5. Chemical structures of a uric acid

 

Fig.5 shows the chemical structure of the uric acid [1]. As a chemical symbol used in this figure, NH which expresses the connection between N and H is clearly shown in Fig. 6 (a). This is known as a Keto-type structure.

 

In the pentagon structure shown in Fig. 6(a), double connections between O and Carbon can be written as shown in Fig.6 (b). This is known as Enol-type structure.

 

　

6. Oxidation and Neutralization of a uric acid

Oxidation of the uric acid in a human boy can be expressed as follows [See Fig. 6(b)]

                        

Where, C₅H₄N₄ O₃ is the uric acid. [ ( C₅H_３N₄ O₂ ）O^-1- ] in (1) can be neutralized by using [ Na⁺ ]. From (1) [ ( C₅H_３N₄ O₂ ）O^-1- ]  ( C₅H_３N₄ O₃ ) + (-e) (2) From the description written above Na⁺  Na + e (3) Where, e=1.59  10^-19 [Coulomb].

 

The electrical charges of (2) and (3) can be neutralized, i.e. (-e) + e = 0. ( C₅H_３N₄ O₃ ）and Na are excreted to the outside of the human body.

 

From (1),

 

 

[H^+1,] can be done neutralization by [OH-¹].

 

Where, [OH-¹] is a reactive oxygen. From (4) and (5), e + (-e) = 0, [H₂ O] can be generated in the human body.  

 

7. Neutralizations of uric acids

The set of {( C₅H_３N₄ O₂ ）O^-1- } can be neutralized by using the set of Na⁺¹.

 

Σ{( C₅H_３N₄ O₂ ）O^-1- }_i  + Σ{Na⁺¹  }_j = [A]     (6)

 

From (6),

 

 

The processes of oxidations can be expressed as shown above. Where the relations among { i=1,2,3, ,M}, { j=1,2,3,　,Ｎ} and [A] can be written in the following:

 

If (i > j), then [A] can’t have electrically neutralizations. As the result, [A] has to be done via excretions to the outside of the human body. In this case, partial neutralizations can be executed.

 

If (i = j) and (i < j), then [A] can be done via neutralizations. In this case, [A] can be done via excretions to the outside of the human body. Especially, in the latter case, Na OH can be generated and this may be effective for cleansing blood vessels of the human body. The neutralization can be understood as the discharge phenomena.

 

8. Excretion of Uric Acid Crystals

Generally, uric acids are crystallized in low temperature. These are uric acid crystals.

 

The electrically-charged distributional patterns for uric acid crystals accumulated in the human body depend upon curvatures of internal organs in the human body. For example, the head and feet of the human body have many negatively-charged distributions of uric acid crystals.

 

Inside the human body, some Na⁺ melted in distilled water can be taken for neutralizations of uric acid crystals.

 

Average values of consumption of Na⁺ are shown in Fig. 7.

 

Fig.8 shows the improved processes for excreting uric acid crystals accumulated in the human body.

 

As shown in this figure, there are four distinct routes for excretions: nostrils, gums, hands, and feet. Of these items, combinations of gums and feet, and hands and feet are especially important.

 

9. Excretion Time for Uric Acid Crystals.

 

Table 2 shows an example of the excretion speed of uric acid crystals and the change of body weight with the use of warm water for foot cleansing.

 

Tables 3 and 4 show other examples of the excretion speed of uric acid crystals and the change of body weight with the uses of: 1. a shower-bath, and 2. a swimming pool where

 

is the excretion speed, , , is the body weight

 

before excretion, is the body weight after excretion, is the time for the start of excretion,  is the time for the end of excretion.

 

In tables 2, 3 and 4, the body weights have large values in comparison to the case of table 1 written in Part 3-1. This was caused due to an absence of athletic activity during certain months. 

 

 

Fig. 7 Average values of consumption of Na⁺

 

 

 

Fig 8 Improved processes for excreting uric acid crystals accumulated in the human body

 

 

 

 

Table 2 Example of the excretion speed of uric acid crystals and the change of body weight with the use of warm water for foot cleansing; (Aug. 12, 2021)

 

 

 

Table 3- Example of the excretion speed of uric acid crystals and the change of body weight with the use of a shower-bath;  (Aug.12, 2021)

 

 

 

Table 4. Example of the excretion speed of uric acid crystals and the change of body weight with the use of a swimming pool; (Aug. 11, 2021)

 

 

 

References:

[1] M. Satake, K. Taniguchi, M, Ueda, and Y. Yamamoto: Modern Chemistries,

Fig. 1.3.7, Digital Book, 2019, The BWW Society

[2] K. Taniguchi：Techniques for Excreting Uric Acid Crystals in a Human Body,

 Part 3-1, 2019, The BWW Journal.

 

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