QX-OH是一种QX-314衍生剂，可在大鼠中产生长效局部麻醉作用。

QX-OH, a QX-314 derivative agent, produces long-acting local anesthesia in rats.

作者信息

Zhang YuJun, Yang Jun, Yin QinQin, Yang LingHui, Liu Jin, Zhang WenSheng

机构信息

Department of Anesthesiology, West China Hospital, Sichuan University, Chengdu 610041, Sichuan, PR China; Laboratory of Anesthesia and Critical Care Medicine, Translational Neuroscience Center, West China Hospital, Sichuan University, Chengdu 610041, Sichuan, PR China.

Laboratory of Anesthesia and Critical Care Medicine, Translational Neuroscience Center, West China Hospital, Sichuan University, Chengdu 610041, Sichuan, PR China.

出版信息

Eur J Pharm Sci. 2017 Jul 15;105:212-218. doi: 10.1016/j.ejps.2017.05.039. Epub 2017 May 18.

DOI:10.1016/j.ejps.2017.05.039

PMID:28529036

Abstract

QX-314 has been shown to produce long-acting local anesthesia in vivo in animals; however, translation to humans has been impeded by concerns about toxicity. We investigated whether the newly emerged QX-OH molecule could confer long-lasting anesthesia with a low local toxicity in rats. In rat sciatic nerve block model, QX-OH 25mM produced a longer sensory block than QX-314 25mM (median [25th, 75th percentiles], 5.5 [4.25, 6] h vs. 3 [3, 4] h; P=0.03). QX-OH 35mM produced a longer sensory block than QX-314 35mM (8 [6, 12] h vs. 6 [4, 6.5] h, P=0.038). QX-OH at 35 and 45mM generated longer motor blocks than QX-314, with tissue toxicity less than that of QX-314 at the same concentration. In contrast with bupivacaine, QX-OH was clearly superior in terms of sensory and motor blockade durations after a single bolus injection. There was no significant difference in tissue toxicity between QX-OH (25 and 35mM) and bupivacaine. In rat cutaneous trunci pinprick model, the QX-OH-induced pain threshold remained significantly different from baseline at 6h (25mM, P<0.0001), 10h (35mM, P<0.0001), and 12h (45mM, P<0.0001). The time required for full recovery from the subcutaneous anesthetic effect was significantly longer for QX-OH than for QX-314 and bupivacaine. So QX-OH produced concentration-dependent, reversible, and long-acting local anesthesia in animal models with a moderate local toxicity.

摘要

QX - 314已被证明能在动物体内产生长效局部麻醉；然而，由于对毒性的担忧，其向人体的转化受到了阻碍。我们研究了新出现的QX - OH分子是否能在大鼠中产生低局部毒性的长效麻醉。在大鼠坐骨神经阻滞模型中，25mM的QX - OH产生的感觉阻滞时间比25mM的QX - 314长（中位数[第25、75百分位数]，5.5[4.25, 6]小时对3[3, 4]小时；P = 0.03）。35mM的QX - OH产生的感觉阻滞时间比35mM的QX - 314长（8[6, 12]小时对6[4, 6.5]小时，P = 0.038）。35mM和45mM的QX - OH产生的运动阻滞时间比QX - 314长，且在相同浓度下组织毒性低于QX - 314。与布比卡因相比，单次推注后QX - OH在感觉和运动阻滞持续时间方面明显更优。QX - OH（25mM和35mM）与布比卡因在组织毒性方面无显著差异。在大鼠躯干皮肤针刺模型中，QX - OH诱导的痛阈在6小时（25mM，P < 0.0001）、10小时（35mM，P < 0.0001）和12小时（45mM，P < 0.0001）时仍与基线有显著差异。QX - OH从皮下麻醉作用完全恢复所需的时间比QX - 314和布比卡因显著更长。因此，QX - OH在动物模型中产生浓度依赖性、可逆性和长效局部麻醉，且局部毒性适中。

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QX-OH是一种QX-314衍生剂，可在大鼠中产生长效局部麻醉作用。

QX-OH, a QX-314 derivative agent, produces long-acting local anesthesia in rats.

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