What happens if nitrogen oxides get into the human body?

When nitrogen oxides enter the blood, resulting in the formation of acidic constitution, the blood vessels will be thinned, causing cardiovascular and cerebrovascular diseases, the so-called "kidney essence, sperm marrow, myelinated blood", it can be seen that the root of blood also lies in the kidney. When the blood mixed with nitrogen oxides enters the human kidneys, it will cause damage to the kidneys, causing chronic nephritis, kidney failure, etc., traditional gas stoves will produce nitrogen oxides, you can try the infrared gas stove of the red sun, don't worry about the problem of nitrogen oxides, it is safer.

Nitric oxide and nitrogen dioxide are related to the human body through inhalation, surface contact, and adsorption.

The nitrogen oxides that are directly and indirectly adsorbed in the soot dust particles are inhaled into the nasal cavity, oral cavity, respiratory tract, bronchial tubes, and then to the lungs, absorbed by the alveoli, and spread throughout the respiratory system.

After nitric oxide enters the human body, part of it binds to oxygen in the lungs and converts it into nitrogen dioxide NO2, and part of it enters the bloodstream. Nitric oxide NO has a very strong affinity for hemoglobin, which is similar to CO poisoning, but the affinity between NO® and hemoglobin is 1400 times that of carbon monoxide CO and 300,000 times that of blood, and its toxicity is much higher than that of gas CO. Once NO enters the bloodstream, oxygen is driven out of oxidized hemoglobin and firmly bound to hemoglobin, so that the blood loses its function of transporting oxygen and enters all parts of the body.

Wire worms cannot enter the human body through **, and if they enter the human body through eating, they will be killed and digested by digestive juices.

It was exhaled again, and the amount of nitrogen exhaled did not decrease.

If the proportion of nitrogen in the exhaled breath is lower than that of the inhaled gas, the total volume of the exhaled air increases the impact. Water in the human body passes through the respiratory tract.

Volatilized into water vapor exhaled. This water comes from both eating and drinking, as well as from respiration.

of water. The same amount of organic compounds for anaerobic respiration.

, it produces less energy than when performing aerobic respiration. Aerobic respiration vs. anaerobic respiration are different reactions within cells and are not directly related to living organisms. Even organisms that breathe oxygen can respire without oxygen, within their cells.

Respiration

The purpose of respiration is to produce adenosine triphosphate by releasing energy from food.

ATP), i.e., the cell's main direct energy source.

The process of respiration can be compared to the combustion of hydrogen and oxygen, but the biggest difference between the two is that respiration releases the energy in food step by step through a series of reaction steps, rather than a one-time release like combustion.

In respiration, there are three major nutrients: carbohydrates.

The basic building blocks of proteins and lipids glucose.

Amino acids and fatty acids are broken down into smaller molecules that transfer energy to reducing hydrogen (hydrogen with a valency of -1) in a few steps.

Finally, it goes through a series of electron transport chains.

Hydrogen is oxidized to produce water; The cavity energy originally stored in it is transferred to the ATP molecule for use in life activities.

There are two types of nitric oxide in the human body**: one is non-enzymatic, which comes from the chemical degradation and conversion of inorganic nitrogen from the body surface or ingestion; One is enzymatic growth, which is produced by nitric oxide synthase catalyzing the deguanidine group of L-arginine.

Non-enzymatic nitric oxide, most of which comes from the nitrovasodilator family, includes nitropusside, organic or inorganic nitrites and nitrates, nitrosamines, nitrogen mustard, hydrazine, etc. For example, the well-known nitroglycerin and sodium nitroprusside dilate blood vessels, ** heart disease function through non-enzymatic production of nitric oxide.

Enzymatic nitric oxide is derived from nitric oxide precursors, such as arginine. Intake of arginine-rich foods in the human body produces nitric oxide and exerts its physiological functions through enzymatic organisms.

This one. It is a biological reaction, not a chemical reaction.

NOs in the body are produced by the deamination of arginine under the action of nitric oxide synthase.

Can you help?! That's all I know, hehe.

Nitrogen oxides:

Nitrogen oxides include a variety of compounds such as nitrous oxide (N2O), nitric oxide (N0), nitrogen dioxide (NO2), nitrogen trioxide (N203), nitrogen tetroxide (N204), and nitrous pentoxide (N205). With the exception of nitrogen dioxide, other nitrogen oxides are extremely unstable and become nitrogen dioxide and nitric oxide when exposed to light, moisture or heat, and nitric oxide becomes nitrogen dioxide. Nitrogen oxides are non-combustible, but they can be combustible enough, so nitrous oxide, nitrogen dioxide and nitrous pentoxide can be caused by high temperature or flammable substances, in addition, nitrogen oxides have different degrees of toxicity, which will destroy the central nervous system of the human body, long-term inhalation will cause cerebral palsy, atrophy of hands and feet, etc., and a large amount of inhalation will cause central nervous system paralysis, memory loss, quadriplegia, and even death and other consequences.

Because it is known that 78% of the gas in the air is nitrogen, the gas inhaled by a person must indicate that there is nitrogen, and the inhaled nitrogen is of no use to the human body and will not be absorbed by the human body, so the inhaled nitrogen will be exhaled again.

I don't know what to ask.