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Quantitative Measure of Lung Structure and Function Obtained from Hyperpolarized Xenon Spectroscopy
08:23

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Published on: November 10, 2023

Xenon alters right ventricular function.

M Hein1, J H Baumert, A B Roehl

  • 1Department of Anesthesiology, University Hospital of Aken, Aachen, Germany. mhein@ukaachen.de

Acta Anaesthesiologica Scandinavica
|October 9, 2008
PubMed
Summary
This summary is machine-generated.

Xenon anesthesia reduced cardiac output by impairing right ventricular function through increased afterload, not systolic dysfunction. This study investigated xenon

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09:40

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Published on: May 13, 2019

Area of Science:

  • Anesthesiology
  • Cardiovascular Physiology
  • Pulmonary Circulation

Background:

  • Xenon anesthesia, unlike other volatile anesthetics, causes less cardiovascular depression but reduces cardiac output (CO).
  • Potential mechanisms for reduced CO include increased left ventricular afterload, reduced heart rate, and impaired right ventricular function.
  • This study aimed to elucidate xenon's impact on right ventricular function and afterload.

Purpose of the Study:

  • To investigate the effects of supplemental xenon anesthesia on right ventricular function in an animal model.
  • To specifically assess the impact of xenon on right ventricular afterload and its contribution to reduced cardiac output.

Main Methods:

  • Right ventricular function was monitored using a volumetric pulmonary artery catheter in pigs under thiopental anesthesia.
  • Six pigs received 70% xenon (0.55 Minimum Alveolar Concentration), while a control group did not.
  • Systolic function, afterload, and preload parameters were calculated and analyzed using multivariate analysis of variance for repeated measures.

Main Results:

  • Xenon reduced cardiac output by 30% and increased pulmonary arterial elastance by 60%.
  • Right ventricular ejection fraction decreased by 25%, while right ventricular preload remained stable.
  • Maximal slope of pulmonary artery pressure and right ventricular elastance increased, but stroke work to end-diastolic volume ratio was unaffected.

Conclusions:

  • Reduced cardiac output during xenon anesthesia is partly attributed to impaired right ventricular function.
  • Increased right ventricular afterload is the primary mechanism for this impairment, not a decline in systolic ventricular function.
  • Xenon's effect on right ventricular hemodynamics warrants further investigation in clinical settings.