- Journal List
- F1000Res
- v.7; 2018
- PMC6178903
As a library, NLM provides access to scientific literature. Inclusion in an NLM database does not imply endorsement of, or agreement with, the contents by NLM or the National Institutes of Health.
Learn more: PMC Disclaimer | PMC Copyright Notice
Version 1. F1000Res. 2018; 7: 1013.
Published online 2018 Jul 6. doi:10.12688/f1000research.15373.1
PMCID: PMC6178903
PMID: 30356455
Hedwig Widestedt, Data Curation, Formal Analysis, Writing – Original Draft Preparation, Writing – Review & Editing,1 Jasna Giesecke, Data Curation, Methodology, Validation,2 Pernilla Karlsson, Data Curation, Methodology, Supervision, Validation,2 and Jan G. Jakobsson, Conceptualization, Investigation, Methodology, Resources, Supervision, Writing – Original Draft Preparation, Writing – Review & Editinga,1
Author information Article notes Copyright and License information PMC Disclaimer
Associated Data
- Data Availability Statement
Peer Review Summary
Review date | Reviewer name(s) | Version reviewed | Review status |
---|---|---|---|
2018 Oct 8 | David A. Pearson | Version 1 | Approved |
2018 Sep 17 | Søren Mikkelsen | Version 1 | Approved |
Abstract
Background: Cardiac arrest requires rapid and effective handling. Huge efforts have been implemented to improve resuscitation of sudden cardiac arrest patients. Guidelines around the various parts of effective management, thechain of survival, are available. The aim of the present retrospective study was to study sudden in-hospital cardiac arrest (IHCA) and the outcomes of emergence team resuscitation in a university hospital in Sweden.
Methods: The Swedish Cardiopulmonary Resuscitation Registry was used to access all reported cases of IHCA at Danderyd Hospital from 2012 through 2017. Return of spontaneous circulation (ROSC), discharge alive, 30-day mortality and Cerebral Performance Scales score (CPC) were analysed.
Results: 574 patients with cardiac arrests were included in the study: 307 patients (54%) had ROSC; 195 patients (34%) were alive to be discharged from hospital; and 191 patients (33%) were still alive at day-30 after cardiac arrest. Witnessed cardiac arrests, VT/VF as initial rhythm and experiencing cardiac arrest in high monitored wards were factors associated with success. However, 53% of patients’ alive at day-30 had a none-shockable rhythm, 16% showed initially a pulseless electrical activity and 37% asystole.
CPC score was available for 188 out of the 195 patients that were alive to be discharged: 96.5% of patients where data was available had a favourable neurological outcome, a CPC-score of 1 or 2 at discharge, and only 6 of these patients had a CPC-score of 3 or higher (3%).
Conclusions: One third of patients with sudden IHCA were discharged from hospital and alive at day-30, a clear majority without cognitive deficit related to the cardiac arrest. High monitored care, witnessed cardiac arrest and shockable rhythm were factors associated with high success; however, more than half of surviving patients had initially a none-shockable rhythm.
Keywords: Cardiac Arrest, in-hospital resuscitation, CPR, 30-day mortality
Introduction
The importance of prompt recognition of cardiac arrest and initiation of cardio-pulmonary resuscitation has been shown repeatedly1,2. The chain of survival, prompt recognition, early/bystander cardiopulmonary resuscitation (CPR) and early defibrillation is indeed of outmost importance3. Efforts to improve the results from out-of-hospital have been implemented and our hospital has likewise put training efforts into basic and advanced CPR.
The aim of the present retrospective register project was to study sudden in-hospital cardiac arrest (IHCA) and the outcomes of emergence team resuscitation at a hospital in Sweden.
Methods
This is a retrospective single-centre register study in which the Swedish CPR Registry was used to access all reported cases of IHCA in Danderyd Hospital, Stockholm, Sweden. The study protocol was approved by Stockholm Ethical Review Board (EPN; 2017/4:10 approved 2017-11-08, Annika Sandström). Patient informed consent is not required for register studies in accordance with Swedish research regulations.
All reported cases of IHCA at Danderyd Hospital where CPR was initiated, from January 1st 2012 to December 31st 2017, were included in the study.
Place of cardiac arrest, witnessed cardiac arrest, bystander CPR, time to initiated CPR, initial rhythm, number of defibrillations, patients with return of spontaneous circulation (ROSC), patients discharged from hospital, Cerebral Performance Scales (CPC) score of discharged patients and 30-day mortality was studied.
Statistics
Data is presented as mean and standard deviation and frequencies as applicable. Differences has been studied by Student’s t-test and ANOVA for continuous variables and Chi sqaured test for category data. A p<0.05 has been considered statistically significant. Statistics has been calculated with SPSS Statistics® for Macintosh version 24 (Armonk, New York, USA) and Microsoft Excel © 2017 version 16.9.
Results
A total of 574 patients with sudden IHCA were included in the study: 340 males and 234 females, with a mean age of 73 ± 14 years: 72 ± 13 for males and 75 ± 14 for the females (p<0.05).
The most common place for a sudden cardiac arrest was the Coronary Care Unit (CCU) followed by cardiology and medical wards. A majority (84%) of the cardiac arrests were witnessed, and bystander CPR was initiated within one minute in 96% of cardiac arrest cases. The most common initial rhythm was asystole (n=215) and the least common was VT/VF (n=147). The highest prevalence of VT/VF (57%) was seen in the percutaneous coronary intervention lab followed by the CCU and Intensive Care Unit (ICU) (33% and 27%).
In total, 333 (55.5%) of cardiac arrest patients were successfully resuscitated and had ROSC: 195 patients (34%) were discharged from hospital and 191 (33%) were still alive at day-30 after cardiac arrest (33%), seeFigure 1.
Figure 1.
Open in a separate window
Outcome of resuscitation of in-hospital cardiac arrest.
ROSC, return of spontaneous circulation.
The highest 30-day survival rate was seen in patients with cardiac arrest in the PCI lab (61%), with the next to highest 30-day survival rate (46%) seen in the CCU.
Shockable rhythm was associated with success: CCU, VT/VF alive at day-30 had 21 out of 28 patients (75%); PCI, VT/VF alive at day-30 had 26 out of 35 patients (74%); and ICU, VT/VF alive at day-30 had 7 out of 12 patients (58%). Overall 89 out of the 167 patients (53%) alive at day-30 had an initial none-shockable rhythm. Age had an impact: patients alive at day-30 were significantly younger than those who were not alive at day-30 (69vs 75 years; p=0.001) (Table 1).
Table 1.
Factors with impact on successful outcome of resuscitation of in-hospital cardiac arrest.
Alive Day-30 (n=191) | Dead Day-30 (n=383) | All (n=574) | |
---|---|---|---|
Gender Male/Female | 119/72 | 221/162 | 340/234 |
Age years | 69* ± 13 | 75 ± 13 | |
Bystander CPR Yes/No | 188/2 | 370/12 | 558/14 |
Time to Bystander CPR; 0’/1’/2’ | 174**/12/5 | 330/34/18 | 504/46/23 |
Witnessed CA | 183/7 | 299/84 | 482/91 |
Initial Rhythm, PEA/Asystole/VT/VF | 27/62/78* | 146/149/53 | 173/211/131 |
Place for CA: High monitoring setting/low monitoring setting | 119**/70 | 145/232 | 264/302 |
Open in a separate window
CA cardiac arrest, CPR cardio-pulmonary resuscitation, PEA pulse-less electric activity, VT ventricular tachycardia, VF ventricular fibrillation.
P< 0.001 **, p< 0.05 *alive vs- dead day-30
CPC-score was available for 188 out of the 195 patients that were alive to be discharged (96%). In total, 96.5% of patients where data was available had a favourable neurological outcome after cardiac arrest, i.e. a CPC score of 1 or 2 at discharge.
Discussion
We found that one third of patients suffering sudden IHCA were alive at day-30 and that patients alive to be discharged did not experience significant impairment of cognitive function. A majority of cardiac arrests were witnessed cardiac arrest and CPR had been initiated within 1–2 minutes. Having VT/VF as an initial rhythm and a lower age of the patient increased the chance of survival. However, it is worth noticing that more than half of the surviving patients had a non-shockable initial rhythm.
A previous study at Danderyd Hospital in the late 1980s found only 9 out of 61 IHCA patients were alive to be discharged (15%)4. The survival rate seen in our study is higher than that presented from a study in Ireland on in-hospital resuscitation in 2011, one year before the start of our study, which found a 27% survival rate of discharge5. The average survival rate in our study is also higher than the survival rate reported from a US survey of in-hospital resuscitation including a total of 838,465 patients6. Data analysed from the Nationwide Inpatient Sample databases between 2003 and 2011 showed a 24.7% overall survival to hospital discharge6. A study conducted in Finland between 2009 and 2011, including 279 adult IHCA patients attended by the medical emergency team in a university hospital's general wards, found a 180-day survival rate of 19%7. They commented on the importance of shockable primary rhythm, monitored/witnessed event and low comorbidity score for survival. One should acknowledge that our study covered the period 2012 to 2017 and all hospital wards, including coronary and general intensive care departments. A study from China revealed a low survival rate where only 9.1% of patients were discharged alive8. Our results are however in line with a previous studies from Sweden. Herlitzet al. found a 43% survival rate for discharge among cardiac arrest patients suffering cardiac arrest in wards with monitoring facilities, and a 31% survival rate among cardiac arrest patients in general wards. They also found cerebral function to be favourable in most patients9,10.
Our study does have limitations. We did not study the causes of cardiac arrest. It should be acknowledged that cardiac arrest cases throughout the hospital were included in the study, not only on cardiac arrest in high dependency wards and in patients with heart disease. There is missing data for initial rhythm in about 10% of cases, which means that conclusions concerning prevalence of different cardiac rhythms must be performed with caution. It should also be acknowledged that we do not have data on time to defibrillation.
To conclude, one third of IHCA patients resuscitated by the emergency team could be discharged alive and were still alive at day-30 in our study cohort, a majority without signs of cognitive impairment related to cardiac arrest. Most cardiac arrests were witnessed and CPR had been initiated within minutes. We found initial shockable rhythm VT/VF to be a factor related to successful CPR, which is similar to what has been shown for out-of-hospital CA; however, it should be noted that more than half of survivors had a none-shockable initial rhythm.
Data availability
The data has been retrieved from the Swedish CPR register (https://www.hlr.nu/svenska-hlr-registret/). This is a national database, supported by the Swedish and European Resuscitation Councils. The data can be retrieved by request from CPR register (https://shlrsjh.registercentrum.se/) following Ethical Review board approval on application (https://www.epn.se/en/start/).
Notes
[version 1; referees: 2 approved]
Funding Statement
This study was supported by the Department of Anaesthesia & Intensive Care, Danderyds Hospital. No external funding was provided.
The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
References
1. Hasselqvist-Ax I, Riva G, Herlitz J, et al.:Early cardiopulmonary resuscitation in out-of-hospital cardiac arrest.N Engl J Med.2015;372(24):2307–15. 10.1056/NEJMoa1405796 [PubMed] [CrossRef] [Google Scholar]
2. Malta Hansen C, Kragholm K, Pearson DA, et al.:Association of Bystander and First-Responder Intervention With Survival After Out-of-Hospital Cardiac Arrest in North Carolina, 2010-2013.JAMA.2015;314(3):255–64. 10.1001/jama.2015.7938 [PubMed] [CrossRef] [Google Scholar]
3. Ong MEH, Perkins GD, Cariou A:Out-of-hospital cardiac arrest: prehospital management.Lancet.2018;391(10124):980–988. 10.1016/S0140-6736(18)30316-7 [PubMed] [CrossRef] [Google Scholar]
4. Jakobsson J, Dahlqvist M, Rehnqvist N:Resuscitation of hospitalized patients.J Intern Med.1990;227(1):15–8. 10.1111/j.1365-2796.1990.tb00112.x [PubMed] [CrossRef] [Google Scholar]
5. O'Sullivan E, Deasy C:In-hospital Cardiac Arrest at Cork University Hospital.Ir Med J.2016;109(1):335–8. [PubMed] [Google Scholar]
6. Kolte D, Khera S, Aronow WS, et al.:Regional variation in the incidence and outcomes of in-hospital cardiac arrest in the United States.Circulation.2015;131(16):1415–25. 10.1161/CIRCULATIONAHA.114.014542 [PubMed] [CrossRef] [Google Scholar]
7. Tirkkonen J, Hellevuo H, Olkkola KT, et al.:Aetiology of in-hospital cardiac arrest on general wards.Resuscitation.2016;107:19–24. 10.1016/j.resuscitation.2016.07.007 [PubMed] [CrossRef] [Google Scholar]
8. Shao F, Li CS, Liang LR, et al.:Incidence and outcome of adult in-hospital cardiac arrest in Beijing, China.Resuscitation.2016;102:51–6. 10.1016/j.resuscitation.2016.02.002 [PubMed] [CrossRef] [Google Scholar]
9. Herlitz J, Bång A, Aune S, et al.:Characteristics and outcome among patients suffering in-hospital cardiac arrest in monitored and non-monitored areas.Resuscitation.2001;48(2):125–35. 10.1016/S0300-9572(00)00249-5 [PubMed] [CrossRef] [Google Scholar]
10. Herlitz J, Aune S, Bång A, et al.:Very high survival among patients defibrillated at an early stage after in-hospital ventricular fibrillation on wards with and without monitoring facilities.Resuscitation.2005;66(2):159–66. 10.1016/j.resuscitation.2005.03.018 [PubMed] [CrossRef] [Google Scholar]
David A. Pearson, Referee1
1Department of Emergency Medicine, Carolinas Medical Center, Charlotte, NC, USA
Competing interests: No competing interests were disclosed.
Review date: 2018 Oct 8. Status: Approved. doi:10.5256/f1000research.16752.r38715
This retrospective study demonstrates outcomes after in-hospital cardiac arrest as abstracted from a Swedish cardiac arrest registry. This study demonstrates a significant number of non-shockable initial arrest patients with a good neurological outcome, particularly those in PEA. To make this study more robust, it is essential to clarify the code response team, both personnel and process, as well as to ensure consistent definition of cardiac arrest, which in the study was defined as “CPR was initiated”, which needs more clarification (i.e., chest compressions initiated). Finally, there are multiple studies demonstrating similar positive results after in-hospital cardiac arrest. This study represents another study demonstrating the importance of resisting premature prognostication after in-hospital cardiac arrest, regardless of initial rhythm, as many survive with meaningful neurological recovery.
I have read this submission. I believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.
Søren Mikkelsen, Referee1
1Mobile Emergency Care Unit, Department of Anaesthesiology and Intensive Care Medicine, Odense University Hospital, Odense, Denmark
Competing interests: No competing interests were disclosed.
Review date: 2018 Sep 17. Status: Approved. doi:10.5256/f1000research.16752.r37733
The aim of the study was to investigate sudden in-hospital cardiac arrests.
The authors report that one third of the patients that suffer in-hospital cardiac arrest are discharged alive form the hospital.
The authors describe that the chances of survival increases with shockable rhythm and lower age. Furthermore, and somewhat surprising, the authors report that more than half of the patients initially had a non-shockable rhythm.
General comments:
The study is a single centre study in which the authors report a survival rate following in-hospital cardiac arrest somewhat higher than described in most other studies.
Between the lines, this reviewer gets the notion that the medical emergency team is responsible for the favourable results. The study is, however, devoid of speculations on why this apparent increase in survival is found at Danderyd Hospital compared with other hospitals. This is somewhat disappointing. There is ample literature available to support discussions on the potential benefits of applying medical emergency teams and I feel that a discussion on caused for survival should have been discussed.
The authors report that more than half of the patients that survive to discharge are met with an initial non-shockable rhythm. This is an interesting finding and should have been discussed.
As it stands, the paper is just a reporting on rather favourable outcomes following in-hospital cardiac arrest and is not delving deeper into causes and explanations.
Specific comments:
One sentence is rather difficult to comprehend: “The aim of the present retrospective study was to study sudden in-hospital cardiac arrest (IHCA) and the outcomes of emergence team resuscitation in a university hospital in Sweden.”
Should the sentence read: “The aim of the present retrospective study was to study sudden in-hospital cardiac arrest (IHCA) and the cerebral outcomes following resuscitation by an emergency team in a university hospital in Sweden.”
Statistics:
When applying means, standard deviations and t-test, the tested variables should follow a normal distribution. Have the authors assured that?
References:
The list of references is rather small and do not support a deeper discussion of results. Not one reference to the concept of medical emergency teams is made.
Although apparently not the scope of this paper, a more comprehensive discussion of medical emergency teams would have been in order and the list of references should have reflected that.
I have read this submission. I believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard.
Articles from F1000Research are provided here courtesy of F1000 Research Ltd