浅谈体育游戏在篮球教学中运用

运用文献、教学观察、调查分析、访谈分析等研究方法及心理、生理理论,对体育游戏在篮球教学中的作用进行归纳、总结,结果表明体育游戏在篮球教学中有积极作用.提出了体育游戏的应用原则和在教学中应注意的问题.     

关于中医色光疗法机理的植物神经模型

本文通过分析现代医学对阴阳原理和气功的最新研究,总结出阴阳与植物神经系统功能的对应关系;结合中医色光疗法对阴阳诸证的辨证医治,提出了中医色光疗法机理的植物神经模型：绿色、蓝色、紫色等冷色兴奋副交感神经系统,红色、橙色、黄色等暖色兴奋交感神经系统．该模型不但成功地用于解释现代科学关于色觉的研究成果,而且填补了色觉理论的人类证据这一空白．该模型还成功地用于解释现代科学关于色彩生理学和色彩心理学的研究成果．我们相信,本文为中医色光疗法的进一步的临床应用提供了理论依据．     

中枢神经的性差别

生物高聚物受某种模板复制而进化,受约束而选择并将自身“差错”减到最低限度而引导到最适稳态,中枢神经系统约束和选择压力作用被迫形成性别差异,这一功能构成密码并遗传。     

Current perspectives on benzoflavone analogues with potent biological activities: A review

Medicinal chemistry investigators have isolated and synthesized benzoflavone analogues with diverse bioactivities including enzyme inhibitory activity, central nervous system (CNS) activity, anti-inflammatory activity, anti-microorganism activity, hypoglycemic activity, and receptor modulating potential. SAR (Structure-Activity Relationship) studies have been conducted extensively and plenty of benzoflavone analogues have been prepared for potential targets. Herein, we review the pharmacology properties and SAR for benzoflavone analogues, and provide a brief summarization of synthetic strategies, wishing to give perspective on the research and development of benzoflavone derivatives.     

Coordinated regulation of circadian rhythms and homeostasis by the suprachiasmatic nucleus

We have demonstrated that in rats activities of various enzymes related to gluconeogenesis and amino acid metabolism show circadian rhythms. Based on these results, we have explored the molecular mechanisms underlying circadian oscillation and phase response to light of the master clock located in the dorsomedial subdivision of the suprachiasmatic nucleus (SCN) and found various proteins closely related to phase response such as BIT/SHPS-1 and those of circadian oscillation, some of which are involved in protein-tyrosine phosphorylation.On the other hand, we have presented several lines of evidence that the ventrolateral subdivision of the SCN includes not only the control center of energy supply to the brain, but also that of homeostasis such as blood glucose, blood pressure, water balance, and body temperature. We have also shown that besides these functions, the latter subdivision is involved in the regulations of hormone secretions such as insulin, glucagon, corticosterone and vasopressin. It has been also shown by electrophysiological means that light exposure to rat eye enhances sympathetic nerve activity, whereas it depresses parasympathetic nerve activity. Thus, environmental light is implicated not only in the phase-shift through the retinohypthalamic tract (RHT), but also control of autonomic nerve activities through the RHT, It is also discussed in this review how the two divisions are interconnected and how environmental light is involved in this interconnection.     

生物反馈改善银屑病患者自主神经功能的研究

１９９０年我们采用生物反馈方法治疗寻常型银屑病患３１例，总有效率为８４％。最近我们运用规范化负荷诱发性心率变异性（ＨＲＶ）研究方法证实了银屑病患的副交感神经张力不足和交感神经兴奋性低下，也即表现为自主神经功能全面降低。为研究生物反馈对银屑病的治疗机理是否与改善自主神经功能状态有关，我们设计了本课题。对象和方法：４１例建党型银屑病患，２６例有明显精神因素诱发或加重，占６３．４１％；正常人３０名     

基于神经网络的最大似然空间信号参数估计

本文主要研究了用Hopfield神经网络实时实现最大似然多信号源空间参数估计方法。报传统最大似然信号参数估计的理论和Hopfield连续状态神经网络特性后，给出了一种实现最大似然空间参数估计模型，该神经网络模型的模拟实验结果表明，用Hopfield网络实时实现的信号参数估计方法具有与传统的最大似然参数估计法拥有同样的理论分析结果。     

胃粘膜HCO_3~－分泌的细胞机制和调节

正常的胃粘膜上皮细胞依赖新陈代谢的过程分泌ＧＣＯ－３。它依赖于跨膜Ｎａ＋梯度和Ｎａ＋－Ｋ＋－ＡＴＰ酶的活性；也可伴随ＮａＨＣＯ３协同转运。粘膜损伤时，紧密连结被损害或上皮脱落，可增加粘膜渗透性，使ＨＣＯ－３被动转运进入胃腔。酸可刺激依赖新陈代谢的ＨＣＯ－３分泌，也可造成其被动转运．中枢神经系统参与调节胃ＨＣＯ－３分泌，迷走神经促进其分泌，而交感神经抑制其分泌。ＨＣＯ－３参与组成一个胃粘液－ＨＣＯ－３屏障，保护胃粘膜免受损伤，促进粘膜自身修复和再生。