Severe portal and systemic acidosis during CO2-laparoscopy compared to helium or gasless laparoscopy and laparotomy in a rodent model: an experimental study

Severe portal and systemic acidosis during CO2-laparoscopy compared to helium or gasless laparoscopy and laparotomy in a rodent model: an experimental study

Background and aims This experimental study assesses the influence of different gases and insufflation pressures on the portal, central-venous and peripheral-arterial pH during experimental laparoscopy. Methods Firstly, 36 male WAG/Rij rats were randomized into six groups ( n  = 6) spontaneously bre...

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Published in:Surgical endoscopy Vol. 36; no. 7; pp. 4701 - 4711
Main Authors: Inderbitzin, Devdas T., Mueller, Tobias U., Marti, Grischa, Eichenberger, Simone, Fellay, Benoît, Magnin, Jean-Luc, Kraehenbuehl, Lukas
Format: Journal Article
Language:English
Published: New York Springer US 01-07-2022
Springer Nature B.V
Subjects:
Abdominal Surgery
Acidosis
Blood gas analysis
Carbon dioxide
Gastroenterology
Gynecology
Hepatology
Hyperventilation
Laparoscopy
Laparotomy
Medicine
Medicine & Public Health
Physiology
Proctology
Surgery
Insufflation pressure
Blood gases
Laparoscopy
Insufflation gas
Acidosis
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Summary:Background and aims This experimental study assesses the influence of different gases and insufflation pressures on the portal, central-venous and peripheral-arterial pH during experimental laparoscopy. Methods Firstly, 36 male WAG/Rij rats were randomized into six groups ( n  = 6) spontaneously breathing during anaesthesia: laparoscopy using carbon dioxide or helium at 6 and 12 mmHg, gasless laparoscopy and laparotomy. 45 and 90 min after setup, blood was sampled from the portal vein, vena cava and the common femoral artery with immediate blood gas analysis. Secondly, 12 animals were mechanically ventilated at physiological arterial pH during 90 min of laparotomy ( n  = 6) or carbon dioxide laparoscopy at 12 mmHg ( n  = 6) with respective blood gas analyses. Results Over time, in spontaneously breathing rats, carbon dioxide laparoscopy caused significant insufflation pressure-dependent portal acidosis (pH at 6 mmHg, 6.99 [6.95–7.04] at 45 min and 6.95 [6.94–6.96] at 90 min, pH at 12 mmHg, 6.89 [6.82–6.90] at 45 min and 6.84 [6.81–6.87] at 90 min; p  < 0.05) compared to laparotomy (portal pH 7.29 [7.23–7.30] at 45 min and 7.29 [7.20–7.30] at 90 min; p  > 0.05). Central-venous and peripheral-arterial acidosis was significant but less severely reduced during carbon dioxide laparoscopy. Laparotomy, helium laparoscopy and gasless laparoscopy showed no comparable acidosis in all vessels. Portal and central-venous acidosis during carbon dioxide laparoscopy at 12 mmHg was not reversible by mechanical hyperventilation maintaining a physiological arterial pH (pH portal 6.85 [6.84–6.90] ( p  = 0.004), central-venous 6.93 [6.90–6.99] ( p  = 0.004), peripheral-arterial 7.29 [7.29–7.31] ( p  = 0.220) at 90 min; Wilcoxon–Mann–Whitney test). Conclusion Carbon dioxide laparoscopy led to insufflation pressure-dependent severe portal and less severe central-venous acidosis not reversible by mechanical hyperventilation.
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ISSN:0930-2794
1432-2218
DOI:10.1007/s00464-021-08810-6