Variability in chest compression rate calculations during pediatric cardiopulmonary resuscitation

William Landis,Ryan W. Morgan,Ron Reeder,Kathryn Graham,Ashley Siems,J. Wesley Diddle,Murray M. Pollack,Tensing Maa,Richard P. Fernandez,Andrew R. Yates,Bradley Tilford,Tageldin M. Ahmed,Kathleen L. Meert,Carleen Schneiter,Robert Bishop,Peter M. Mourani,Maryam Y. Naim,Stuart H. Friess,Candice Burns,Arushi Manga,Deborah Franzon,Sarah Tabbutt,Patrick S. McQuillen,Christopher M. Horvat,Matthew Bochkoris,Joseph A. Carcillo,Leanna Huard,Myke Federman,Anil Sapru,Shirley Viteri,David A. Hehir,Daniel A. Notterman,Richard Holubkov,J. Michael Dean,Vinay Nadkarni,Robert A. Berg,Heather Wolfe,Robert M. Sutton,Athena F. Zuppa,Martha Sisko,David L. Wessel,Elyse Tomanio,Mark W. Hall,Lisa Steele,Sabrina M. Heidemann,Ann Pawluszka,Todd C. Carpenter,Ruth Grosskreuz,Tina Day,Anne McKenzie,Ericka L. Fink,Leighann Koch,Theresa Kirkpatrick,Tanaya Deshmukh,Ramany John,Kylee Arbogast,Melissa Pederson,Russel Telford,Whitney Colemam

Variability in chest compression rate calculations during pediatric cardiopulmonary resuscitation

2020

Abstract Aim The mathematical method used to calculate chest compression (CC) rate during cardiopulmonary resuscitation varies in the literature and across device manufacturers. The objective of this study was to determine the variability in calculated CC rates by applying four published methods to the same dataset. Methods This study was a secondary investigation of the first 200 pediatric cardiac arrest events with invasive arterial line waveform data in the ICU-RESUScitation Project (NCT02837497). Instantaneous CC rates were calculated during periods of uninterrupted CCs. The defined minimum interruption length affects rate calculation (e.g., if an interruption is defined as a break in CCs ≥ 2 s, the lowest possible calculated rate is 30 CCs/min). Average rates were calculated by four methods: 1) rate with an interruption defined as ≥ 1 s; 2) interruption ≥ 2 s; 3) interruption ≥ 3 s; 4) method #3 excluding top and bottom quartiles of calculated rates. American Heart Association Guideline-compliant rate was defined as 100–120 CCs/min. A clinically important change was defined as ±5 CCs/min. The percentage of events and epochs (30 s periods) that changed Guideline-compliant status was calculated. Results Across calculation methods, mean CC rates (118.7–119.5/min) were similar. Comparing all methods, 14 events (7%) and 114 epochs (6%) changed Guideline-compliant status. Conclusion Using four published methods for calculating CC rate, average rates were similar, but 7% of events changed Guideline-compliant status. These data suggest that a uniform calculation method (interruption ≥ 1 s) should be adopted to decrease variability in resuscitation science.

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