Scott J C, Ponganis K V, Stanski D R
Anesthesiology. 1985 Mar;62(3):234-41. doi: 10.1097/00000542-198503000-00005.
Fentanyl and alfentanil produce very similar electroencephalographic (EEG) changes in humans. With increasing serum concentrations of either narcotic, progressive slowing in frequency occurs. This narcotic effect on the brain was quantitated using off-line EEG power spectrum analysis. During EEG recording, six unpremedicated patients received a fentanyl infusion (150 micrograms/min), and six received alfentanil (1,500 micrograms/min) until a specific level of EEG depression (delta waves) occurred. Timed arterial blood samples were obtained for measurement of the narcotic serum concentrations. The narcotic-induced EEG changes were found to lag behind (in time) the serum narcotic concentration changes. To accurately relate EEG changes to serum narcotic concentrations, a pharmacodynamic model (inhibitory sigmoid Emax) was combined with a pharmacokinetic model that incorporated an "effect" compartment. (The effect compartment is the separate pharmacokinetic compartment where drug effect is directly proportional to drug concentration. It is the effect site.) The magnitude of the time lag was quantitated by the half-time of equilibration between serum narcotic concentrations and concentrations in the effect compartment. With fentanyl a significantly greater time lag was present (half-time = 6.4 +/- 1.3 min; mean +/- SD) than with alfentanil (half-time = 1.1 +/- 0.3 min). This difference in time lag between blood concentration and effect may be due to the larger brain-blood partition coefficient for fentanyl. The steady-state serum concentration that caused one-half of the maximal EEG slowing was 6.9 +/- 1.5 ng/ml for fentanyl, compared with 520 +/- 163 ng/ml for alfentanil.(ABSTRACT TRUNCATED AT 250 WORDS)
芬太尼和阿芬太尼在人体中产生非常相似的脑电图(EEG)变化。随着两种麻醉剂血清浓度的增加,频率会逐渐减慢。使用离线EEG功率谱分析对这种麻醉剂对大脑的作用进行了量化。在EEG记录期间,6名未使用术前药的患者接受芬太尼输注(150微克/分钟),6名患者接受阿芬太尼(1500微克/分钟),直至出现特定程度的EEG抑制(δ波)。定时采集动脉血样以测量麻醉剂血清浓度。发现麻醉剂引起的EEG变化在时间上滞后于血清麻醉剂浓度变化。为了准确地将EEG变化与血清麻醉剂浓度相关联,将药效学模型(抑制性S形Emax)与包含“效应”室的药代动力学模型相结合。(效应室是一个独立的药代动力学室,药物效应与药物浓度成正比。它是效应部位。)时间滞后的大小通过血清麻醉剂浓度与效应室浓度之间的平衡半衰期来量化。与阿芬太尼(半衰期=1.1±0.3分钟)相比,芬太尼的时间滞后明显更大(半衰期=6.4±1.3分钟;平均值±标准差)。血药浓度与效应之间的这种时间滞后差异可能是由于芬太尼的脑血分配系数较大。导致最大EEG减慢一半的稳态血清浓度,芬太尼为6.9±1.5纳克/毫升,而阿芬太尼为520±163纳克/毫升。(摘要截断于250字)
