Department of Anesthesiology, Perioperative and Pain Medicine, School of Medicine, Stanford University, Stanford, CA.
Trigemina, Inc., Moraga, CA.
Headache. 2017 May;57 Suppl 2:64-75. doi: 10.1111/head.13082.
This article reviews material presented at the 2016 Scottsdale Headache Symposium. This presentation provided scientific results and rationale for the use of intranasal oxytocin for the treatment of migraine headache. Results from preclinical experiments are reviewed, including in vitro experiments demonstrating that trigeminal ganglia neurons possess oxytocin receptors and are inhibited by oxytocin. Furthermore, most of these same neurons contain CGRP, the release of which is inhibited by oxytocin. Results are also presented which demonstrate that nasal oxytocin inhibits responses of trigeminal nucleus caudalis neurons to noxious stimulation using either noxious facial shock or nitroglycerin infusion. These studies led to testing the analgesic effect of intranasal oxytocin in episodic migraineurs-studies which did not meet their primary endpoint of pain relief at 2 h, but which were highly informative and led to additional rat studies wherein inflammation was found to dramatically upregulate the number of oxytocin receptors available on trigeminal neurons. This importance of inflammation was supported by a series of in vivo rat behavioral studies, which demonstrated a clear craniofacial analgesic effect when a pre-existing inflammatory injury was present. The significance of inflammation was further solidified by a small single-dose clinical study, which showed analgesic efficacy that was substantially stronger in chronic migraine patients that had not taken an anti-inflammatory drug within 24 h of oxytocin dosing. A follow-on open label study examining effects of one month of intranasal oxytocin dosing did show a reduction in pain, but a more impressive decrease in the frequency of headaches in both chronic and high frequency episodic migraineurs. This study led to a multicountry double blind, placebo controlled study studying whether, over 2 months of dosing, "as needed" dosing of intranasal oxytocin by chronic and high frequency migraineurs would reduce the frequency of their headaches compared to a 1-month baseline period. This study failed to meet its primary endpoint, due to an extraordinarily high placebo rate in the country of most of the patients (Chile), but was also highly informative, showing strong results in other countries and strong post hoc indications of efficacy. The results provide a strong argument for further development of intranasal oxytocin for migraine prophylaxis.
本文回顾了 2016 年斯科茨代尔头痛研讨会的演讲内容。本次演讲提供了科学结果和使用鼻内催产素治疗偏头痛的理论基础。回顾了临床前实验的结果,包括证明三叉神经节神经元具有催产素受体并被催产素抑制的体外实验。此外,这些相同的神经元大部分含有 CGRP,其释放被催产素抑制。结果还表明,鼻内催产素抑制使用有害面部冲击或硝酸甘油输注对三叉神经核尾端神经元的有害刺激的反应。这些研究导致了对发作性偏头痛患者鼻内催产素镇痛效果的测试 - 这些研究没有达到 2 小时缓解疼痛的主要终点,但这些研究非常有启发性,并导致了额外的大鼠研究,其中发现炎症显著上调了三叉神经神经元上可用的催产素受体数量。炎症的重要性得到了一系列体内大鼠行为研究的支持,这些研究表明在存在先前存在的炎症损伤时,存在明显的颅面镇痛作用。炎症的重要性通过一项小型单次剂量临床研究得到进一步巩固,该研究表明在催产素给药后 24 小时内未服用抗炎药的慢性偏头痛患者中,镇痛效果明显更强。一项后续的开放标签研究检查了鼻内催产素给药一个月的效果,确实显示疼痛减轻,但在慢性和高频发作性偏头痛患者中,头痛发作的频率下降更为显著。这项研究导致了一项多国家双盲、安慰剂对照研究,研究在 2 个月的给药期间,慢性和高频偏头痛患者“按需”鼻内催产素给药是否会比 1 个月的基线期减少头痛发作的频率。由于大多数患者所在国家(智利)的安慰剂率极高,该研究未能达到其主要终点,但也极具启发性,在其他国家显示出强烈的结果,并在事后分析中显示出疗效的强烈迹象。这些结果为进一步开发鼻内催产素预防偏头痛提供了有力的论据。
