结论adhd可能是多巴胺能和去甲肾上腺素能两种递质系统失调或失衡的结果。
Conclusion Dysfunction or imbalance between noradrenergic and dopaminergic neurotransmitter systems might play an leading role in the pathophysiological mechanism of ADHD.
她总计发现了11个这样的基因,分布于四个神经递质系统,都与SNPs有关系。
Altogether she found 11 genes, in four neurotransmitter systems, where SNPs made a difference.
因而应激导致HPA轴功能亢进,进而引起单胺类神经递质系统功能下降而引发抑郁症成为目前主要的病因学说。
The theory that stress brings on the enhancement of (HPA) , then causes the decline of monoamine transmitters system and results in depression is the major hypothesis for depression.
撤药反应的出现可能与药物对中枢神经系统中血清素、多巴胺、去甲肾上腺素、GABA、胆碱能类递质系统的影响有关。
Appearance of withdrawal reactions may associated with pharmacological effects on serotonin, dopamine, norepinephrine, GABA and cholinergic transmitter in central nervous system.
答:这套自动神经系统利用肾上腺激素(一种神经递质,或者称为化学信使)把信号发送到身体的各个部分,以便激活“斗争还是逃避”反应。
A: the autonomic nervous system USES the hormone adrenaline, a neurotransmitter, or chemical messenger, to send signals to various parts of the body to activate the fight-or-flight response.
关于安慰剂效应,已知的一点是它涉及到了几个大脑系统,每一个都由一种特殊的信使分子控制,称为“神经递质”。
One thing that is known about the placebo effect is that it involves several brain systems, each under the control of a particular type of messenger molecule, called a neurotransmitter.
神经毒气通过阻断指示肌肉收缩的神经递质分解而侵袭人体神经系统。
Nerve gases attack the nervous system of the body by interrupting the breakdown of neurotransmitters that signal muscles to contract.
我们不知道为什么尼古丁受体表达各种组织器官的所有细胞表面,但我们知道尼古丁是一个重要的神经递质在中枢神经系统。
We do not know why nicotine receptors express in all the cell surfaces from various tissue origins, but we do know that nicotine is an important neuron transmitter in the central nervous system.
NO作为NANC神经元递质,在泌尿生殖系统中起着重要作用。
As a transmitter of NANC neuron, NO plays an important role in urogenital system.
突触前递质释放装置的发育成熟和突触后受体的转运是中枢神经系统突触发育过程中非常重要的两个方面。
Maturation of presynaptic transmitter secretion machinery and trafficking of postsynaptic receptors are two critical steps in synaptogenesis and synaptic development of central nervous system (CNS).
组胺是一种炎症介质和生物活性物质,更是中枢神经系统中的一种重要的神经递质或神经调质。
Histamine is a medium of inflammation, and yet is an important neurotransmitter or neuromodulatory in central nerve system.
目的:分析K物质在大鼠中脑导水管周围灰质中参与痛觉调制的作用,揭示内源性镇痛系统的神经递质机制。
AIM: To analyze the effect of substance K on pain modulation in the periaqueductal gray (PAG) of rats and indicate the neurotransmitter mechanism in endogenous analgesia system.
4个存在于5-羟色胺介导的系统中,该递质可以调节情绪;
Four were in the system mediated by serotonin, which regulates mood.
结论单胺类递质及代谢产物参与了慢性炎症痛期间内源性镇痛系统的作用。
Conclusion Spinal monoamine transmitter and their metabolites take part in the action of endogenous antinociception in adjuvant-induced monoarthritic inflammatory pain.
胆碱作为神经递质乙酰胆碱的一部分,有助于电能神经系统内的流动,而且在许多重要的过程,包括大脑记忆。
Choline, as part of the neurotransmitter acetylcholine, helps the flow of electrical energy within the nervous system and is important in numerous brain processes including memory.
为递质的神经系统,它与肾上腺素能、胆碱能神经和肽类神经一样重要。
It has been proved the nervous system which transmitter is NO widely distributes in human body and is as important as adrenergic and cholinergic nerves and neuropeptides.
虽然它神经系统结构简单,但它神经元的功能和神经递质都与其他动物类似,是研究神经退行性疾病机制的良好在体模型。
The structure of the nervous system in C. elegans is very simple, whereas its neuronal cell types and corresponding neurotransmitters resemble that in mammals.
突触前递质释放装置的发育成熟和突触后受体的转运是中枢神经系统突触发育过程中非常重要的两个方面。
The H 3 receptors are presynaptic receptors which regulate the synthesis and release of histamine in histaminergic neurons in central nervous system.
胶质细胞是中枢神经系统内的一类有别于神经元的细胞,可表达多种神经递质或细胞因子受体,在神经系统的多种功能中扮演着重要角色。
In the central nervous system, glial cells play an important role in the development and maintenance of central sensitization. Glial cells express many receptors of neurotransmitters and cytokines.
目的综述抗环血酸在中枢神经系统中的功能以及神经递质对其的调节作用。
Objective This review focused on the function of ascorbic acid and regulative effects of the nervous transmitters on it in the brain.
每位学生有责任了解所有已知的神经递质之途径和它们在中枢神经系统中的交互作用。
Students are responsible for understanding the pathways of all known nerve transmitters and their interactions in the central nervous system.
许多研究者试图发现,是不是焦虑症患者的中枢神经系统,特别是某些神经递质,是引发焦虑症的罪魁祸首。
Many researchers tried to find, is not the central nervous system of patients with anxiety disorders, especially some of the neurotransmitter, is caused by anxiety disorder is the culprit.
许多研究者试图发现,是不是焦虑症患者的中枢神经系统,特别是某些神经递质,是引发焦虑症的罪魁祸首。
Many researchers tried to find, is not the central nervous system of patients with anxiety disorders, especially some of the neurotransmitter, is caused by anxiety disorder is the culprit.
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