BACKGROUND:Heart rate is a primary clinical indicator directing newborn resuscitation. The time taken to assess the heart rate by auscultation in relation to accuracy during newborn resuscitation is not known. OBJECTIVE: To assess both the accuracy and time taken to assess heart rate by stethoscope in simulated resuscitation scenarios. METHOD: The VitalSim((c)) manikin (Laerdal Medical, Stavanger, Norway) was used in this randomised, single blind study. Four heart rate settings (0, 40, 80, 120 beats per minute (bpm)) were randomly assigned. Participants assessed them by auscultation in three different scenarios. The first scenario was to assess the actual heart rate at birth. In the second scenario, heart rate was assessed during ventilation and assigned to standard ranges (<60, 60-100, >100bpm). In the third scenario, heart rate was assessed after three cycles of compressions and ventilation and assigned to standard ranges. RESULTS: In total 61 midwives, nurses and doctors performed 183 assessments. Mean time to estimate heart rate for scenarios 1, 2 and 3 was: 17.0, 9.8 and 7.8s respectively. Heart rate assessments were inaccurate in 31% (scenario 1), 28% (scenarios 2) and 26% (scenario 3). There was a trend for assessors who were accurate to be quicker and this achieved significance in scenario 2 (p<0.02). Inaccurate assessment would have made a difference to management in 28% of all cases. CONCLUSIONS:Mean time to estimate heart rate for the scenarios varied between 7.8 and 17.0s. Twenty-eight percent of all heart rate assessments would have prompted incorrect management during resuscitation or stabilization. Of incorrect assessments, 73% were overestimations. Further research is required to develop a rapid and accurate method for determining heart rate during newborn resuscitation. Copyright 2010 Elsevier Ireland Ltd. All rights reserved.
RCT Entities:
BACKGROUND: Heart rate is a primary clinical indicator directing newborn resuscitation. The time taken to assess the heart rate by auscultation in relation to accuracy during newborn resuscitation is not known. OBJECTIVE: To assess both the accuracy and time taken to assess heart rate by stethoscope in simulated resuscitation scenarios. METHOD: The VitalSim((c)) manikin (Laerdal Medical, Stavanger, Norway) was used in this randomised, single blind study. Four heart rate settings (0, 40, 80, 120 beats per minute (bpm)) were randomly assigned. Participants assessed them by auscultation in three different scenarios. The first scenario was to assess the actual heart rate at birth. In the second scenario, heart rate was assessed during ventilation and assigned to standard ranges (<60, 60-100, >100bpm). In the third scenario, heart rate was assessed after three cycles of compressions and ventilation and assigned to standard ranges. RESULTS: In total 61 midwives, nurses and doctors performed 183 assessments. Mean time to estimate heart rate for scenarios 1, 2 and 3 was: 17.0, 9.8 and 7.8s respectively. Heart rate assessments were inaccurate in 31% (scenario 1), 28% (scenarios 2) and 26% (scenario 3). There was a trend for assessors who were accurate to be quicker and this achieved significance in scenario 2 (p<0.02). Inaccurate assessment would have made a difference to management in 28% of all cases. CONCLUSIONS: Mean time to estimate heart rate for the scenarios varied between 7.8 and 17.0s. Twenty-eight percent of all heart rate assessments would have prompted incorrect management during resuscitation or stabilization. Of incorrect assessments, 73% were overestimations. Further research is required to develop a rapid and accurate method for determining heart rate during newborn resuscitation. Copyright 2010 Elsevier Ireland Ltd. All rights reserved.
Authors: Vishal Kapadia; Ju Lee Oei; Neil Finer; Wade Rich; Yacov Rabi; Ian M Wright; Denise Rook; Marijn J Vermeulen; William O Tarnow-Mordi; John P Smyth; Kei Lui; Steven Brown; Ola D Saugstad; Maximo Vento Journal: Resuscitation Date: 2021-08-20 Impact factor: 6.251
Authors: Laura Pickup; Alexandra Lang; Lara Shipley; Caroline Henry; James Carpenter; Damon McCartney; Matthew Butler; Barrie Hayes-Gill; Don Sharkey Journal: JMIR Hum Factors Date: 2019-06-08
Authors: Caroline Henry; David E Morris; Sophie Coleman; Andrea Pereira; Christian Tamakloe; Peter Blanchfield; Don Sharkey Journal: BMJ Paediatr Open Date: 2020-05-06
Authors: Peter A Johnson; Nicolò Morina; Megan O'Reilly; Tze-Fun Lee; Po-Yin Cheung; Georg M Schmölzer Journal: Front Pediatr Date: 2019-11-05 Impact factor: 3.418
Authors: Nicolò Morina; Peter A Johnson; Megan O'Reilly; Tze-Fun Lee; Maryna Yaskina; Po-Yin Cheung; Georg M Schmölzer Journal: Front Pediatr Date: 2020-01-31 Impact factor: 3.418