Dana Niles

Quantitative Analysis of CPR Quality During In-Hospital Resuscitation of Older Children and Adolescents

OBJECTIVE: Few data exist on pediatric cardiopulmonary resuscitation (CPR) quality. This study is the first to evaluate actual in-hospital pediatric CPR. We hypothesized that with bedside CPR training and corrective feedback, CPR quality can approach American Heart Association (AHA) targets. PATIENTS AND METHODS: Using CPR recording/feedback defibrillators, quality of CPR was assessed for patients ≥8 years of age who suffered a cardiac arrest in the PICU or emergency department (ED). Before and during the study, a bedside CPR training program was initiated. RESULTS: Between October 2006 and February 2008, twenty events in 18 patients met inclusion criteria and resulted in 36749 evaluable chest compressions (CCs) during 392.3 minutes of arrest. CCs were shallow (<38 mm or <1.5 in) in 27.2% (9998 of 36749), with excessive residual leaning force (≥2500 g) in 23.4% (8611 of 36749). Segmental analysis of the first 5 minutes of the events demonstrated that shallow CCs and excessive residual leaning force were less prevalent during the first 5 minutes. AHA targets were not achieved for CC rate in 62 (43.1%) of 144 segments, CC depth in 52 (36.1%) of 144 segments, and residual leaning force in 53 (36.8%) of 144 segments. CONCLUSIONS: This prospective, observational study demonstrates feasibility of monitoring in-hospital pediatric CPR. Even with bedside CPR retraining and corrective audiovisual feedback, CPR quality frequently did not meet AHA targets. Importantly, no flow fraction target of 10% was achieved. Future studies should investigate novel educational methods and targeted feedback technologies.

Interdisciplinary ICU Cardiac Arrest Debriefing Improves Survival Outcomes

Objective:In-hospital cardiac arrest is an important public health problem. High-quality resuscitation improves survival but is difficult to achieve. Our objective is to evaluate the effectiveness of a novel, interdisciplinary, postevent quantitative debriefing program to improve survival outcomes after in-hospital pediatric chest compression events. Design, Setting, and Patients:Single-center prospective interventional study of children who received chest compressions between December 2008 and June 2012 in the ICU. Interventions:Structured, quantitative, audiovisual, interdisciplinary debriefing of chest compression events with front-line providers. Measurements and Main Results:Primary outcome was survival to hospital discharge. Secondary outcomes included survival of event (return of spontaneous circulation for ≥ 20 min) and favorable neurologic outcome. Primary resuscitation quality outcome was a composite variable, termed “excellent cardiopulmonary resuscitation,” prospectively defined as a chest compression depth ≥ 38 mm, rate ≥ 100/min, ⩽ 10% of chest compressions with leaning, and a chest compression fraction > 90% during a given 30-second epoch. Quantitative data were available only for patients who are 8 years old or older. There were 119 chest compression events (60 control and 59 interventional). The intervention was associated with a trend toward improved survival to hospital discharge on both univariate analysis (52% vs 33%, p = 0.054) and after controlling for confounders (adjusted odds ratio, 2.5; 95% CI, 0.91–6.8; p = 0.075), and it significantly increased survival with favorable neurologic outcome on both univariate (50% vs 29%, p = 0.036) and multivariable analyses (adjusted odds ratio, 2.75; 95% CI, 1.01–7.5; p = 0.047). Cardiopulmonary resuscitation epochs for patients who are 8 years old or older during the debriefing period were 5.6 times more likely to meet targets of excellent cardiopulmonary resuscitation (95% CI, 2.9–10.6; p < 0.01). Conclusion:Implementation of an interdisciplinary, postevent quantitative debriefing program was significantly associated with improved cardiopulmonary resuscitation quality and survival with favorable neurologic outcome.

Effect of mattress deflection on CPR quality assessment for older children and adolescents.

UNLABELLED Appropriate chest compression (CC) depth is associated with improved CPR outcome. CCs provided in hospital are often conducted on a compliant mattress. The objective was to quantify the effect of mattress compression on the assessment of CPR quality in children. METHODS A force and deflection sensor (FDS) was used during CPR in the Pediatric Intensive Care Unit and Emergency Department of a childrens hospital. The sensor was interposed between the chest of the patient and hands of the rescuer and measured CC depth. Following CPR event, each event was reconstructed with a manikin and an identical mattress/backboard/patient configuration. CCs were performed using FDS on the sternum and a reference accelerometer attached to the spine of the manikin, providing a means to calculate the mattress deflection. RESULTS Twelve CPR events with 14,487 CC (11 patients, median age 14.9 years) were recorded and reconstructed: 9 on ICU beds (9296 CC), 3 on stretchers (5191 CC). Measured mean CC depth during CPR was 47+/-8mm on ICU beds, and 45+/-7 mm on stretcher beds with overestimation of 13+/-4mm and 4+/-1mm, respectively, due to mattress compression. After adjusting for this, the proportion of CC that met the CPR guidelines decreased from 88.4 to 31.8% on ICU beds (p<0.001), and 86.3 to 64.7% on stretcher (p<0.001). The proportion of appropriate depth CC was significantly smaller on ICU beds (p<0.001). CONCLUSION CC conducted on a non-rigid surface may not be deep enough. FDS may overestimate CC depth by 28% on ICU beds, and 10% on stretcher beds.

Leaning is common during in-hospital pediatric CPR, and decreased with automated corrective feedback

BACKGROUND Cardiopulmonary Resuscitation (CPR) guidelines recommend complete release between chest compressions (CC). No study has evaluated prevalence of leaning and the effect of real-time automated audiovisual feedback during in-hospital pediatric CPR. OBJECTIVES We hypothesize that leaning during in-hospital pediatric CPR will be common, and that real-time automated feedback will be associated with reduced leaning prevalence and force. METHODS A feedback-capable monitor/defibrillator equipped with force transducer and accelerometer recorded CC leaning force and depth during in-hospital cardiac arrests (>/=8 years) at a childrens hospital. Automated feedback was enabled at the resuscitation leaders discretion, and audiovisual prompts were given when leaning force exceeded 2.5 kg. Leaning force and depth CC with No Feedback (NoF) vs. with Feedback (F) were compared. RESULTS 20 pediatric (mean age 14.7+/-3.8 years) pulse less arrests generated 37,396 evaluable CC. Median leaning force was 1.6 kg [0.9-2.7 kg] and leaning depth 2.9 (1.6-4.7)mm. Leaning force was greater with NoF (2.5 kg, [1.6-3.5 kg]; n=1921) vs. F (1.6 kg [0.9-2.6 kg]; n=35,164, p<0.001). Leaning>2.5 kg (adult feedback threshold) occurred in 50% (n=969) of CC with NoF and 27% (n=9367) CC with F (p<0.001). CC without leaning, defined as a leaning force of<0.5 kg, occurred in 2.2% (n=43) CC with NoF vs. 10.5% (n=3681) CC with F (p<0.001). CONCLUSIONS Leaning (residual force>2.5 kg) was common during pediatric CPR. The prevalence and force of leaning were reduced with automated audiovisual feedback. Further study is necessary to determine the effect of the specific leaning threshold on CPR hemodynamics.

A multi-institutional high-fidelity simulation "boot camp" orientation and training program for first year pediatric critical care fellows.

Objective: Simulation training has been used to integrate didactic knowledge, technical skills, and crisis resource management for effective orientation and patient safety. We hypothesize multi-institutional simulation-based training for first year pediatric critical care (PCC) fellows is feasible and effective. Design: Descriptive, educational intervention study. Setting: The simulation facility at the host institution. Interventions: A multicentered simulation-based orientation training “boot camp” for first year PCC fellows was held at a large simulation center. Immediate posttraining evaluation and 6-month follow-up surveys were distributed to participants. Measurements and Main Results: A novel simulation-based orientation training for first year PCC fellows was facilitated by volunteer faculty from seven institutions. The two and a half day course was organized to cover common PCC crises. High-fidelity simulation was integrated into each session (airway management, vascular access, resuscitation, sepsis, trauma/traumatic brain injury, delivering bad news). Twenty-two first year PCC fellows from nine fellowship programs attended, and 13 faculty facilitated, for a total of 15.5 hours (369 person-hours) of training. This consisted of 2.75 hours for whole group didactic sessions (17.7%), 1.08 hours for a small group interactive session (7.0%), 4.67 hours for task training (30.1%), and 7 hours for training (45.2%) with high-fidelity simulation and crisis resource management. A “train to success” approach with repetitive practice of critical assessment and interventional skills yielded higher scores in training effectiveness in the end-of-course evaluation. A follow-up survey revealed this training was highly effective in improving clinical performance and self-confidence. Conclusions: The first PCC orientation training integrated with simulation was effective and logistically feasible. The train to success concept with repetitive practice was highly valued by participants. Continuation and expansion of this novel multi-institutional training is planned.

Booster training: evaluation of instructor-led bedside cardiopulmonary resuscitation skill training and automated corrective feedback to improve cardiopulmonary resuscitation compliance of Pediatric Basic Life Support providers during simulated cardiac arrest.

Objective: To investigate the effectiveness of brief bedside “booster” cardiopulmonary resuscitation (CPR) training to improve CPR guideline compliance of hospital-based pediatric providers. Design: Prospective, randomized trial. Setting: General pediatric wards at Childrens Hospital of Philadelphia. Subjects: Sixty-nine Basic Life Support–certified hospital-based providers. Intervention: CPR recording/feedback defibrillators were used to evaluate CPR quality during simulated pediatric arrest. After a 60-sec pretraining CPR evaluation, subjects were randomly assigned to one of three instructional/feedback methods to be used during CPR booster training sessions. All sessions (training/CPR manikin practice) were of equal duration (2 mins) and differed only in the method of corrective feedback given to participants during the session. The study arms were as follows: 1) instructor-only training; 2) automated defibrillator feedback only; and 3) instructor training combined with automated feedback. Measurements and Main Results: Before instruction, 57% of the care providers performed compressions within guideline rate recommendations (rate >90 min−1 and <120 min−1); 71% met minimum depth targets (depth, >38 mm); and 36% met overall CPR compliance (rate and depth within targets). After instruction, guideline compliance improved (instructor-only training: rate 52% to 87% [p .01], and overall CPR compliance, 43% to 78% [p < .02]; automated feedback only: rate, 70% to 96% [p = .02], depth, 61% to 100% [p < .01], and overall CPR compliance, 35% to 96% [p < .01]; and instructor training combined with automated feedback: rate 48% to 100% [p < .01], depth, 78% to 100% [p < .02], and overall CPR compliance, 30% to 100% [p < .01]). Conclusions: Before booster CPR instruction, most certified Pediatric Basic Life Support providers did not perform guideline-compliant CPR. After a brief bedside training, CPR quality improved irrespective of training content (instructor vs. automated feedback). Future studies should investigate bedside training to improve CPR quality during actual pediatric cardiac arrests.

Estimation of Optimal CPR Chest Compression Depth in Children by Using Computer Tomography

OBJECTIVE: Pediatric consensus-driven cardiopulmonary resuscitation guidelines target chest compression (CC) depths of one third to one half anterior-posterior (AP) chest depth. Estimates for this target as assessed by computed tomography (CT) measurements of internal and external AP chest dimensions could direct future pediatric cardiopulmonary resuscitation guidelines. METHODS: A total of 280 consecutive chest CT scans in permuted blocks of 20 for each of 14 age divisions between 0 and 8 years were reconstructed and analyzed. External and internal AP depths were measured at midsternum, and residual chest depth was calculated at simulated one-third and one-half AP compressions. RESULTS: After a simulated compression calculation, one-half external AP depth CC would result in residual internal depth of <10 mm for 94% (263 of 280) of children 3 months to 8 years. For a one-third external AP CC, only 0.4% (1 of 280) of children 3 months to 8 years had a calculated residual internal chest depth <10 mm. CONCLUSIONS: By using CT reconstruction estimates of chest dimensions across the developmental spectrum from 0 to 8 years of age, we demonstrated that a simulated CC targeting approximately one-third external AP chest depth seems radiographically appropriate for children aged 3 months to 8 years, whereas simulated CC targeting approximately one-half external AP chest depth seems radiographically to be too deep, resulting in residual internal chest depth of <10 mm for most patients of this age.

2010 American Heart Association recommended compression depths during pediatric in-hospital resuscitations are associated with survival

AIM Gaps exist in pediatric resuscitation knowledge due to limited data collected during cardiac arrest in real children. The objective of this study was to evaluate the relationship between the 2010 American Heart Association (AHA) recommended chest compression (CC) depth (≥51 mm) and survival following pediatric resuscitation attempts. METHODS Single-center prospectively collected and retrospectively analyzed observational study of children (>1 year) who received CCs between October 2006 and September 2013 in the intensive care unit (ICU) or emergency department (ED) at a tertiary care childrens hospital. Multivariate logistic regression models controlling for calendar year and known potential confounders were used to estimate the association between 2010 AHA depth compliance and survival outcomes. The primary outcome was 24-h survival. The primary predictor variable was event AHA depth compliance, prospectively defined as an event with ≥60% of 30-s epochs achieving an average CC depth ≥51 mm during the first 5 min of the resuscitation. RESULTS There were 89 CC events, 87 with quantitative CPR data collected (23 AHA depth compliant). AHA depth compliant events were associated with improved 24-h survival on both univariate analysis (70% vs. 16%, p<0.001) and after controlling for potential confounders (calendar year of arrest, gender, first documented rhythm; aOR 10.3; CI(95): 2.75-38.8; p<0.001). CONCLUSIONS 2010 AHA compliant chest compression depths (≥51 mm) are associated with higher 24-h survival compared to shallower chest compression depths, even after accounting for potentially confounding patient and event factors.

Part 11: Pediatric Basic Life Support and Cardiopulmonary Resuscitation Quality 2015 American Heart Association Guidelines Update for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care

This 2015 American Heart Association (AHA) Guidelines Update for Cardiopulmonary Resuscitation (CPR) and Emergency Cardiovascular Care (ECC) section on pediatric basic life support (BLS) differs substantially from previous versions of the AHA Guidelines.1 This publication updates the 2010 AHA Guidelines on pediatric BLS for several key questions related to pediatric CPR. The Pediatric ILCOR Task Force reviewed the topics covered in the 2010 International Consensus on Cardiopulmonary Resuscitation and Emergency Cardiovascular Care Science With Treatment Recommendations and the 2010 council-specific guidelines for CPR and ECC (including those published by the AHA) and formulated 3 priority questions to address for the 2015 systematic reviews. In the online version of this document, live links are provided so the reader can connect directly to those systematic reviews on the International Liaison Committee on Resuscitation (ILCOR) Scientific Evidence Evaluation and Review System (SEERS) website. These links are indicated by a superscript combination of letters and numbers (eg, Peds 709). We encourage readers to use the links and review the evidence and appendices. A rigorous systematic review process was undertaken to review the relevant literature to answer those questions, resulting in the 2015 International Consensus on CPR and ECC Science With Treatment Recommendations , “Part 6: Pediatric Basic Life Support and Pediatric Advanced Life Support.”2,3 This 2015 Guidelines Update covers only those topics reviewed as part of the 2015 systematic review process. Other recommendations published in the 2010 AHA Guidelines remain the official recommendations of the AHA ECC scientists (see Appendix). When making AHA treatment recommendations, we used the AHA Class of Recommendation and Level of Evidence (LOE) systems. This update uses the newest AHA Class of Recommendation and LOE classification system, which contains modifications of the Class III recommendation and introduces LOE B-R (randomized studies) and B-NR (nonrandomized studies) as …

Hemodynamic directed CPR improves short-term survival from asphyxia-associated cardiac arrest

AIM Adequate coronary perfusion pressure (CPP) during cardiopulmonary resuscitation (CPR) is essential for establishing return of spontaneous circulation. The objective of this study was to compare short-term survival using a hemodynamic directed resuscitation strategy versus an absolute depth-guided approach in a porcine model of asphyxia-associated cardiac arrest. We hypothesized that a hemodynamic directed approach would improve short-term survival compared to depth-guided care. METHODS After 7 min of asphyxia, followed by induction of ventricular fibrillation, 19 female 3-month old swine (31±0.4 kg) were randomized to receive one of three resuscitation strategies: (1) hemodynamic directed care (CPP-20): chest compressions (CCs) with depth titrated to a target systolic blood pressure of 100 mmHg and titration of vasopressors to maintain CPP>20 mmHg; (2) depth 33 mm (D33): target CC depth of 33 mm with standard American Heart Association (AHA) epinephrine dosing; or (3) depth 51 mm (D51): target CC depth of 51 mm with standard AHA epinephrine dosing. All animals received manual CPR guided by audiovisual feedback for 10 min before first shock. RESULTS 45-Min survival was higher in the CPP-20 group (6/6) compared to D33 (1/7) or D51 (1/6) groups; p=0.002. Coronary perfusion pressures were higher in the CPP-20 group compared to D33 (p=0.011) and D51 (p=0.04), and in survivors compared to non-survivors (p<0.01). Total number of vasopressor doses administered and defibrillation attempts were not different. CONCLUSIONS Hemodynamic directed care targeting CPPs>20 mmHg improves short-term survival in an intensive care unit porcine model of asphyxia-associated cardiac arrest.