• Eur J Anaesthesiol · Jul 2023

    Observational Study

    Alveolar target ventilation and dead space in children under anaesthesia: The proventiped cohort study.

    • Aurelien Gardon, Mathilde De Queiroz Siqueira, Eloise Cerceuil, Noureddine Bouhamri, Dominique Chassard, and Florent Baudin.
    • From the Hospices Civils de Lyon, Departement d'anesthesie, Hôpital FemmeMère Enfant, Bron (AG, MDQS, EC, NB, FB, DC), Agressions Pulmonaires et Circulatoires dans le Sepsis (APCSe), VetAgro Sup, Universités de Lyon, Marcy l'Etoile, France (FB).
    • Eur J Anaesthesiol. 2023 Jul 1; 40 (7): 495500495-500.

    IntroductionVentilator settings in children under anaesthesia remain difficult because of the changes in the physiology and the high dead space.ObjectiveTo determine the alveolar minute-volume to sustain normocapnia in children under mechanical ventilation.DesignA prospective observational study.SettingsThis study was performed between May and October 2019 in a tertiary care children's hospital.PatientsChildren between 2 months and 12 years, weighing between 5 and 40 kg, admitted for general anaesthesia.InterventionVolumetric capnography was used to estimate the alveolar and dead space volume (Vd).Main Outcome MeasuresTotal and alveolar minute ventilation in (ml kg -1  min -1 ) over 100 breaths.ResultsSixty patients were included comprising 20 per group: 5 to 10 kg (group 1), 10 to 20 kg (group 2), 20 to 40 kg (group 3). Seven patients were excluded for aberrant capnographic curves. After normalisation to weight, the median [IQR] tidal volume per kilogram was similar between the three groups: 6.5 ml kg -1 [6.0 to 7.5 ml kg -1 ], 6.4  ml kg -1 [5.7 to 7.3  ml kg -1 ], 6.4  ml kg -1 [5.3 to 6.8  ml kg -1 ]; P  = 0.3. Total Vd (in ml kg -1 ) was negatively correlated to weight ( r  = -0.62, 95% confidence interval -0.41 to -0.76, P  < 0.001). The total normalised minute ventilation (ml kg -1  min -1 ) to obtain normocapnia was higher in group 1 than in group 2 and in group 3; 203  ml kg -1  min -1 [175 to 219 ml kg -1  min -1 ], 150  ml kg -1  min -1 [139 to 181  ml kg -1  min -1 ] and 128  ml kg -1  min -1 [107 to 157  ml kg -1  min -1 ]; P  < 0.001 (mean ± SD), but (mean ± SD) alveolar minute ventilation was similar between the three groups; 68 ± 21  ml kg -1  min -1 .ConclusionTotal dead space volume (including apparatus dead space) represents a major component of tidal volume in children less than 30 kg, when using large heat and moisture exchanger filters. The total minute ventilation necessary to achieve normocapnia decreased with increasing weight, while the alveolar minute ventilation remained constant.Trial RegistrationClinicalTrials.gov, identifier: NCT03901599.Copyright © 2023 European Society of Anaesthesiology and Intensive Care. Unauthorized reproduction of this article is prohibited.

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