Effect of Operating Room Noise on BIS and Hemodynamics Under General Anesthesia

Overview

This prospective observational study aims to evaluate the impact of operating room noise on bispectral index (BIS) and hemodynamic parameters in patients undergoing general anesthesia. Environmental noise in operating rooms, often overlooked, may influence anesthesia depth, patient safety, and physiological stability. A total of 70 adult patients (ASA I-II, 18-65 years, elective surgery under general anesthesia) will be enrolled at Başakşehir Çam and Sakura City Hospital. Patients will be categorized into two groups based on intraoperative average noise levels: noisy group (\>65 dB) and quiet group (\<55 dB). Noise levels will be measured every 10 minutes using a CEM DT-8850 sound level meter, BIS will be recorded every 10 minutes, and hemodynamic variables (systolic, diastolic, mean arterial pressure, and heart rate) will be recorded every 5 minutes. Primary outcome is the correlation between mean intraoperative noise levels (LAeq) and BIS values during the maintenance phase of anesthesia. Secondary outcomes include the relationship between noise characteristics (e.g., device-related, human-related, alarms, media) and hemodynamic stability, as well as surgical branch-related noise classifications (high, moderate, low). The study is non-interventional, with no additional risk to participants beyond standard clinical monitoring. Findings are expected to provide evidence on the role of environmental noise in anesthesia quality, inform operating room organization, and contribute to patient safety improvements.

Operating room (OR) noise is a common but underestimated environmental factor that may affect both patients and medical staff. In patients under general anesthesia, excessive noise may influence depth of anesthesia, physiological stability, and recovery outcomes.This prospective observational study will investigate the correlation between intraoperative noise levels and bispectral index (BIS) values, as well as hemodynamic parameters (systolic, diastolic, and mean arterial pressure, and heart rate). Seventy adult patients undergoing elective surgery under general anesthesia will be monitored. Noise levels will be measured every 10 minutes with a calibrated sound level meter (CEM DT-8850), while BIS and hemodynamic parameters will be recorded at 10-minute and 5-minute intervals, respectively. Additionally, the type of noise (device-related, human-related, alarms, media) and the surgical branch (classified into high, moderate, or low noise categories) will be documented. Data will be analyzed to determine whether environmental noise correlates with BIS fluctuations and hemodynamic stability. The study is observational only and involves no intervention beyond standard anesthesia practice. Results are expected to raise awareness of environmental influences on anesthesia management and provide recommendations for OR organization to enhance patient safety.