T L Ruiz1, J M Trzaski2, D W Sink2, J I Hagadorn2. 1. 1] Health Fellows Program, Trinity College, Hartford, CT, USA [2] Clinical Trials Unit, Connecticut Children's Medical Center, Hartford, CT, USA [3] Division of Neonatology, Connecticut Children's Medical Center, Hartford, CT, USA. 2. 1] Division of Neonatology, Connecticut Children's Medical Center, Hartford, CT, USA [2] Department of Pediatrics, University of Connecticut School of Medicine, Farmington, CT, USA.
Abstract
OBJECTIVE: The objective of this study was to compare hand-transcribed oxygen saturation (SpO2) with electronic oximeter data in very low birth weight infants (VLBWI, <1500 g). STUDY DESIGN: Oximeter data were downloaded from birth through 36 weeks postmenstrual age (PMA) for VLBWI before and after interventions to improve neonatal intensive care unit oxygen management. Transcribed SpO2 values were obtained by chart review. Proportions of transcribed and oximetry data in target (85 to 93%), hypoxemic (80 to 84%), and hyperoxemic (≥98%) ranges before and after intervention were compared. RESULT: There were 30,441 oximetry hours before intervention and 54,538 oximetry hours after intervention. Transcribed SpO2 values correlated strongly with oximeter overall. However, during hours on supplemental oxygen, transcribed values significantly overdocumented target range and underdocumented values 80 to 84 and ≥98%. This finding varied by respiratory support and PMA, and increased after intervention. CONCLUSION: Transcribed SpO2 values overdocumented target range and underdocumented hyperoxemic and hypoxemic ranges compared with electronic oximeter data. These results support incorporating electronic oximeter data into medical records.
OBJECTIVE: The objective of this study was to compare hand-transcribed oxygen saturation (SpO2) with electronic oximeter data in very low birth weight infants (VLBWI, <1500 g). STUDY DESIGN: Oximeter data were downloaded from birth through 36 weeks postmenstrual age (PMA) for VLBWI before and after interventions to improve neonatal intensive care unit oxygen management. Transcribed SpO2 values were obtained by chart review. Proportions of transcribed and oximetry data in target (85 to 93%), hypoxemic (80 to 84%), and hyperoxemic (≥98%) ranges before and after intervention were compared. RESULT: There were 30,441 oximetry hours before intervention and 54,538 oximetry hours after intervention. Transcribed SpO2 values correlated strongly with oximeter overall. However, during hours on supplemental oxygen, transcribed values significantly overdocumented target range and underdocumented values 80 to 84 and ≥98%. This finding varied by respiratory support and PMA, and increased after intervention. CONCLUSION: Transcribed SpO2 values overdocumented target range and underdocumented hyperoxemic and hypoxemic ranges compared with electronic oximeter data. These results support incorporating electronic oximeter data into medical records.
Authors: Ben J Stenson; William O Tarnow-Mordi; Brian A Darlow; John Simes; Edmund Juszczak; Lisa Askie; Malcolm Battin; Ursula Bowler; Roland Broadbent; Pamela Cairns; Peter Graham Davis; Sanjeev Deshpande; Mark Donoghoe; Lex Doyle; Brian W Fleck; Alpana Ghadge; Wendy Hague; Henry L Halliday; Michael Hewson; Andrew King; Adrienne Kirby; Neil Marlow; Michael Meyer; Colin Morley; Karen Simmer; Win Tin; Stephen P Wardle; Peter Brocklehurst Journal: N Engl J Med Date: 2013-05-05 Impact factor: 91.245
Authors: Waldemar A Carlo; Neil N Finer; Michele C Walsh; Wade Rich; Marie G Gantz; Abbot R Laptook; Bradley A Yoder; Roger G Faix; Abhik Das; W Kenneth Poole; Kurt Schibler; Nancy S Newman; Namasivayam Ambalavanan; Ivan D Frantz; Anthony J Piazza; Pablo J Sánchez; Brenda H Morris; Nirupama Laroia; Dale L Phelps; Brenda B Poindexter; C Michael Cotten; Krisa P Van Meurs; Shahnaz Duara; Vivek Narendran; Beena G Sood; T Michael O'Shea; Edward F Bell; Richard A Ehrenkranz; Kristi L Watterberg; Rosemary D Higgins Journal: N Engl J Med Date: 2010-05-16 Impact factor: 91.245
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