a novel risk factor-based approach: the euro heart survey on atrial fibrillation. Chest. 2010;137:263–72.PubMedCrossRef
13.
Lip GY, Frison L, Halperin JL, et al. Identifying patients at high risk for stroke despite anticoagulation: a comparison of contemporary stroke risk stratification schemes in an anticoagulated atrial fibrillation cohort. Stroke. 2010;41:2731–8.PubMedCrossRef
14.
January CT, Wann LS, Alpert JS, et al. 2014 AHA/ACC/HRS guideline for the management of patients with atrial fibrillation: executive summary: a report of the American College of Cardiology/American Heart Association Task Force on practice guidelines and the Heart Rhythm Society. Circulation. 2014;130:2071–104.PubMedCrossRef
15.
Pisters R, Lane DA, Nieuwlaat R, et al. A novel user-friendly score (HAS-BLED) to assess 1-year risk of major bleeding in patients with atrial fibrillation: the Euro Heart Survey. Chest. 2010;138:1093–100.PubMedCrossRef
16.
Gallego P, Roldan V, Torregrosa JM, et al. Relation of the HAS-BLED bleeding risk score to major bleeding, cardiovascular events, and mortality in anticoagulated patients with atrial fibrillation. Circ Arrhythm Electrophysiol. 2012;5:312–8.PubMedCrossRef
17.
Garcia-Fernandez A, Marin F, Roldan V, et al. The HAS-BLED score predicts long-term major bleeding and death in anticoagulated non-valvular atrial fibrillation patients undergoing electrical cardioversion. Int J Cardiol. 2016;217:42–8.PubMedCrossRef
18.
Koyfman L, Brotfain E, Kutz R, et al. Epidemiology of new-onset paroxysmal atrial fibrillation in the General Intensive Care Unit population and after discharge from ICU. A retrospective epidemiological study. Anaesthesiol Intensive Ther. 2015;47:309–14.PubMedCrossRef
19.
Salman S, Bajwa A, Gajic O, et al. Paroxysmal atrial fibrillation in critically ill patients with sepsis. J Intensive Care Med. 2008;23:178–83.PubMedCrossRef
20.
Kanji S, Williamson DR, Yaghchi BM, et al. Epidemiology and management of atrial fibrillation in medical and noncardiac surgical adult intensive care unit patients. J Crit Care. 2012;27(326):e1-8.
21.
Walkey AJ, Quinn EK, Winter MR, et al. Practice patterns and outcomes associated with use of anticoagulation among patients with atrial fibrillation during sepsis. JAMA Cardiol. 2016;1:682–90.PubMedPubMedCentralCrossRef
22.
Schoaps RS, Quintili A, Bonavia A, et al. Stroke prophylaxis in critically-ill patients with new-onset atrial fibrillation. J Thromb Thrombolysis. 2019;48:394–9.PubMedCrossRef
23.
Garg A, Khunger M, Seicean S, et al. Incidence of thromboembolic complications within 30 days of electrical cardioversion performed within 48 hours of atrial fibrillation onset. JACC Clin Electrophysiol. 2016;2:487–94.PubMedPubMedCentralCrossRef
24.
Yoshida T, Uchino S, Sasabuchi Y, et al. Prognostic impact of sustained new-onset atrial fibrillation in critically ill patients. Intensive Care Med. 2020;46:27–35.PubMedCrossRef
25.
Darwish OS, Strube S, Nguyen HM, et al. Challenges of anticoagulation for atrial fibrillation in patients with severe sepsis. Ann Pharmacother. 2013;47:1266–71.PubMedCrossRef
26.
Knaus WA, Draper EA, Wagner DP, et al. APACHE II: a severity of disease classification system. Crit Care Med. 1985;13:818–29.PubMedCrossRef
27.
Vincent JL, Moreno R, Takala J, et al. The SOFA (Sepsis-related Organ Failure Assessment) score to describe organ dysfunction/failure. On behalf of the Working Group on Sepsis-Related Problems of the European Society of Intensive Care Medicine. Intensive Care Med. 1996;22:707–10.PubMedCrossRef
28.
Mitric G, Udy A, Bandeshe H, et al. Variable use of amiodarone is associated with a greater risk of recurrence of atrial fibrillation in the critically ill. Crit Care. 2016;20:90.PubMedPubMedCentralCrossRef
29.
Mehran R, Rao SV, Bhatt DL, et al. Standardized bleeding definitions for cardiovascular clinical trials: a consensus report from the Bleeding Academic Research Consortium. Circulation. 2011;123:2736–47.PubMedCrossRef
30.
Czempik P, Cieśla D, Knapik P, et al. Mortality of patients with acute kidney injury requiring renal replacement therapy. Adv Clin Exp Med. 2018;27:327–33.PubMedCrossRef
31.
Colpan A, Akinci E, Erbay A, et al. Evaluation of risk factors for mortality in intensive care units: a prospective study from a referral hospital in Turkey. Am J Infect Control. 2005;33:42–7.PubMedCrossRef
32.
Song JE, Kim MH, Jeong WY, et al. Mortality risk factors for patients with septic shock after implementation of the surviving sepsis campaign bundles. Infect Chemother. 2016;48:199–208.PubMedPubMedCentralCrossRef
33.
Karamchandani K, Schoaps RS, Abendroth T, et al. CHA2DS2-VASc score and in-hospital mortality in critically ill patients with new-onset atrial fibrillation. J Cardiothorac Vasc Anesth. 2020;34:1165–71.PubMedCrossRef
34.
Champion S, Lefort Y, Gauzere BA, et al. CHADS2 and CHA2DS2-VASc scores can predict thromboembolic events after supraventricular arrhythmia in the critically ill patients. J Crit Care. 2014;29:854–8.PubMedCrossRef
35.
Floria M, Tanase DM. Atrial fibrillation type and renal dysfunction: new challenges in thromboembolic risk assessment. Heart. 2019;105:1295–7.PubMedCrossRef
36.
Kapłon-Cieślicka A, Budnik M, Gawałko M, et al. Atrial fibrillation type and renal dysfunction as important predictors of left atrial thrombus. Heart. 2019;105:1310–5.PubMedCrossRef
37.
Yoshida T, Uchino S, Sasabuchi Y, et al. Rhythm-control therapy for new-onset atrial fibrillation in critically ill patients: a post hoc analysis from the prospective multicenter observational AFTER-ICU study. IJC Heart Vasc. 2021;33:100742.CrossRef
38.
Sherman DG. Stroke prevention in atrial fibrillation: pharmacological rate versus rhythm control. Stroke. 2007;38:615–7.PubMedCrossRef
39.
Peterson JJ, Hoehns JD. Administration of direct oral anticoagulants through enteral feeding tubes. J Pharm Technol. 2016;32:196–200.PubMedCentralCrossRef
40.
Smith BS, Yogaratnam D, Levasseur-Franklin KE, et al. Introduction to drug pharmacokinetics in the critically ill patient. Chest. 2012;141:1327–36.PubMedCrossRef
41.
Malouf JF, Alam S, Gharzeddine W, et al. The role of anticoagulation in the development of pericardial effusion and late tamponade after cardiac surgery. Eur Heart J. 1993;14:1451–7.PubMedCrossRef
42.
Dunning J, Nagarajan DV, Amanullah M, et al. What is the optimal anticoagulation management of patients post-cardiac surgery who go into atrial fibrillation? Interact Cardiovasc Thorac Surg. 2004;3:503–9.PubMedCrossRef
Metadata
Title
Clinical prediction scores and early anticoagulation therapy for new-onset atrial fibrillation in critical illness: a post-hoc analysis
Authors
Masaaki Sakuraya
Takuo Yoshida
Yusuke Sasabuchi
Shodai Yoshihiro
Shigehiko Uchino
Publication date
01-12-2021
Publisher
BioMed Central
Published in
BMC Cardiovascular Disorders / Issue 1/2021
Electronic ISSN: 1471-2261
DOI
https://doi.org/10.1186/s12872-021-02235-8

Other articles of this Issue 1/2021

BMC Cardiovascular Disorders 1/2021 Go to the issue

Research article

Diagnostic performance of a wearing dynamic ECG recorder for atrial fibrillation screening: the HUAMI heart study

Case report

Pulmonary embolism originating from germ cell tumor causes severe left ventricular dysfunction in a healthy young adult with full recovery: a case report

Research article

Biochemical predictors of postoperative atrial fibrillation following cardiac surgery

Research

The application of the theory of planned behavior to nutritional behaviors related to cardiovascular disease among the women

Research article

The effects of high-sensitivity C-reactive protein on the clinical outcomes in obstructive sleep apnea patients undergoing off-pump coronary artery bypass grafting

Case report

Immunotherapy reversed myopathy but not cardiomyopathy in a necrotizing autoimmune myopathy patient with positive anti-SRP and MDA-5 autoantibodies

ACC 2024 Congress Coverage

Heart Failure Video

Year in Review: Heart failure and cardiomyopathies

Watch now

Watch this official video from ACC.24. Dr. Biykem Bozkurt discuss last year's major advances in heart failure and cardiomyopathies.

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

16-04-2024 Type 2 Diabetes News

Incentivised to exercise

11-04-2024 Lifestyle Modifications News

New intervention for STEMI-related cardiogenic shock

10-04-2024 Myocardial Infarction News

» View more highlights on the ACC 2024 congress hub page

Image Credits