The six effects of graphene far-infrared rays on the human body
2023-11-20 14:40:22
1) The biological effect mechanism of graphene far-infrared rays on the human body (hereinafter referred to as far-infrared rays)
1. Human body radiation absorption theory:
The human body is a natural radiator and a good absorber. The emissivity of the human body is as high as 0.98 at normal temperature, and its peak wavelength is about 9.35UM. When far-infrared rays of 2-20um with appropriate energy are used to act on the human body, the human body will It will absorb electromagnetic energy most effectively, thereby producing corresponding biological effects, and achieving greater effects with less energy.
2. Functional regulation theory of biomolecules
Find the matching region based on the molecular structural characteristics and the basic rules of internal motion of the molecule and apply corresponding energy, thereby playing a role in functional regulation.
This theory is to find out the molecular structure, especially the hydrogen Relationship between the characteristic vibration frequency of a bond and its functional activity.
When energy consistent with a special vibration frequency is applied to biological macromolecules and the size is appropriate, it can be absorbed by the biological molecules and transmitted to the body (including Deep tissue), thereby repairing or improving the functions of biomolecules, preventing structural mutations, stabilizing and improving the intracellular environment, and achieving disease prevention and treatment effects.
3. Dipole oscillation theory of biological systems
When biological systems absorb electromagnetic energy, the biological changes that are not attributable to temperature changes are called thermal effects, also known as field-specific effects.
Scientists have conducted a large number of experiments at the molecular and cellular levels and on living organisms and found that even low-energy electromagnetic wave irradiation can cause obvious biological effects. It can also have an effect on organs or tissues in the long-distance irradiated parts of the human body. These biological effects are reproduced by thermal effects.
(2) Biological effects of far infrared
1. Biothermal effect of far infrared
Under the action of electromagnetic field, the dipolar molecules and free charges in living organisms change according to the direction of electromagnetic field.
Ranking trends. In this process, the irregular movement of molecules and atoms is triggered to intensify and generate heat.
When the far-infrared rays are irradiated with sufficient intensity, that is, it exceeds the heat dissipation capacity of the living body, it will increase the local temperature of the irradiated body. This is the thermal effect of far-infrared rays.
(1) Activating biological macromolecules
It is particularly pointed out that the photon energy in the infrared region cannot excite the electron energy level of molecules, so it cannot ionize substances like ultraviolet light.
Infrared radiation can only excite the vibrational energy levels of molecules, and the energy difference between vibrational energy levels is generally less than 1 volt, that is, because the infrared energy is smaller than the atomic bond energy forming the molecule. Therefore, the molecular structure cannot be changed.
Nevertheless, under the action of infrared photons, especially 2-6UM infrared photons, the molecular energy level of the body is excited and placed at a higher vibration energy level, which activates the activity of biological macromolecules such as nucleic acids and proteins, thus exerting biological effects. Macromolecules regulate the body's metabolism, immunity and other activities, which is conducive to the recovery and balance of body functions and achieves the purpose of disease prevention and treatment.
(2) Improved local and systemic blood circulation
After far-infrared rays act on the skin, most of the energy is absorbed, and the energy absorbed by the skin is converted into heat energy, causing the skin temperature to rise, stimulating the heat receptors in the skin, and through thalamic reflection, relaxing vascular smooth muscles, dilating blood vessels, and strengthening blood circulation;
On the other hand, due to the effect of heat, vasoactive substances are released, blood vessel tension is reduced, superficial arterioles, superficial capillaries and superficial veins expand, blood circulation is accelerated, and blood circulation is improved.
(3) Enhance metabolism
If the metabolism of the human body is disordered, causing abnormal material exchange in the body, various diseases will occur, such as water and dielectric metabolism disorders, which will bring danger to life; hyperlipidemia and obesity caused by diabetes and lipid metabolism disorders. For gout caused by protein metabolism disorder, the thermal effect of far infrared rays can enhance the vitality of cells, adjust the neurohumoral mechanism, strengthen metabolism, and keep the material exchange inside and outside the body in a balanced state.
(4) Improve immune function
Immunity is a physiological protective response of the human body, which includes cellular immunity and humoral immunity. It plays an extremely important role in human defense function and anti-infection effect. Clinical observation has proven that far-infrared rays can indeed improve the phagocytosis function of macrophages and enhance the body's cellular immunity and humoral immunity.
(5) Has anti-inflammatory and swelling effects
The reason why far infrared ray can reduce inflammation and swelling is as follows:
① The thermal effect of far infrared rays eliminates the pathological process of inflammation through the neurohumoral response, restores the original destroyed physiological balance, improves local and systemic disease resistance, activates immune cell functions, and strengthens white blood cells and networks. Phagocytosis function of endothelial cells to achieve anti-inflammatory and antibacterial purposes.
② The thermal effect of far infrared rays increases skin temperature, reduces sympathetic nerve function, releases vasodilator active substances, dilates blood vessels, accelerates blood flow, improves blood circulation, enhances tissue nutrition, activates tissue metabolism, increases cell oxygen supply, and improves blood circulation. It improves the blood and oxygen supply to the ward, strengthens cell regeneration ability, controls and localizes the development of inflammation, and accelerates the repair of lesions.
③ The thermal effect of far infrared rays improves microcirculation, establishes collateral circulation, enhances the stability of cell membranes, regulates ion concentration, improves permeability, promotes the metabolism and excretion of toxic substances, accelerates the absorption of exudates, and thereby reduces inflammation. and edema subsided.
(6) Analgesic effect
The thermal effect of far infrared rays reduces the excitability of nerve endings, improves blood circulation, subsides edema, reduces chemical and mechanical stimulation of nerve endings, and relieves pain.
Far-infrared rays have strong penetrating and radiating power, and have significant warming and resonance effects. They are easily absorbed by objects and converted into the internal energy of objects, raising the body temperature and expelling cold, dampness and toxins from the body through sweat. It has a good physical therapy effect on the human body.