%X The present study examines an alternative and innovative mechanical ventilation modality in improving oxygen delivery, CO 2 clearance, and respiratory mechanical abnormalities in a clinically relevant experimental model of capnoperitoneum. Our data reveal that high-frequency oscillations combined with conventional ventilation improve gas exchange, with intratracheal oscillations being more effective than extrathoracic oscillations in this clinically relevant translational model.
%A  PetĂĄk Ferenc
%A  SĂźdy Roberta
%A  Diaper John
%A  Fontao Fabienne
%A  Bizzotto Davide
%A  DellacĂ  Raffaele L.
%A  Habre Walid
%A  Schranc Álmos
%J JOURNAL OF APPLIED PHYSIOLOGY
%L publicatio36160
%R MTMT:34798171 10.1152/japplphysiol.00881.2023
%N 4
%T Benefits of intratracheal and extrathoracic high-frequency percussive ventilation in a model of capnoperitoneum
%P 928-937
%V 136
%D 2024
%O Department of Medical Physics and Informatics, University of Szeged, Szeged, Hungary            
            Unit for Anesthesiological Investigations, Department of Acute Medicine, University of Geneva, Geneva, Switzerland            
            Dipartimento di Elettronica, Informazione e Bioingegneria, Politecnico di Milano, Milan, Italy            
            Export Date: 15 May 2024            
            CODEN: JAPHE            
            Correspondence Address: PetĂĄk, F.; Department of Medical Physics and Informatics, Hungary; email: petak.ferenc@med.u-szeged.hu            
            Chemicals/CAS: carbon dioxide, 124-38-9, 58561-67-4; Carbon Dioxide            
            Funding details: OTKA-NKFIH K138032            
            Funding text 1: This work was supported by a Hungarian Basic Research Council Grant OTKA-NKFIH K138032.
%I szte