An Analysis of Transition Metals in Tissues with Characteristic X-rays, NMR and ESR (Report II)
10.3777/jjsam.32.3_204
- VernacularTitle:特性X線, NMR, ESRによる組織内遷移金属の分析 (II)
- Author:
Kenji NIHONYANAGI
- Publication Type:Journal Article
- Keywords:
transition metals;
diffusion;
distribution;
characteristic X-rays;
NMR and ESR
- From:Journal of the Japan Society of Acupuncture and Moxibustion
1983;32(3):204-209
- CountryJapan
- Language:Japanese
-
Abstract:
A large number of minor elements consists in being with the metalloenzyme and are essential to activation and structural support of the enzyme.
It is well known that most of the metal ions are transitional and their functions are similar to enzymes and it displays higher catalysis connected with protein. Needles for acupuncture are made of transition metals.
We have insisted that it is indispensable for our study to understand actions of acupuncture in an organism to be caused by ionization of acupuncture components and to research its being form of metal ion in an organism from the viewpoint of physiological chemistry and biochemistry.
In this paper, we make a report of movements of Cation in the muscle and the skin induced by an Au-needle. We analyzed it by characteristic X-rays, NMR and ESR.
1. Being inserted the Au-needle in the muscle, it is able to lyse large PPM of ion.
2. The ion is transferred from the anode to the cathode of the Au-needle inserted in the muscle.
3. There are two different tissues successively in the muscle; one has the loci which Au-ion is easy to flow into and the other has the loci which the Au-ion is difficult to flow into.
4. The amount of ionization caused by ionization of the Au-needle did not follow the rule of Faraday's electrolysis.
5. A distributive equation of ion caused by ionization of the Au-needle is this;
I≈10.45(-X)0.46
I=distributive amount of diffusion
X=distance from the punctured point
6. Diffusing speed (V) of the intramuscular Au-ion was this in average;
0.6 (mm/min)≤V≤0.9 (mm/min)
7. The intramuscular Au-ion must not really transfer each other for the various materials in the muscle. We were not able to find any Au (III).
8. The intramuscular ion must not have any asymmetrical electron.
