Anne-Maree Kelly1, Sharon Klim. 1. Joseph Epstein Centre for Emergency Medicine Research at Western Health and The University of Melbourne, Australia. anne-maree.kelly@wh.org.au
Abstract
AIM: Transcutaneous carbon dioxide (PtCO(2)) monitoring offers a potentially non-invasive and continuous means to determine the arterial carbon dioxide tension (PaCO(2)). ED studies of agreement between PtCO(2) and PaCO(2) have had conflicting findings and have not been targeted to subgroups with severe ventilatory disturbance such as those requiring non-invasive ventilation [NIV]. Our aim is to determine agreement between PtCO(2) and PaCO(2) for patients undergoing NIV for respiratory failure. METHODS: This prospective observational study included a convenience sample of patients undergoing NIV for respiratory failure who required arterial blood gas analysis as part of their care. Data collected included patient demographics, indication for NIV, diagnosis, vital signs, and pH, PaCO(2) and PtCO(2). The outcome of interest was agreement between PaCO(2) and PtCO(2). Analysis was made using descriptive statistics, Bland-Altman techniques, Mann-Whitney U test and Fisher/Chi square tests. RESULTS: 46 comparisons were analysed. Median age was 69 [IQR 65-79], 67% male; median PaCO(2) 60 mmHg [IQR 46-70] and median pH 7.35 [IQR 7.30-7.38]. Average difference between PaCO(2) and PtCO(2) was 6.1 mmHg with 95% limits of agreement -10.1-22.3 mmHg. Thirty seven comparisons [80%] were within 10 mmHg [95% CI 66-90%]. Difference >10 mmHg was associated with increasing PaCO(2) [p = 0.001; median difference 19.6 mmHg, 95% CI 9.2-30.4 mmHg]. All cases with difference >10 mmHg had PaCO(2) > 60 mmHg. CONCLUSION: In patients undergoing NIV, agreement between PaCO(2) and PtCO(2) was sub-optimal, with unacceptably wide 95% limits of agreement. PtCO(2) cannot be recommended as a substitute for PaCO(2) testing in this group. Copyright Â
AIM: Transcutaneous carbon dioxide (PtCO(2)) monitoring offers a potentially non-invasive and continuous means to determine the arterial carbon dioxide tension (PaCO(2)). ED studies of agreement between PtCO(2) and PaCO(2) have had conflicting findings and have not been targeted to subgroups with severe ventilatory disturbance such as those requiring non-invasive ventilation [NIV]. Our aim is to determine agreement between PtCO(2) and PaCO(2) for patients undergoing NIV for respiratory failure. METHODS: This prospective observational study included a convenience sample of patients undergoing NIV for respiratory failure who required arterial blood gas analysis as part of their care. Data collected included patient demographics, indication for NIV, diagnosis, vital signs, and pH, PaCO(2) and PtCO(2). The outcome of interest was agreement between PaCO(2) and PtCO(2). Analysis was made using descriptive statistics, Bland-Altman techniques, Mann-Whitney U test and Fisher/Chi square tests. RESULTS: 46 comparisons were analysed. Median age was 69 [IQR 65-79], 67% male; median PaCO(2) 60 mmHg [IQR 46-70] and median pH 7.35 [IQR 7.30-7.38]. Average difference between PaCO(2) and PtCO(2) was 6.1 mmHg with 95% limits of agreement -10.1-22.3 mmHg. Thirty seven comparisons [80%] were within 10 mmHg [95% CI 66-90%]. Difference >10 mmHg was associated with increasing PaCO(2) [p = 0.001; median difference 19.6 mmHg, 95% CI 9.2-30.4 mmHg]. All cases with difference >10 mmHg had PaCO(2) > 60 mmHg. CONCLUSION: In patients undergoing NIV, agreement between PaCO(2) and PtCO(2) was sub-optimal, with unacceptably wide 95% limits of agreement. PtCO(2) cannot be recommended as a substitute for PaCO(2) testing in this group. Copyright Â