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利用微量放射性同位素标记生物有机大分子,按照中医经典理论的论述注入健康人体,同时、快速、连续测量放射性强度随时间、空间的变化,进行分析、综合。在四条大经上共进行了110人次以上的实验测量。 主要实验结果如下: 1.实验证实确有物质和信息沿经络路线传播,沿经传播主要是一维走向。 2.实验证明物质和信息沿经传播有确定的方向和速度,其基本速度与经典的经络理论一致。 3.“气血”沿经络的运行呈波动状态。 实验发现:被标记的化合物沿经运行时,其强度不是单调、平滑的变化,而是呈有规律的波动状态。即具有确定的周期、振幅、波长。 在分析实验结果的基础上,提出了经络实体的理论模型和数学表达。即描绘气血运行规律的数学方程 (△N/△T)_n=X~(n-1)(N_X+N_cn~(-1/2))-Asum from 1 to m X~(n-m)Y~m n-m≥m/2 理论计算曲线与实测曲线相比较表明、定性、定量方面都相当一致。并提出一组新的人体重要参数。即经络系统作为一个基本的物质、能量交换系统所需的、表征其特有功能的主要参数:流量、流速、周期、振幅、波长。
Biomacromolecules were labeled with trace radioisotopes and injected into healthy human beings according to the classical theory of TCM. At the same time, rapid and continuous measurement of changes in radioactive intensity with time and space was conducted for analysis and synthesis. A total of 110 or more experimental measurements were conducted on the four major scriptures. The main experimental results are as follows: 1. The experiment confirmed that there are indeed material and information transmission along the meridian route, along the transmission is mainly one-dimensional trend. 2. Experiments show that material and information have a definite direction and speed along the propagation, the basic speed consistent with the classic meridian theory. 3. “qi and blood” fluctuated along the meridian. The experimental results show that when the labeled compounds are in operation, their intensities are not monotonous and smooth, but rather fluctuate regularly. That is, with a definite period, amplitude and wavelength. Based on the analysis of experimental results, theoretical models and mathematical expressions of meridian entities are proposed. That is, the mathematical equation (△ N / △ T) _n = X ~ (n-1) (N_X + N_cn ~ (-1/2)) - Asum from 1 to m X ~ (nm) Y ~ m nm ≧ m / 2 Comparison between the theoretical calculation curve and the measured curve shows that both qualitative and quantitative aspects are quite consistent. And put forward a new set of important human parameters. The meridian system as a basic material, energy exchange system required to characterize its unique features of the main parameters: flow, velocity, period, amplitude, wavelength.