异氟烷在0.8至1.2最低肺泡麻醉浓度之间会抑制大鼠的弥漫性伤害性抑制控制。

Isoflurane depresses diffuse noxious inhibitory controls in rats between 0.8 and 1.2 minimum alveolar anesthetic concentration.

作者信息

Jinks Steven L, Antognini Joseph F, Carstens Earl

机构信息

Department of Anesthesiology and Pain Medicine, University of California, Davis, 95616, USA.

出版信息

Anesth Analg. 2003 Jul;97(1):111-6, table of contents. doi: 10.1213/01.ane.0000066259.39584.f7.

DOI:10.1213/01.ane.0000066259.39584.f7

PMID:12818952

Abstract

UNLABELLED

Diffuse noxious inhibitory control (DNIC) occurs when the response to a noxious stimulus is inhibited by a second, spatially remote noxious stimulus. The minimum alveolar anesthetic concentration (MAC) to suppress movement is not altered by a second remote noxious stimulus. We hypothesized that DNIC would be depressed in the peri-MAC range. Rats were anesthetized with isoflurane, and MAC was measured. We recorded dorsal horn neuronal responses to noxious thermal stimulation of the hindpaw, with or without concomitant supramaximal noxious mechanical stimulation of the tail or contralateral hindpaw. At 0.8 MAC, the tail clamp decreased neuronal responses 70% compared with control heat-evoked responses (from 1032 +/- 178 impulses per minute to 301 +/- 135 impulses per minute; P < 0.05). The tail clamp had no significant effect on neuronal responses at 1.2 MAC (from 879 +/- 139 impulses per minute to 825 +/- 191 impulses per minute; P > 0.05). Similarly, 1.2 MAC isoflurane significantly depressed DNIC elicited by hindpaw clamping. In another group, the cervical spinal cord was reversibly blocked by cooling to determine whether the inhibition was mediated supraspinally. With spinal cord cooling, the counterstimulus-evoked inhibition was not observed at 0.8 MAC. These results suggest that DNIC involves supraspinal structures and is present at sub-MAC isoflurane concentrations but is depressed at more than 1 MAC.

IMPLICATIONS

Diffuse noxious inhibitory control (DNIC) occurs when a noxious stimulus is perceived as being less painful when a second noxious stimulus is applied elsewhere on the body. DNIC is present in anesthetized animals, although how anesthesia affects it is unknown. We found that isoflurane depressed DNIC in the transition from 0.8 to 1.2 minimum alveolar anesthetic concentration, suggesting that DNIC is depressed in the anesthetic range needed to suppress movement.

摘要

未标记

当对一种伤害性刺激的反应被另一种在空间上遥远的伤害性刺激抑制时，就会发生弥漫性伤害性抑制控制（DNIC）。抑制运动所需的最低肺泡麻醉浓度（MAC）不会因另一种遥远的伤害性刺激而改变。我们假设在MAC周围范围内DNIC会受到抑制。用异氟烷麻醉大鼠并测量MAC。我们记录了后爪受到伤害性热刺激时背角神经元的反应，同时伴有或不伴有对尾巴或对侧后爪的超强伤害性机械刺激。在0.8MAC时，与对照热诱发反应相比，夹尾使神经元反应降低了70%（从每分钟1032±178个冲动降至每分钟301±135个冲动；P<0.05）。在1.2MAC时，夹尾对神经元反应无显著影响（从每分钟879±139个冲动降至每分钟825±191个冲动；P>0.05）。同样，1.2MAC的异氟烷显著抑制了后爪夹捏引起的DNIC。在另一组实验中，通过冷却使颈脊髓可逆性阻断，以确定这种抑制是否由脊髓上结构介导。脊髓冷却时，在0.8MAC未观察到反刺激诱发的抑制。这些结果表明，DNIC涉及脊髓上结构，并且在低于MAC的异氟烷浓度下存在，但在超过1MAC时受到抑制。

启示

当在身体其他部位施加第二种伤害性刺激时，伤害性刺激被感知为疼痛减轻，此时就会发生弥漫性伤害性抑制控制（DNIC）。DNIC存在于麻醉动物中，尽管麻醉如何影响它尚不清楚。我们发现异氟烷在从0.8到1.2最低肺泡麻醉浓度的转变过程中抑制了DNIC，这表明在抑制运动所需的麻醉范围内DNIC受到抑制。

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异氟烷在0.8至1.2最低肺泡麻醉浓度之间会抑制大鼠的弥漫性伤害性抑制控制。

Isoflurane depresses diffuse noxious inhibitory controls in rats between 0.8 and 1.2 minimum alveolar anesthetic concentration.

作者信息

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出版信息

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