Kohl R L, MacDonald S
Division of Space Biomedicine, Universities Space Research Association, Johnson Space Center, Houston, Texas.
J Clin Pharmacol. 1991 Oct;31(10):934-46. doi: 10.1002/j.1552-4604.1991.tb03653.x.
Fundamental approaches in selection of new agents for evaluation in prevention of space/motion sickness (SMS) are reviewed. The discussion centers on drugs under investigation at the Johnson Space Center. Methodology that employs the rotating chair for measuring SMS symptomatology and susceptibility is described. The most obvious approach to the development of new agents relies on selection of agents from drug classes that possess pharmacologic properties of established anti-motion sickness agents. A second approach selects drugs that are used to prevent emesis caused by means other than exposure to motion. The third approach relies on basic research that characterizes individual differences in susceptibility. The hypothesis is: detection of individual differences leads to identification of specific drugs, which target physiologic systems that show individual differences. These physiologic systems are targets for therapy and may play a role in the etiology of SMS. Two drugs that reduce susceptibility to SMS include dexamethasone and d(CH2)5Tyr(Me)AVP, a vasopressin (AVP)V1 antagonist. The latter peptide has demonstrated complete blockade of emesis and other significant symptoms in squirrel monkeys. These studies were predicated on observations that subjects who were more resistant to SMS had higher plasma AVP after severe nausea than subjects with lower resistances. Investigations are underway to test a 0.5-mg intravenous dose in humans. Kappa opioid agonists inhibit AVP release and offer new therapeutic possibilities and advantages over AVP peptides. This review details the experimental data collected on AVP and adrenocorticotropin. The literature supports interrelated roles for AVP and opioid peptides in SMS. Experimental testing of kappa agonists is warranted because specific opioid agonists act at neuroanatomical sites causing nausea and vomiting. It is argued opioid receptors in the chemoreceptor trigger zone and vomiting center stimulate and inhibit the emetic response, respectively. The evidence suggests kappa and/or mu receptors at VC are involved in inhibition of emesis, whereas delta opioid receptors at CTZ are involved in stimulation of emesis.
本文综述了用于预防空间/运动病(SMS)评估的新型药物选择的基本方法。讨论集中在约翰逊航天中心正在研究的药物。描述了使用转椅测量SMS症状和易感性的方法。开发新型药物最明显的方法是从具有已确立的抗晕动病药物药理特性的药物类别中选择药物。第二种方法是选择用于预防除运动暴露以外的其他原因引起的呕吐的药物。第三种方法依赖于表征易感性个体差异的基础研究。假设是:检测个体差异会导致识别出针对显示个体差异的生理系统的特定药物。这些生理系统是治疗靶点,可能在SMS的病因中起作用。两种降低SMS易感性的药物包括地塞米松和d(CH2)5Tyr(Me)AVP,一种血管加压素(AVP)V1拮抗剂。后一种肽已证明能完全阻断松鼠猴的呕吐和其他明显症状。这些研究基于这样的观察,即对SMS抵抗力较强的受试者在严重恶心后的血浆AVP水平高于抵抗力较低的受试者。正在进行研究以测试在人体中的0.5毫克静脉注射剂量。κ阿片受体激动剂抑制AVP释放,并提供了新的治疗可能性和优于AVP肽的优势。这篇综述详细介绍了关于AVP和促肾上腺皮质激素收集的实验数据。文献支持AVP和阿片肽在SMS中的相互关联作用。对κ激动剂进行实验测试是有必要的,因为特定的阿片受体激动剂作用于引起恶心和呕吐的神经解剖部位。有人认为,化学感受器触发区和呕吐中枢的阿片受体分别刺激和抑制催吐反应。证据表明,呕吐中枢的κ和/或μ受体参与呕吐抑制,而化学感受器触发区的δ阿片受体参与呕吐刺激。
