Literature DB >> 35615229

Comparison of time taken to obtain an arterial blood gas result at the bedside using the ProximaTM point of care machine vs. a standard remote arterial blood gas analyser: A randomized controlled trial.

Kay Mitchell1,2,3,4, Karen E Salmon1,2,4, David Egbosimba5, Gavin Troughton5, Mike Pw Grocott1,2,3,4.   

Abstract

Introduction: The ProximaTM point of care (POC) device enables arterial blood gas (ABG) samples to be analysed without the nurse leaving the patient. The benefits of this for work efficiency have not been evaluated.
Methods: We compared the time taken to obtain an ABG result using ProximaTM versus a standard ABG sampling system. Twenty patients were randomized to ABG sampling using ProximaTM, or a standard ABG system. Nurses were observed performing all ABG sampling episodes for a minimum of 24 hours and no more than 72 hours.
Results: The mean time taken to obtain a result using ProximaTM was 4:56 (SD = 1:40) minutes compared to 6:31 (SD = 1:53) minutes for the standard ABG technique (p < 0.001). Mean time away from the patient's bedside was 3.07 (SD = 1:17) minutes using the standard system and 0 minutes using ProximaTM (p < 0.001). Conclusions: Reduced time for blood gas sampling and avoidance of time away from patients may have significant patient safety and resource management implications, but the clinical and financial significance were not evaluated. © The Intensive Care Society 2020.

Entities:  

Keywords:  Blood specimen collection; critical care; point of care technology; time and motion studies

Year:  2020        PMID: 35615229      PMCID: PMC9125450          DOI: 10.1177/1751143720973847

Source DB:  PubMed          Journal:  J Intensive Care Soc        ISSN: 1751-1437


  10 in total

1.  EuroSCORE II.

Authors:  Samer A M Nashef; François Roques; Linda D Sharples; Johan Nilsson; Christopher Smith; Antony R Goldstone; Ulf Lockowandt
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2.  Using the time and motion method to study clinical work processes and workflow: methodological inconsistencies and a call for standardized research.

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3.  Frontline leadership, innovation and best practice: 10 hot topics every critical care nurse should be aware of.

Authors:  Annette Richardson
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4.  Evaluating laboratory usage in the intensive care unit: patient and institutional characteristics that influence frequency of blood sampling.

Authors:  J E Zimmerman; M G Seneff; X Sun; D P Wagner; W A Knaus
Journal:  Crit Care Med       Date:  1997-05       Impact factor: 7.598

Review 5.  Time motion studies in healthcare: what are we talking about?

Authors:  Marcelo Lopetegui; Po-Yin Yen; Albert Lai; Joseph Jeffries; Peter Embi; Philip Payne
Journal:  J Biomed Inform       Date:  2014-03-07       Impact factor: 6.317

6.  Development of a patient-dedicated, on-demand, blood gas monitor.

Authors:  C K Mahutte; M Holody; T P Maxwell; P A Chen; S A Sasse
Journal:  Am J Respir Crit Care Med       Date:  1994-04       Impact factor: 21.405

7.  A comparison of time-and-motion and self-reporting methods of work measurement.

Authors:  T A Burke; J R McKee; H C Wilson; R M Donahue; A S Batenhorst; D S Pathak
Journal:  J Nurs Adm       Date:  2000-03       Impact factor: 1.737

8.  CONSORT 2010 statement: updated guidelines for reporting parallel group randomised trials.

Authors:  Kenneth F Schulz; Douglas G Altman; David Moher
Journal:  BMJ       Date:  2010-03-23

9.  What factors influence arterial blood gas sampling patterns?

Authors:  Tom Andrews; Heather Waterman
Journal:  Nurs Crit Care       Date:  2008 May-Jun       Impact factor: 2.325

10.  Assessment of a continuous blood gas monitoring system in animals during circulatory stress.

Authors:  Sandro Gelsomino; Roberto Lorusso; Ugolino Livi; Stefano Romagnoli; Salvatore Mario Romano; Rocco Carella; Fabiana Lucà; Giuseppe Billè; Francesco Matteucci; Attilio Renzulli; Gil Bolotin; Giuseppe De Cicco; Pierluigi Stefàno; Jos Maessen; Gian Franco Gensini
Journal:  BMC Anesthesiol       Date:  2011-01-11       Impact factor: 2.217
  10 in total

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