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Effects of PEEP on the relationship between tidal volume and total impedance change measured via electrical impedance tomography (EIT).
Brabant, O; Crivellari, B; Hosgood, G; Raisis, A; Waldmann, A D; Auer, U; Adler, A; Smart, L; Laurence, M; Mosing, M.
Afiliação
  • Brabant O; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia. oliviabrabant22@gmail.com.
  • Crivellari B; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
  • Hosgood G; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
  • Raisis A; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
  • Waldmann AD; Department of Anesthesiology and Intensive Care Medicine, Rostock University Medical Centre, Rostock, Germany.
  • Auer U; Department of Anesthesiology, Vienna Veterinary University, Vienna, Austria.
  • Adler A; Department of Systems and Computer Engineering, Carlton University, Ottawa, Canada.
  • Smart L; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
  • Laurence M; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
  • Mosing M; School of Veterinary and Life Sciences, Murdoch University, Perth, WA, Australia.
J Clin Monit Comput ; 36(2): 325-334, 2022 04.
Article em En | MEDLINE | ID: mdl-33492490
Electrical impedance tomography (EIT) is used in lung physiology monitoring. There is evidence that EIT is linearly associated with global tidal volume (VT) in clinically healthy patients where no positive end-expiratory pressure (PEEP) is applied. This linearity has not been challenged by altering lung conditions. The aim of this study was to determine the effect of PEEP on VT estimation, using EIT technology and spirometry, and observe the stability of the relationship under changing lung conditions. Twelve male castrated cattle (Steer), mean age 7.8 months (SD ± 1.7) were premedicated with xylazine followed by anaesthesia induction with ketamine and maintenance with halothane in oxygen via an endotracheal tube. An EIT belt was applied around the thorax at the level of the fifth intercostal space. Volume controlled ventilation was used. PEEP was increased in a stepwise manner from 0 to 5, 10 and 15 cmH2O. At each PEEP, the VT was increased stepwise from 5 to 10 and 15 mL kg-1. After a minute of stabilisation, total impedance change (VTEIT), using EIT and VT measured by a spirometer connected to a flow-partitioning device (VTSpiro) was recorded for the following minute before changing ventilator settings. Data was analysed using linear regression and multi variable analysis. There was a linear relationship between VTEIT and VTSpiro at all levels of PEEP with an R2 of 0.71, 0.68, 0.63 and 0.63 at 0, 5, 10 and 15 cmH2O, respectively. The variance in VTEIT was best described by peak inspiratory pressure (PIP) and PEEP (adjusted R2 0.82) while variance in VTSpiro was best described by PIP and airway deadspace (adjusted R2 0.76). The relationship between VTEIT and VTSpiro remains linear with changes in tidal volume, and stable across altered lung conditions. This may have application for monitoring and assessment in vivo.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Tomografia / Respiração com Pressão Positiva Limite: Animals / Humans / Male Idioma: En Ano de publicação: 2022 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Tomografia / Respiração com Pressão Positiva Limite: Animals / Humans / Male Idioma: En Ano de publicação: 2022 Tipo de documento: Article