Brosnan Robert J, Fukushima Fabíola B, Pham Trung L
Department of Surgical and Radiological Sciences, School of Veterinary Medicine, University of California, Davis, CA, USA.
Department of Surgical and Radiological Sciences, School of Veterinary Medicine, University of California, Davis, CA, USA.
Vet Anaesth Analg. 2017 May;44(3):577-588. doi: 10.1016/j.vaa.2016.07.003. Epub 2017 Jan 11.
N-butane and n-pentane can both produce general anesthesia. Both compounds potentiate γ-aminobutyric acid type A (GABA) receptor function, but only butane inhibits N-methyl-d-aspartate (NMDA) receptors. It was hypothesized that butane and pentane would exhibit anesthetic synergy due to their different actions on ligand-gated ion channels.
Prospective experimental study.
A total of four Xenopus laevis frogs and 43 Sprague-Dawley rats.
Alkane concentrations for all studies were determined via gas chromatography. Using a Xenopus oocyte expression model, standard two-electrode voltage clamp techniques were used to measure NMDA and GABA receptor responses in vitro as a function of butane and pentane concentrations relevant to anesthesia. The minimum alveolar concentrations (MAC) of butane and pentane were measured separately in rats, and then pentane MAC was measured during coadministration of 0.25, 0.50 or 0.75 times MAC of butane. An isobole with 95% confidence intervals was constructed using regression analysis. A sum of butane and pentane that was statistically less than the lower-end confidence bound isobole indicated a synergistic interaction.
Both butane and pentane dose-dependently potentiated GABA receptor currents over the study concentration range. Butane dose-dependently inhibited NMDA receptor currents, but pentane did not modulate NMDA receptors. Butane and pentane MAC in rats was 39.4±0.7 and 13.7±0.4 %, respectively. A small but significant (p<0.03) synergistic anesthetic effect with pentane was observed during administration of either 0.50 or 0.75×MAC butane.
Butane and pentane show synergistic anesthetic effects in vivo consistent with their different in vitro receptor effects.
Findings support the relevance of NMDA receptors in mediating anesthetic actions for some, but not all, inhaled agents.
正丁烷和正戊烷均可产生全身麻醉作用。这两种化合物均能增强γ-氨基丁酸A型(GABA)受体功能,但只有丁烷能抑制N-甲基-D-天冬氨酸(NMDA)受体。据推测,由于丁烷和戊烷对配体门控离子通道的作用不同,它们会表现出麻醉协同作用。
前瞻性实验研究。
总共4只非洲爪蟾和43只斯普拉格-道利大鼠。
所有研究中的烷烃浓度均通过气相色谱法测定。使用非洲爪蟾卵母细胞表达模型,采用标准双电极电压钳技术在体外测量与麻醉相关的丁烷和戊烷浓度作用下的NMDA和GABA受体反应。分别在大鼠中测量丁烷和戊烷的最低肺泡有效浓度(MAC),然后在给予0.25、0.50或0.75倍MAC丁烷的同时测量戊烷的MAC。使用回归分析构建具有95%置信区间的等效线图。丁烷和戊烷的总和在统计学上小于等效线图下限置信区间表明存在协同相互作用。
在研究浓度范围内,丁烷和戊烷均剂量依赖性地增强GABA受体电流。丁烷剂量依赖性地抑制NMDA受体电流,但戊烷不调节NMDA受体。大鼠中丁烷和戊烷的MAC分别为39.4±0.7%和13.7±0.4%。在给予0.50或0.75倍MAC丁烷期间,观察到与戊烷有轻微但显著(p<0.03)的协同麻醉作用。
丁烷和戊烷在体内表现出协同麻醉作用,与其体外不同的受体作用一致。
研究结果支持NMDA受体在介导某些(但不是全部)吸入麻醉剂的麻醉作用中的相关性。
