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The concept of compressions only cardiopulmonary resuscitation (CO-CPR) evolved from a perception that lay rescuers may be less likely to perform mouth-to-mouth ventilations during an emergency. This study hopes to describe the efficacy of bystander compressions and ventilations cardiopulmonary resuscitation (CV-CPR) in cardiac arrest following drowning.
Hypothesis/Problem:
The aim of this investigation is to test the hypothesis that bystander cardiopulmonary resuscitation (CPR) utilizing compressions and ventilations results in improved survival for cases of cardiac arrest following drowning compared to CPR involving compressions only.
Methods:
The Cardiac Arrest Registry for Enhanced Survival (CARES) was queried for patients who suffered cardiac arrest following drowning from January 1, 2013 through December 31, 2017, and in whom data were available on type of bystander CPR delivered (ie, CV-CPR CO-CPR). The primary outcome of interest was neurologically favorable survival, as defined by cerebral performance category (CPC).
Results:
Neurologically favorable survival was statistically significantly associated with CV-CPR in pediatric patients aged five to 15 years (aOR = 2.68; 95% CI, 1.10–6.77; P = .03), as well as all age group survival to hospital discharge (aOR = 1.54; 95% CI, 1.01–2.36; P = .046). There was a trend with CV-CPR toward neurologically favorable survival in all age groups (aOR = 1.35; 95% CI, 0.86–2.10; P = .19) and all age group survival to hospital admission (aOR = 1.29; 95% CI, 0.91–1.84; P = .157).
Conclusion:
In cases of cardiac arrest following drowning, bystander CV-CPR was statistically significantly associated with neurologically favorable survival in children aged five to 15 years and survival to hospital discharge.
Low rates of bystander cardiopulmonary resuscitation (CPR) were identified as a shortcoming in the “chain of survival” for out-of-hospital cardiac arrest (OHCA) care in the Korean city of Ansan. This study sought to evaluate the effect of an initiative to increase bystander CPR and quality of out-of-hospital resuscitation on outcome from OHCA. The post-intervention data were used to determine the next quality improvement (QI) target as part of the “Plan-Do-Study-Act” (PDSA) model for QI.
Hypothesis:
The study hypothesis was that bystander CPR, return of spontaneous circulation (ROSC), and survival to discharge after OHCA would increase in the post-intervention period.
Methods:
This was a retrospective pre/post study. The data from the pre-intervention period were abstracted from 2008–2011 and the post-intervention period from 2012–2013. The effect of the intervention on the odds of ROSC and survival to hospital discharge was determined using a generalized estimating equation to account for confounders and the effect of clustering within medical centers. The analysis was then used to identify other factors associated with outcomes to determine the next targets for intervention in the chain of survival for cardiac arrest in this community.
Results:
Rates of documented bystander CPR increased from 13% in the pre-intervention period to 37% in the post-intervention period. The overall rate of ROSC decreased from 18.4% to 14.3% (risk difference −4.1%; 95% CI, −7.1%–1.0%), whereas survival to hospital discharge increased from 3.9% to 5.0% (risk difference 1.1%; 95% CI, −1.8%–3.8%), and survival with good neurologic outcome increased from 0.8% to 1.6% (risk difference 0.8%; 95% CI, −0.8%–2.4%). In multivariable analyses, there was no association between the intervention and the rate of ROSC or survival to hospital discharge. The designated level of the treating hospital was a significant predictor of both survival and ROSC.
Conclusion:
In this case study, there were no observed improvements in outcomes from OHCA after the targeted intervention to improve out-of-hospital CPR. However, utilizing the PDSA model for QI, the designated level of the treating hospital was found to be a significant predictor of survival in the post-period, identifying the next target for intervention.
Survival rates following out-of-hospital cardiac arrest (OHCA) increase two to three times when cardiopulmonary resuscitation (CPR) is started by bystanders, as compared to starting CPR when Emergency Medical Services (EMS) arrives. Municipalities that have implemented dispatcher-assisted bystander CPR programs have seen increased rates of bystander CPR. Cardiopulmonary resuscitation instructions are given for victims of all ages, but it is unknown if offering instructions results in similar rates of EMS-documented bystander CPR across the age continuum in these municipalities.
Objectives
The aim of this study was to determine if there is a difference in EMS-documented bystander CPR rates based on the age group of the OHCA victim when dispatcher CPR instructions are available in the community.
Methods
This was a three-year, retrospective chart review of OHCA patients in two municipalities within a single county that provided dispatcher-assisted CPR instructions. Bystander CPR and patient age were determined based on EMS documentation. Age was stratified into three groups: child (0-12 years), adult (13-54 years), and geriatric (≥55 years). Chi square was used to compare the rate of bystander CPR in each age group.
Results
During the study period, 1,993 patients were identified as being in OHCA at the time of EMS arrival. The overall bystander CPR rate was 10%. The highest rate of bystander CPR was in the child age group (19%). The lowest rate of bystander CPR was in the geriatric age group (9%). There was a statistically significant difference between age groups (P≤.01).
Conclusions
The rate of EMS-documented bystander CPR was low, even though these municipalities provided dispatcher-assisted CPR instructions. The highest rates of bystander CPR were observed in children (0-12 years). Future investigations should determine why this occurs and if there are opportunities to modify dispatcher coaching based on patient age so that bystander CPR rates improve.
WeinmeisterKL, LernerEB, GuseCE, AteyyahKA, PirralloRG. Dispatcher CPR Instructions Across the Age Continuum. Prehosp Disaster Med. 2018;33(3):342–345.
Bystander cardiopulmonary resuscitation (CPR) improves the likelihood of survival from out-of-hospital cardiac arrest (OHCA), yet it is performed in only 30% of cases. The 2010 guidelines promote chest-compression-only bystander CPR—a change intended to increase willingness to provide CPR.
Objectives
1) To determine whether the Canadian general public is more willing to perform chest-compression-only CPR compared to traditional CPR; 2) to characterize public knowledge of OHCA; and 3) to identify barriers and facilitators to bystander CPR.
Methods
A 32-item survey assessing resuscitation knowledge, and willingness to provide CPR were disseminated in five Canadian regions. Descriptive statistics were used to characterize response distribution. Logistic regression analysis was applied to assess shifts in intention to provide CPR.
Results
A total of 428 completed surveys were analysed. When presented with a scenario of being a bystander in an OHCA, a greater proportion of respondents were willing to provide chest-compression-only CPR compared to traditional CPR for all victims (61.5% v. 39.7%, p<0.001), when the victim was a stranger (55.1% v. 38.8%, p<0.001), or when the victim was an unkempt individual (47.9% v. 28.5%, p<0.001). When asked to describe an OHCA, 41.4% said the heart stopped beating, and 20.8% said it was a heart attack. Identified barriers and facilitators included fear of litigation and lack of skill confidence.
Conclusions
This study identified gaps in knowledge, which may impair the ability of bystanders to act in OHCA. Most respondents expressed greater willingness to provide chest-compression-only CPR, but this was mediated by victim characteristics, skill confidence, and recognition of a cardiac arrest.
The effect of the severe acute respiratory syndrome (SARS) outbreak on the willingness of laypersons to provide bystander cardiopulmonary resuscitation (CPR) using standard CPR (SCPR) or compression-only CPR (CCPR) was evaluated.The preferred type of SCPR in the post-SARS era was assessed.
Methods:
A descriptive study was conducted through telephone interviews. Persons who attended a CPR coursefrom January 2000 through February 2003 answered a structured questionnaire. The respondents' willingnessto perform SCPR or CCPR during a witnessed cardiac arrest of an average adult stranger or that of a family member in the pre-SARS and the post-SARS era was surveyed.
Results:
Data for 305 respondents were processed. For the scenario of cardiac arrest of an average stranger, more respondents would perform CCPR than SCPR in the pre-SARS era (83.6% vs. 61.3%, p <0.001) and in the post- SARS era (77.4% vs. 28.9%, p <0.001). In the scenario of the cardiac arrest of a family member, more would perform CCPR than SCPR in the pre-SARS era (92.8% vs. 87.2%, p <0.001) and in the post-SARS era (92.8% vs. 84.9%, p <0.001). After SARS, more respondents were unwilling to perform SCPR (p <0.001) and CCPR (p <0.001) on strangers. After SARS, more respondents were unwilling to perform SCPR on a family member (p = 0.039), but there was no difference in the preference to perform CCPR (p = 1.000).
Conclusions:
Concerns about SARS adversely affected the willingness of respondents to perform SCPR or CCPRon strangers and to perform SCPR on family members.Compression-only CPR was preferred to SCPR to resuscitate strangers experiencing cardiac arrest after the emergence of SARS.
To evaluate characteristics and outcome of out-of-hospital cardiac arrest (OHCA) patients presenting to the Emergency Department (ED), and to examine factors that could be used to determine to prolong or abort resuscitation for these patients.
Method:
All OHCA patients presenting to the ED were studied over a three-month period from November 2001 through January 2002. Patient with traumatic cardiac arrest were excluded. Data were collected from the ambulance case records, ED resuscitation charts, and the ED Very High Frequency (VHF) radio case-log sheet. Information collected included the patient's demographic characteristics, timings (time from call to ambulance arrival on scene, time from arrival at scene to departure from scene, time from scene to arrival in the ED) recorded in the pre-hospital setting, the outcome of the resuscitation, and the final outcome for patients who survived ED resuscitation.
Results:
Ninety-three non-traumatic patients with an OHCA were studied during the three-month period. Of the 93 patients, 15 (16.1%) survived ED resuscitation, and one survived to hospital discharge. There were no statistically significant differences for age, race, or gender with regards to the outcome of the resuscitation. The initial cardiac rhythms were asystole (65), pulseless electrical activity (21), and ventricular fibrillation (7). Fourteen (15%) received bystander cardiopulmonary resuscitation (CPR). All seven patients with return of spontaneous circulation (ROSC) on arrival in the ED survived ED resuscitation. The ambulance took an average of 11.80 ±3.36 minutes for the survivors and 11.8 ±4.22 minutes for the non-survivors from the time of call to get to these patients. The average of the scene times was 12.5 ±4.61 minutes for the survivors and 12.0 ±4.02 minutes for the non-survivors. Transport time from the scene to the ED took an average of 39.1 ±8.32 minutes for the survivors and 37.2 ±9.00 minutes for the non-survivors.
Conclusion:
The survival rate for patients with OHCA after ED resuscitation is similar to the results from other studies. There is a need to increase the awareness and delivery of basic life support by public education. Automatic External Defibrillators (AED) should be available widely to ensure that the chance of early defibrillation is increased. Prolonged resuscitation efforts appear to be futile for OHCA patients if the time from cardiac arrest until arrival in the ED is ≥30 minutes coupled with no ROSC, and if continuous asystole has been documented for >10 minutes.
Emergency cardiopulmonary resuscitation (CPR) instruction via telephone (ETCPR) is cost-effective compared to prehospital, emergency medical technician (EMT)/paramedic treatment alone of witnessed, ventricular fibrillation (VF) in adult patients.
Methods:
A total of 118 patients, age >18 years, with prehospital, witnessed ventricular fibrillation were studied. Patient data were extracted from hospital records, monitor-defibrillator recordings, paramedic reports, dispatching records, and telephone interviews with bystanders. No ETCPR was available during this period. The costs of ETCPR implementation were estimated retrospectively. Marginal cost of the paramedic service attributable to treatment of VF was calculated from fire department records. Years-of-life saved were estimated from age, gender, and race matched norms.
Results:
Of the 53 patients receiving bystander CPR (BCPR), 14 (26%) survived to hospital discharge versus 4/65 patients (6%) lacking BCPR, These groups did not differ significantly (p>.05) in age, EMS response times, or time from collapse to defibrillation. The mean time interval from collapse to CPR was significantly less for patients with BCPR (1.8 min) than for patients without BCPR (7.1 min). Had all patients received BCPR and survived at the rate of 0.26, 13 additional patients would have survived to hospital discharge. The cost per year-of-life saved by the EMS system with ETCPR would have been [US]$2,834 versus $4,881 without ETCPR. The cost per additional year-of-life saved by ETCPR was estimated to be $560 in patients experiencing out-of-hospital ventricular fibrillation.
Conclusion:
The use of ETCPR instruction of callers by 9-1-1 dispatchers potentially is a cost-effective addition to a two-tier, EMS system for treatment of prehospital ventricular fibrillation.
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