丙泊酚通过γ-氨基丁酸(GABA)能机制作用于脊髓腹角,从而产生制动作用。
Propofol produces immobility via action in the ventral horn of the spinal cord by a GABAergic mechanism.
作者信息
Kungys Gudrun, Kim Jongbun, Jinks Steven L, Atherley Richard J, Antognini Joseph F
机构信息
Department of Anesthesiology and Pain Medicine, University of California, Davis, California 95616, USA.
出版信息
Anesth Analg. 2009 May;108(5):1531-7. doi: 10.1213/ane.0b013e31819d9308.
BACKGROUND
We investigated the actions of propofol and isoflurane on nociceptive responses of neurons in the spinal cord.
METHODS
We determined nociceptive responses of lumbar neurons in the dorsal horn (<1200 microm) and ventral horn (>1200 microm) of decerebrate rats before and during propofol (1 effective dose, ED(50)) or isoflurane (1 minimum alveolar concentration) anesthesia. During recording of ventral horn neurons, we administered picrotoxin by infusion to determine whether isoflurane and propofol differed in their effects at the gamma aminobutyric acid (GABA) Type A receptors. We also determined whether decerebration altered propofol requirements to produce immobility.
RESULTS
Decerebration did not affect propofol requirements. The ED(50) for propofol was 497 +/- 58 microg x kg(-1) x min(-1) in intact rats and 420 +/- 65 microg x kg(-1) x min(-1) in decerebrated rats (P > 0.05), with corresponding propofol blood concentrations of 8.1 +/- 1.1 microg/mL and 7.3 +/- 1.1 microg/mL, respectively (P > 0.05). Propofol did not significantly depress dorsal horn neurons, but isoflurane depressed the responses to 56% of control (P < 0.05). Propofol depressed ventral horn neurons to 47% of control, whereas isoflurane depressed ventral horn neurons to 20% of control. Picrotoxin significantly reversed the depressant effect of propofol on ventral horn neuronal responses (79% of control, not significantly different from control). Pic- rotoxin, however, had no effect on isoflurane's depression of ventral horn neuronal responses (26% of control).
CONCLUSIONS
Propofol acts in the spinal cord to produce immobility. This depressive effect occurs in the ventral horn and is mediated mainly by GABA(A) receptors. Isoflurane also depresses neurons in the ventral horn; however, isoflurane actions at the GABA(A) receptor are either weak or overridden by other effects in the ventral horn.
背景
我们研究了丙泊酚和异氟烷对脊髓神经元伤害性反应的作用。
方法
我们测定了在丙泊酚(1个有效剂量,ED50)或异氟烷(1个最低肺泡浓度)麻醉前及麻醉期间,去大脑大鼠背角(<1200微米)和腹角(>1200微米)腰段神经元的伤害性反应。在记录腹角神经元时,我们通过输注给予苦味毒,以确定异氟烷和丙泊酚在γ-氨基丁酸(GABA)A型受体上的作用是否不同。我们还确定了去大脑是否改变了产生不动状态所需的丙泊酚剂量。
结果
去大脑不影响所需的丙泊酚剂量。完整大鼠中丙泊酚的ED50为497±58微克·千克-1·分钟-1,去大脑大鼠中为420±65微克·千克-1·分钟-1(P>0.05),相应的丙泊酚血药浓度分别为8.1±1.1微克/毫升和7.3±1.1微克/毫升(P>0.05)。丙泊酚对背角神经元无明显抑制作用,但异氟烷使反应降低至对照的56%(P<0.05)。丙泊酚使腹角神经元降低至对照的47%,而异氟烷使腹角神经元降低至对照的20%。苦味毒显著逆转了丙泊酚对腹角神经元反应的抑制作用(为对照的79%,与对照无显著差异)。然而,苦味毒对异氟烷抑制腹角神经元反应无作用(为对照的26%)。
结论
丙泊酚在脊髓中发挥作用以产生不动状态。这种抑制作用发生在腹角,主要由GABA A受体介导。异氟烷也抑制腹角神经元;然而,异氟烷在GABA A受体上的作用要么较弱,要么被腹角中的其他作用所掩盖。
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