Abstract
The degree of neuromuscular blockade reversal may affect bispectral index (BIS) value. One possible reason is that the reverse of neuromuscular blockade affects electromyographic (EMG) signals of fascial muscle. Another reason is, the afferentation theory, the reverse of neuromuscular blockade relieves block signals generated in muscle stretch receptors from accessing the brain through afferent nerve pathways and induces arousal. Inaccurate BIS value may lead to overdose of drugs or the risk of intraoperative awareness. We compared changes in BIS and EMG values according to neuromuscular blockade reversal agents under steady-state desflurane anesthesia. A total of 65 patients were randomly allocated to receive either neostigmine 0.05 mg/kg, sugammadex 4 mg/kg, or pyridostigmine 0.25 mg/kg for neuromuscular blockade reversal under stable desflurane anesthesia, and 57 patients completed the study. The primary outcome was change in BIS and EMG values before and after administration of neuromuscular blockade reversal agents (between train-of-four [TOF] count 1–2 and TOF ratio 0.9). The change in BIS and EMG values before and after administration of neuromuscular blockade reversal agents were statistically different in each group (BIS: Neostigmine group, P < 0.001; Sugammadex group, P < 0.001; Pyridostigmine group, P = 0.001; EMG: Neostigmine group, P = 0.001; Sugammadex group, P < 0.001; Pyridostigmine group, P = 0.001; respectively). The BIS and EMG values had a positive correlation (P < 0.001). Our results demonstrate that the EMG and BIS values have increased after neuromuscular blockade reversal under desflurane anesthesia regardless of the type of neuromuscular blockade reversal agent. BIS should be applied carefully to measure of depth of anesthesia after neuromuscular blockade reversal.
Highlights
Volatile anesthetics are commonly applied to induce and maintain general anesthesia
The median (IQR) in bispectral index (BIS) value before and after administration of neuromuscular blockade reversal agents was 41 (37–47) and 61 (46–71) in Neostigmine group, 40 (34–46) and 52 (41–70) in Sugammadex group (MD, 14; 95% CI, 5 to 26; P < 0.001), and 42 (66–50) and 58 (52–71) in Pyridostigmine group (MD, 18; 95% CI, 10 to 25; P = 0.001)
Our results showed BIS and EMG values significantly increased after neuromuscular blockade reversal regardless of the type of reversal agents under steady-state desflurane anesthesia
Summary
Volatile anesthetics are commonly applied to induce and maintain general anesthesia. Minimum alveolar concentration (MAC) is one of the widely used indicator of preventing unexpected intraoperative awareness of volatile anesthetics[1,2]. BIS, represented by number, is the process of frontal electroencephalogram which demonstrating the awareness state and the degree of brain activity It is the most widely used brain-function monitor, which is a noninvasive and simple method for assessing consciousness and depth of anesthesia by analyzing the frontal electroencephalogram (EEG) derived from the forehead[7,8]. Because BIS, range from 0 to 100, provides a patient’s anesthetic depth or conscious level in real time with objective values, it can avert adverse effects caused by excessive use of anesthetic agents or awakening during surgery due to light anesthesia. The aim of this study was to investigate the effect of neuromuscular blockade reversal agents on BIS and EMG values under steady-state desflurane anesthesia, a volatile agent
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