EXECUTIVE SUMMARY OF CEREMONY AND NETWORK.VIETNAMESE TRANSLATE ENGLISH BY=THICH CHAN TANH.

The effects of pressing the pressure points of the Tenfold Path and the Cross Point of Concern have many angles of energy - physiology. The most essential of the Cross of Concern is "capillary catheterization - venous cleaning", so this book will focus on these two topics. [...]

The effects of pressing the pressure points of the Tenfold Path and the Cross Point of Concern have many angles of energy - physiology. The most essential of the Cross of Concern is "capillary catheterization - venous cleaning", so this book will focus on these two topics.

1. BLOOD IN THE PIPES

HOW DIFFERENT?

Functionally, the circulatory system is divided as follows:

• Transmission system: aorta and other arteries, containing little blood, high pressure.
• Distribution system: most of the energy generated by arterial pressure is suppressed.
• Metabolism: large-scale capillary network, metabolism with extracellular fluid.
• Recovery system: veins, aorta and right atrium, large blood volume, low pressure.

Change the blood pressure in the vascular system as shown below:

Velocity of blood in the vascular system.

The presentation shows changes in blood pressure in the vascular system.

Capillary system

According to this chart Figure 1, the capillary section has the largest total cross-sectional area (blue line in Figure 1a), the smallest transmission velocity, the blood pressure is only about 15-40 mmHg. (There are about 10,000 million capillaries and a total exchange area of ​​about 500-700m2), with a total length of about 80,000km (twice the circumference of the Earth).

Capillaries are the place where the circulatory system functions, which is where the exchange of oxygen and nutrients between the blood and the organization occurs. To make the exchange process, the capillary system has a quite special function structure:

• Functional and structural characteristics of capillaries  The arterioles branch into capillaries, the capillaries form the networks that enter the organization.

Capillary system consists of long and thin blood vessels (wall thickness of 0.5μm, capillary diameter of about 5-8μm). The capillary has a capillary sphincter, controlling the amount of blood that enters the capillary. The capillary walls have only a thin layer to carry out the exchange of oxygen and nutrients. Between endothelial cells there are small slits that pass through the capillary walls, about 6-7μm in diameter, which do not allow too large qualities to pass, so that normal blood proteins do not pass through the capillary walls. In addition to the actual capillaries, there are always open channels called the priority channels, connecting the arterioles and the veins, so the blood from the arteries always goes to the veins according to the priority channels. When the capillary sphincter contracts with blood, it mainly travels through this channel, and when the capillary sphincter opens, blood passes through the actual capillaries. This is A. Krogh's invention, which we will talk about later.

Diagram of microcirculation in capillaries  

The motility of blood in capillaries

Blood flowing in the capillaries is due to the pressure difference from the arterioles to the venules. Blood pressure drops very low when through a capillary (15-30 mmHg), only 5 to 15mmHg in the venous vein. The blood flow through the capillary depends on the organization's operation and is regulated by the pre-capillary sphincter as well as the resistance of the small artery and the artery to the organization. At rest, these sphincter muscles only open 5-10% of capillaries to allow blood to pass, whereas in operation (muscle contraction), blood floods capillaries.

Blood does not flow continuously through the capillary network, but often interrupt, due to contraction of the capillary sphincter and smooth muscle into the capillary. In small capillaries, red blood cells have to be deformed to pass through the capillaries, so there are segments of capillaries with only red blood cells, some with only plasma.

The incidents can reduce blood circulation in the capillary system

We can simply understand that blood is the root of life. If any part of the body is less pumped blood, or not nourished blood, it will become a disease, like "dead spots" in the living body. If you clear the way for blood vessels to pump blood to those "dead spots", you can restore health.

With a system of more than 10 billion tiny tubes with a diameter of only 5-8µm, many problems can occur in these "small alleys". We will look at the two most important issues:

• Red blood cell reduction passes through the capillaries

Red blood cells are concave-sided with a diameter of about 7.5 µm and 2.5 độm in thickness at the thickest and no more than 1 µm in the center. Red blood cells are likely

RBCs in the major arteries and red blood cells line up and deform as they pass through small capillaries

very high deformation without breaking, tearing when moving through narrow capillaries, thanks to the red cell membrane that is both flexible and redundant, capable of containing internal components (such as a carrying case). lots of gaps).

But how does red blood cells know how to deform themselves through "small alleys"? AA Academy AA Mikulin explained that due to the electrostatic forces that follow Culong's principle: "different charges attract each other, the same repel sign", the red blood cells carry negative ions, so when "lined up" in the capillary will there is a phenomenon of “the latter pushes the child first”, and the wall is positively charged so it has a suction effect. The scientists experimented with white mice, letting them breathe clean air but absorbing negative ions only three days after the mice died.

• Negative ion density in nature is as follows:
• Waterfall: 20,000 / cm3
• Mountain forest - coast: 5000-10,000 / cm3
• Garden - country: 2000-4000 / cm3
• Outside the street: 200-500 / cm3 (when traffic jam will be reduced to: 50-100 / cm3)

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• In a closed room: 50-200 / cm3.

Where there are microwaves, photocopiers, TV screens, near factories, this is even worse. Through this story, it can be understood why going to the sea or going to the mountain to find people comfortable, still sitting in a closed room or pathogenesis, may also be due to the lack of negative ions for the red blood cells to transport oxygen through small capillaries. In the context of air pollution in large cities, it is possible to improve the negative ion index in homes with good quality ion fans, located in bedrooms.

Effect of vibration on capillaries

Experiments show that blood vessels work by the movement of muscles around the walls of the vessels. This process of movement is miraculous and there is much to learn, we just need to understand that without exercise, the amount of blood circulation in the body will decrease.

Cross-sectional capillary function when muscle is inactive (I) and active (II)

So in addition to the morning walk or afternoon sports, even during working hours we need to maintain a certain amount of exercise, at least rubbing hands, turning, shaking legs or walking around the room. .END=NAM MO SHAKYAMUNI BUDDHA.( 3 TIMES ).GOLDEN AMITABHA MONASTERY=VIETNAMESE BUDDHIST NUN=THICH CHAN TANH.AUSTRALIA,SYDNEY.4/3/2020.