Volume 29, Issue 163, September 2025

The impact of anaesthetic gases on mean pressure in patients with septic shock undergoing surgery

Bartosz Zieliński^♦, Karol Mateusz Wojnarowski, Justyna Gręda

St. Alexander Hospital in Kielce, Poland

^♦Corresponding author
Bartosz Zieliński, St. Alexander Hospital in Kielce, Poland

ABSTRACT

Introduction: Septic shock is a critical condition that involves multi-organ dysfunction along with severe hypotension. Anesthesia, after all, frequently requires surgical intervention. When you do choose the right anesthetic gas, especially in cases involving mean arterial pressure (MAP), you can significantly impact the stability of hemodialysis. Tissue perfusion is maintained by hemodialysis stability, and it optimizes patient outcomes. This study aimed to examine how different anesthetic gases affect mean arterial pressure in patients with septic shock who are having surgery. The study looked at the average blood pressure (MAP) levels of patients with septic shock during and after surgery. These patients received different types of anaesthetic gases while they underwent surgical procedures. The findings demonstrated variable effects on hemodynamic parameters of the anesthetic agents. During intraoperative times, the probe showed some gases linked to greater drops in mean arterial pressure MAP. Some of the gases maintained relatively stable pressure levels. In septic shock cases, the choice of anesthetic agent can significantly impact circulatory dynamics, as indicated by data. Conclusions: The management of anaesthetics in septic shock patients must involve selecting agents that minimise adverse hemodynamic effects. The need for further research is urgent to establish anaesthetic protocols that balance adequate anaesthesia and haemodynamic support in this vulnerable population.

Keywords: anaesthetic gases, septic shock, intraoperative hemodynamics, surgical patients

Medical Science, 2025, 29, e196ms3701

PDF

DOI: https://doi.org/10.54905/disssi.v29i163.e196ms3701

Published: 30 September 2025