Cardiovascular risk factors differently affect the survival of patients undergoing manual or mechanical resuscitation
- 123 Downloads
Chest compression is a decisive element of cardio-pulmonary resuscitation (CPR). By applying a mechanical CPR device, compression interruptions can be minimised. We examined the efficiency of manual and device-assisted resuscitation as well as the effects of cardiovascular risk factors on the outcome of resuscitation.
In our retrospective, randomised 3-year study the data of adult patients suffering non-traumatic, out-of-hospital, sudden cardiac death (SCD) were analysed (n = 287). The data were retrieved by processing case reports, Utstein sheets and acute coronary syndrome sheets. We compared the data of patients undergoing manual (n = 232) and device-assisted resuscitation (LUCAS-2, n = 55). The primary endpoint was the on-site restoration of spontaneous circulation (ROSC).
Results and conclusion
In 37% of the cases ROSC happened. With respect to ROSC an insignificantly more favourable tendency was demonstrated in the case of device-assisted resuscitation (p = 0.072). In the Lucas group, a higher success rate occurred even in the case of prolonged resuscitation. We found a better outcome in the Lucas group in the case of CPR started a longer time after the SCD (p < 0.05). A positive correlation was established between age and unsuccessful resuscitation (p = < 0.017; r = 0.125). An unfavourable correlation was observed between hypertension and the outcome of resuscitation (p = 0.018; r = 0.143). According to our results the presence of left ventricular hypertrophy poses 5.1-fold risk of unsuccessful CPR (CI: 4.97–5.29).
Advanced age and structural heart diseases can play a role in the genesis of SCD. Importantly, left ventricular hypertrophy and hypertension negatively affect survival.
KeywordsResuscitation Sudden cardiac death Chest compression
Basic life support
Body mass index
Cerebral performance category
European Resuscitaion Council
Left ventricular hypertrophy
No-flow fraction = no-flow time/episode duration (time with ROSC)
Pulseless electrical activity
Return of spontaneous circulation
Sudden cardiac death
There are some 275.000 patients a year in Europe requiring immediate pre-hospital care due to sudden cardiac death (SCD) , but regrettably the survival rate is only 10%. . SCD is an unexpected death occurring generally within 1 h of onset of symptoms . The most common cardiovascular diseases that lead to SCD are coronary atherosclerosis and dilated cardiomyopathy, where the loss of cardiac mechanical function and decreased cardiac output can result in the genesis of malignant ventricular arrhythmias . Koldobskiy et al. have found that renal disease, immunosuppression and obesity are associated with lower success rate to cardiopulmonary resuscitation . In another study by Herlitz et al. data of 33,453 patients with out of hospital cardiac arrest were analysed. Initial heart rhythm, non-professional CPR and age were found to strongly affect the outcome of survival .
Research findings in the past few years have confirmed that one of the most important elements of successful resuscitation is continuous high-quality chest compression interrupted for the shortest possible times [6, 7]. The early detection of circulatory collapse, cardiopulmonary resuscitation started in time and applied efficiently, early defibrillation and effective post-resuscitation care all serve enhancing the chance of survival and reducing the development of complications .
During manual resuscitation interruptions can appear and the depth of compression may also diminish within a short period of time [9, 10]. Therefore, manual application of chest compression is often not effective enough. Recently there has been growing need for the development of special devices with the help of which the quality conditions for the protocol requirements can be met. LUCAS-2 (Lund University Cardiopulmonary Assist System) is the most commonly used mechanical chest compression device in the pre-hospital emergency setting. It has been shown to be able to maintain a quality chest compression at the rate of 102 per minute, and at the depth between 5 and 6 cm as it is recommended by the European Resuscitation Council (ERC) . In Hungary, mostly Advanced Life Support (ALS) crews of the National Ambulance Service begin professional CPR on field, sometimes with the additional use of an external chest compression device .
In this study we aimed to analyse, in three years’ retrospect, the outcome of manual and mechanical device-assisted resuscitation applied on adult patients suffering sudden cardiac arrest out of hospital, as well as the effects of the risk factors leading to sudden cardiac arrest on survival.
Our study was conducted by the Department of Emergency Medicine, University of Debrecen, Hungary. Analysing the period of 01.10.2010–31.12.2013, we processed the data of 287 patients requiring care for sudden, non-traumatic out-of-hospital death. In our retrospective, randomised study we assessed ambulance service case descriptions, Utstein sheets, acute coronary syndrome sheets recorded in the course of treatment, as well as documents outlining previous illnesses, from an electronic hospital database (Medsol). According to the resuscitation method (manual vs. performed with an external chest compression device – Lucas-2), patients were put into two study groups. The primary endpoint was on-site restoration of spontaneous circulation (ROSC). We examined the correlations between the time that passed before resuscitation, initial heart rate, the efficiency of non-professional resuscitation and the outcome. We aimed to determine the neurological status of the patients undergone successful resuscitation when released from hospital, as well as the influence of risk factors leading to SCD on the outcome of resuscitation. The study protocol was approved by the Ethics Committee of the University of Debrecen (number of ethics approval: 16871–2016/EKU 0364/16). The statistical analysis was performed with SPSS for Windows version 24.0. (Armonk, NY: IBM Corp., Released 2016). Variables were characterised with descriptive statistics (case number, average, median and quartile). The differences between the variables were compared in the case of normal distribution by 2-sample t-tests; in the case of non-normal distribution by using Mann-Whitney tests. Where the variances of the examined parameters were significantly different, we applied the Welch correction. The correlation between the variables was established using Spearman rank test. The Odds ratios were calculated with logistic regression. The borderline of significance was p < 0.05. In case of Odds ratios 95% confidence intervals were determined.
Clinical data of the study population. The patients were categorized into two groups based on the method of care received
Case number (items)
61 ± 16.98
65 ± 17.54
Resuscitation period (minutes)
38 ± 2.51
49 ± 1.84
We found non-professional resuscitation documented in eighty cases; on 34 occasions (42.5%) resuscitation was started by an untrained individual, while in 46 cases (57.5%) initial care was provided by the ambulance service. Neurological status of patients (based on Cerebral Performance Category - CPC criteria) determined at the time of release from hospital was also established . There were data available on the neurological status of 70 manually resuscitated patients. In twenty cases (28.5%) we awarded 1 score on the CPC scale, in 5 cases (7%) 3 scores, in 4 cases (6%) 4 scores and in 41 cases (58.5%) 5 scores to the neurological status of the patient. We found data on the neurological status of twenty-one patients successfully resuscitated using a Lucas-2 device in the database. In two cases (9.5%) we awarded 1 score to the patients’ neurological status, in the case of 1 patient (5%) 4 scores were awarded, and in 18 cases (85.5%) 5 scores were awarded. Regarding neurological end status we set up two categories: patients in the categories CPC 1–2 scores were qualified as “good” and patients with CPC 3–4-5 scores were qualified as “bad” . In the case of successful resuscitations, neurological end status was better in the manually resuscitated group (p < 0.05). In the case of one resuscitation performed with a chest compression device, we found a remark about a chest injury in the pathological findings.
In one hundred and sixty-seven cases (87%) hypertension was confirmed (with RR permanently above 140/90 mmHg based on earlier documentation). In the cases of hypertension, resuscitation failed in 104 cases (62%) and it was successful in 63 occasions (38%). Significant correlation was observed between hypertension and the negative outcome of resuscitation (p = 0.018; r = 0.143). According to our calculations the presence of hypertension poses 1.82-fold risk of unsuccessful resuscitation. There were data available on patients’ lipid parameters in 149 cases. Fifty-four percent of patients had hypercholesterolaemia (serum cholesterol> 5.2 mmol/L), while in 46% no lipid abnormalities were evaluated. In the case of higher serum cholesterol resuscitation failed in 37 cases (46%) and was successful in 33 occasions (54%). Considering these observations we found no significant correlation between hypercholesterolaemia and the outcome of resuscitation (p = 0.379; r = 0.024).
Correlations between riskx factors and the return of spontaneous circulation (ROSC) and the parameters negatively affecting the effectiveness of resuscitation
Taking of oral anticoagulants
Previous myocardial infarction
Type I. diabetes mellitus
Type II. diabetes mellitus
Left ventricular hypertrophy
Odds ratios in case of parameters negatively affect ROSC
Left ventricular hypertrophy
In 193 cases data on body mass index (BMI) were detected. In 78 cases (40%) obesity (BMI > 25) was confirmed, while in 115 cases (60%) no pathological overweight was observed. In the cases of obesity, circulation did not return in 44 patients (56%), while regarding 34 subjects (44%) resuscitation was successful. Therefore no significant correlation could be established between body weight and the outcome of resuscitation (p = 0.2766; r = 0.043).
In 211 cases data on any previous myocardial infarction were found. In 56 cases (26.5%) earlier heart attacks were proven, while in the case of 155 patients (73.5%) there were no information indicating any previous myocardial infarction. As regards post-infarction patients, resuscitation was unsuccessful in 35 (62.5%), and successful in 21 cases (37.5%). Thus no significant correlation was found between earlier myocardial infarction and the outcome of resuscitation (p = 0.4579; r = 0.007).
Sixty-six patients had documented diabetes mellitus (36%), while in 118 cases (64%) there were no data indicating the disease. No significant correlation has been established between diabetes mellitus and the success of resuscitation.
Out of 192 patients we found data on earlier treatment for stroke in 13 cases (7%). As regards the patients treated for stroke, resuscitation failed in 8 cases (61.5%), while spontaneous circulation returned in 5 cases (38.5%). Consequently no significant correlation could be established between earlier stroke and the outcome of resuscitation (p = 0.4399; r = 0.0104).
In ninety-three cases there were data indicating that the patients took anticoagulants. Cardiopulmonary resuscitation (CPR) was successful in the case of 45 patients and failed in 48 subjects. Based on these data, no significant correlation between anticoagulant therapy and successful ROSC could be established (p = 0.8798; r = 0.0176).
In the past twenty years cardiovascular mortality has fallen as a result of preventive measures, although cardiovascular diseases continue to claim the lives of 17 million people a year all over the world, 25% of which are casued by SCD . Recent studies have shown that the success of resuscitation highly depends on quality, continuous, and non- interrupted chest compressions [7, 11]. Previously it has also been proven, that during resuscitation the quality of chest compressions are significantly better by LUCAS-2 device compared to manual CPR, because the mechanical device may reduce the no-flow fraction (NFF) [11, 16]. Using mechanical compression higher coronary and cerebral perfusion pressure can be sustained, which is clearly determinative for both ROSC and neurological outcome [17, 18]. The use of a mechanical device allows the emergency medical service (EMS) crew to carry out continuous quality resuscitation during transport or even in confined spaces .
In our present study we intended to examine the outcome of manual and mechanical device-assisted resuscitation in patients suffering sudden cardiac arrest out of hospital, as well as the effects of the risk factors leading to sudden cardiac arrest on survival. Advanced age, left ventricular hypertrophy, and hypertension have been found to be the most adversely influencing substrates of resuscitation. According to our important observation, left ventricular hypertrophy poses 5.1-fold risk, while the presence of hypertension means 1.82-fold risk of unsuccessful resuscitation. Although increased body weight showed no significant correlation with the outcome of resuscitation, our data imply that pathogenic factors playing a role in the thickening of the left ventricular wall, including obesity, may indirectly be important underlying factors regarding survival.
In previous investigations successful resuscitation has been shown to fall to a great extent if the initial heart rhythm analysis confirmed asystole. In such cases only 10% of patients have been successfully stabilised on the spot moreover up to 2% survived hospital treatment. It has similarly been confirmed as an unfavourable sign for the prognosis if the cardiac arrest occurred due to pulseless electrical activity (PEA) . In our study the initial rhythm felt upon arrival on the site has also clearly affected the outcome of CPR. Only a succes rate of 62% was found in the case of PEA, while the presence of ventricular fibrillation meant a higher chance of 90% for the return of circulation.
In more than 57% of the cases the treatment was started by the ambulance service. Unfortunately, in these particular cases there was no non-professional resuscitation or first aid. Therefore we can conclude that for the majority of our patients a hypoxic and/or anoxic period may have been a considerable risk factor and may have influenced the outcome of resuscitation fundamentally. This is probably the explanation for the unfavorable tendency observed in the neurological status of the resuscitated. The disappointingly low number of non-professional resuscitations draws attention to the importance of teaching basic life support (BLS) and wide-scale awareness raising about the chance enhancing potential of early care.
We underline that the frequency of traumatic injuries in the course of CPR using mechanical compression devices was not higher compared to manual resuscitation, showing the clinical applicability of this method.
Importantly, mechanical resuscitation did not have a worse outcome compared to the manual method, despite the fact that chest compression had to be temporarily interrupted while the compression device was placed on the patient .
According to our findings it can be concluded that the use of chest compression devices during resuscitation is safe and effective, and offers a significant help for the emergency care providers. We highlight the importance of preventive medical approach that aims to reduce the frequency of hypertension and ventricular hypertrophy, as significant factors unfavorably affecting survival of patients suffering sudden cardiac death. In our study a relatively low number of non-professional resuscitations have been observed that emphasizes the significance of quality education of basic life support.
Our research findings highlight the pathogenic role of advanced age and related structural heart diseases leading to SCD, and draw attention to left ventricular hypertrophy and hypertension as most important factors negatively affecting survival. Our data suggest that chest compression devices can provide effective and safe help to emergency care providers. We emphasize that a preventive medical attitude applied in order to prevent myocardial structural and electrical remodelling may reduce the pathogenic factors leading to SCD and thereby contribute to improving mortality statistics.
During our investigations all available source of information was utilized, nevertheless the exquisite collection of the examined clinical parameters due to obvious reasons was not possible. However statistically reliable amount of data were used during our calculations.
The authors take the opportunity to express their appreciation to Ben Thomas MD, György Pápai MD and András Ujvárosy for their helpful assistance and critical remarks which have contributed to the improvement of the academic standards of the paper.
This work was supported by GINOP-2.3.2-15-2016-00062.
Availability of data and materials
All data generated or analysed during this study are included in this published article.
All authors confirm that they have read and approved the paper and they have met the criteria for authorship. UD: collected, interpreted and analyzed patient data, prepare the manuscript for publication. SV: statistical analysis and interpretation of data, take part in preparing the manuscript. PT: collected patient data. OT: interpreted data, take part in revising the manuscript. LI: interpreted data, take part in revising the manuscript. PG: interpreted data, take part in revising the manuscript. SzZ: planned study protocol, prepared and reviewed the manuscript before publication.
Ethics approval and consent to participate
The study protocol was approved by the Ethics Committee (Egészségügyi Tudományos Tanács Tudományos és Kutatásetikai Bizottság ETT TUKEB) (number of ethics approval: 16871–2016/EKU 0364/16). The Ethics Committee allowed the research on the basis of the Health Government Decree (235/2009. 18§(2)-a/c), did not consider the consent to be necessary.
Consent for publication
The authors declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
- 11.Tranberg T, Lassen JF, Kaltoft AK. Quality of cardiopulmonary resuscitation in out-of-hospital cardiac arrest before and after introduction of a mechanical chest compression device, Lucas-2; a prospective, observational study. Scand J Trauma Resusc Emerg Med. 2015;23:37–44.CrossRefPubMedPubMedCentralGoogle Scholar
- 15.Priori SG, Blomström-Lundqvist C, Mazzanti A, et al. 2015 ESC guidelines for the management of patients with ventricular arrhythmias and the prevention of sudden cardiac death: the task force for the Management of Patients with ventricular arrhythmias and the prevention of sudden cardiac death of the European Society of Cardiology (ESC). Endorsed by: Association for European Paediatric and Congenital Cardiology (AEPC). Eur Heart J. 2015;36(41):2793–867.CrossRefPubMedGoogle Scholar
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.