Hans J Lee1, Lonny Yarmus2, David Kidd2, Ricardo Ortiz2, Jason Akulian3, Christopher Gilbert4, Andrew Hughes2, Richard E Thompson5, Sixto Arias2, David Feller-Kopman2. 1. The Division Pulmonary/Critical Care, Johns Hopkins University, Baltimore, MD. Electronic address: hlee171@jhmi.edu. 2. The Division Pulmonary/Critical Care, Johns Hopkins University, Baltimore, MD. 3. The Division of Pulmonary/Critical Care, University of North Carolina, Chapel Hill, NC. 4. The Department of Pulmonary/Critical Care, Pennsylvania State University, Hershey, PA. 5. Section of Interventional Pulmonology, and the Department of Biostatistics at the Johns Hopkins Bloomberg School of Public Health, Johns Hopkins University, Baltimore, MD.
Abstract
OBJECTIVE: The objective of this study was to compare the accuracy of a handheld digital manometer (DM) and U-tube (UT) manometer with an electronic transducer (ET) manometer during thoracentesis. METHODS: Thirty-three consecutive patients undergoing thoracentesis were enrolled in the study. Pleural pressure (Ppl) measurements were made using a handheld DM (Compass; Mirador Biomedical), a UT water manometer, and an ET (reference instrument). End-expiratory Ppl was recorded after catheter insertion, after each aspiration of 240 mL, and prior to catheter removal. Volume of fluid removed, symptoms during thoracentesis, pleural elastance, and pleural fluid chemistry were also evaluated. RESULTS: A total of 594 Ppl measurements were made in 30 patients during their thoracenteses. There was a strong linear correlation coefficient between elastance for the DM and ET (r = 0.9582, P < .001). Correlation was poor between the UT and ET (r = 0.0448, P = .84). Among the 15 patients who developed cough, recorded ET pressures ranged from -9 to +9 cm H2O at the time of symptom development, with a mean (SD) of -2.93 (4.89) cm H2O. ET and DM measurements among those patients with cough had a low correlation between these measurements (R2 = 0.104, P = .24). Nine patients developed chest discomfort and had ET pressures that ranged from -26 to +6 cm H2O, with a mean (SD) of -7.89 (9.97) cm H2O. CONCLUSIONS: The handheld DM provided a valid and easy-to-use method to measure Ppl during thoracentesis. Future studies are needed to investigate its usefulness in predicting clinically meaningful outcomes.
OBJECTIVE: The objective of this study was to compare the accuracy of a handheld digital manometer (DM) and U-tube (UT) manometer with an electronic transducer (ET) manometer during thoracentesis. METHODS: Thirty-three consecutive patients undergoing thoracentesis were enrolled in the study. Pleural pressure (Ppl) measurements were made using a handheld DM (Compass; Mirador Biomedical), a UT water manometer, and an ET (reference instrument). End-expiratory Ppl was recorded after catheter insertion, after each aspiration of 240 mL, and prior to catheter removal. Volume of fluid removed, symptoms during thoracentesis, pleural elastance, and pleural fluid chemistry were also evaluated. RESULTS: A total of 594 Ppl measurements were made in 30 patients during their thoracenteses. There was a strong linear correlation coefficient between elastance for the DM and ET (r = 0.9582, P < .001). Correlation was poor between the UT and ET (r = 0.0448, P = .84). Among the 15 patients who developed cough, recorded ET pressures ranged from -9 to +9 cm H2O at the time of symptom development, with a mean (SD) of -2.93 (4.89) cm H2O. ET and DM measurements among those patients with cough had a low correlation between these measurements (R2 = 0.104, P = .24). Nine patients developed chest discomfort and had ET pressures that ranged from -26 to +6 cm H2O, with a mean (SD) of -7.89 (9.97) cm H2O. CONCLUSIONS: The handheld DM provided a valid and easy-to-use method to measure Ppl during thoracentesis. Future studies are needed to investigate its usefulness in predicting clinically meaningful outcomes.
Authors: Monika Zielinska-Krawczyk; Elzbieta M Grabczak; Marcin Michnikowski; Krzysztof Zielinski; Piotr Korczynski; Anna Stecka; Tomasz Golczewski; Rafal Krenke Journal: BMC Pulm Med Date: 2018-02-14 Impact factor: 3.317
Authors: Paul J Halford; Rahul Bhatnagar; Paul White; Mohammed Haris; Richard N Harrison; Jayne Holme; Pasupathy Sivasothy; Alex West; Lesley J Bishop; Andrew E Stanton; Mark Roberts; Clare Hooper; Nick A Maskell Journal: J Thorac Dis Date: 2020-04 Impact factor: 2.895