Impact of head-up tilt on expiratory negative airway pressure ventilation-induced cardiovascular hemodynamics in the halothane-anesthetized intact microminipigs

Elevation of the head and expiratory negative airway pressure (ENAP) ventilation can both significantly alter cardiovascular hemodynamics. The impact of head-up tilt (HUT) position on mechanically regulated ENAP ventilation-induced hemodynamics was assessed in microminipigs under halothane anesthesi...

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Published in:Heart and vessels 2022-10, Vol.37 (10), p.1808-1815
Main Authors: Goto, Ai, Kambayashi, Ryuichi, Hagiwara-Nagasawa, Mihoko, Izumi-Nakaseko, Hiroko, Takei, Yoshinori, Kawai, Shinichi, Matsumoto, Akio, Lurie, Keith G., Sugiyama, Atsushi
Format: Article
Language:English
Subjects:
Anesthesia
Aorta
Biomedical Engineering and Bioengineering
Blood pressure
Brain injury
Cardiac output
Cardiac Surgery
Cardiology
Halothane
Head (fluid mechanics)
Head injuries
Heart rate
Hemodynamics
Hypotension
Medicine
Medicine & Public Health
Original Article
Reduction
Respiratory tract
Sympathetic nerves
Systolic pressure
Vascular Surgery
Ventilation
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Summary:Elevation of the head and expiratory negative airway pressure (ENAP) ventilation can both significantly alter cardiovascular hemodynamics. The impact of head-up tilt (HUT) position on mechanically regulated ENAP ventilation-induced hemodynamics was assessed in microminipigs under halothane anesthesia ( n  = 4) in the absence and presence of adrenergic blockade. Supine ENAP ventilation increased cardiac output, but decreased mean right atrial, systolic pulmonary arterial, and mean left atrial pressures without significantly altering heart rate or aortic pressure. With HUT, the magnitude of ENAP ventilation-induced reduction in right and left atrial pressures was attenuated. HUT minimally altered ENAP ventilation-induced increase in cardiac output and reduction in pulmonary arterial systolic pressure. In addition, with up to 10 cm of HUT there was a significant increase in mean right atrial pressure with and without the ENAP ventilation, whereas HUT did not alter the other hemodynamic variables irrespective of ENAP ventilation. These observations suggest that head elevation augments venous return from the brain irrespective of the ENAP ventilation. Additional studies with pharmacological adrenergic blockade revealed that ENAP ventilation-induced increases in cardiac output and decreases in pulmonary systolic pressure were minimally altered by sympathetic nerve activity, irrespective of the head position. However, the observed ENAP ventilation-induced decreases in right and left atrial pressures were largely dependent upon adrenergic activity. These experimental findings may provide insight into future clinical application of HUT and ENAP for patients with head injury and hypotension.
ISSN:0910-8327
1615-2573
DOI:10.1007/s00380-022-02068-1