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BIO-SPECTRUM Treatment Mechanism

Bio-spectrum Treatment Mechanism

 

 


Bio-spectrum device has a wide range of biological effects, which are summarized from the following aspects:

1. Effects on cellular chromosomes: After analyzing the chromosomes of bone marrow cells from mice receiving long-term BFS irradiation, scientists have demonstrated that long-term BFS irradiation has no effects on Chromosome deformation. Besides, they also made the study of irradiating the pregnant mice and then analyzing the chromosomes of bone marrow cells and melanocytes from their offsprings. The results showed that BFS did not increase the rates of chromosome deformity, even after irradiating ten continuous generations. This study from another point of view proved that BFS irradiation does not result in deformity and mutation.

 

2. Effects on reproductive and developing functions: No obvious effects were found in the experiments.

 

3. Effects on neuroendocine system: It is mostly believed that the neuro- endocrine system is closely correlated with the regulation of cellular immune system, and is an important physiological regulation system in maintaining the normal physiological activities in human body. Experimental studies have showed that BFS irradiation has apparent influences on thalam encephalon- hypophysis--adrenal gland system. It can promote the release of adrenal cortex steroid and the synthesis and secretion of insulin, and improve the hyperthyreosis. In the experimental rabbits with alloxan diabetes, it has been found that BFS has evident corrective effects. In addition, BFS also has distinct therapeutic effects on juvenile face sore, irregular menstruation, climacteric syndrome and mental diseases. It is suggested that its acting mechanism is probably related to the improvement of hormone secretion.

 

4. Effects on basal metabolism: Many scientists have studied the effects of BFS on basal metabolism. Their results showed that BFS irradiation could reduce the content of rat liver glucogen, decrease the activities of liver lactic dehydrogenase, non-specific esterase and phosphatase, decrease the activity of intestinal mucosal proteolyst in the small intestine of experimental animals and the content of macroglobulin, and increase the activity of liver ATPase. Besides, it was also found that BFS could decrease the blood sugar level, blood urea nitrogen level and uric acid level, and elevate the ratio of plasma albumin to globulin.

 

5. Effects on nervous system: In some experiments, chromic catguts, were used to lightly tie up the nervi ischiadicus of SD rat. The nerves were damaged due to chronic oppression, showing that their medullary sheath was taken off. This area was extremely sensitive to the K+channel blockers TEA and hyoscine. After the pathological animal models had been irradiated with BFS, their allergy to pain disappeared and their transmission functions of action potentials were partially recovered. The reactions of damaged nerve region to TEA and hyoscine became dull. The above results suggested that the therapeutic effects of BFS on damaged peripheral nerves be through recovering the axis-clinder membrane structure of nerve, for the irradiation using the infrared lamp with the same power under the same conditions did not have the effects. The effects of BFS on central nervous system are expressed to be able to change electroecephalogram (EEG), especially its evident improvement on the EEG of patients with epilepsy. In addition, it also has effects on the levels of nervous active protein and the permeability of blood-brain barrier. Clinical observation also showed that BFS had therapeutic effects on senile dementia (brain atrophy), which was probably related to its effects on inhibiting the degeneration of nerve cells in cerebral cortex, and improving the oxygen supply to the cells. Besides, the nerve-action effects of mice such as learning ability and exploring capability were much enhanced.

 

6. Biological effects on cardiovascular system: Many scientists have reported that BFS apparatus has definite therapeutic effects on heart diseases of coronary atherosclerosis, which are related to the dilatation of coronary artery after BFS irradiation. It has also been found that BFS has good effects on paroxysmal tachycardia and ventricular premature systole.

 

7. Effects on hematology: The results in bioptic experiments indicate that BFS irradiation can increase red blood cell (RBC) counts and enhance the hemoglobin contents, platelet counts and hematocrits. Its effects on leukocytes and lymphocytes will be discussed in the section of immune response. It has been found that BFS can improve the whole blood circulation, local blood circulation and nail fold microcirculation. BFS can increase the diameter of blood capillary while it does not remarkably increase the number of nail fold blood capillary ansa. BFS can increase the area of platelet aggregate and platelet aggregating rate, decrease the level of plasma fibrinogen, and increase the RBC flow and migration rate and the abilities of RBC deformity, which can fasten the blood flow. The interesting thing is that after BFS irradiation, the factor VIII in blood can be activated to play its hemostatic function. Therefore, some researchers believe that BFS apparatus has some two-way regulative functions.

 

8. Effects on immune response: The most interesting thing of the BFS effects is the high sensitivity of body immune system to the BFS. Many experimental reports showed that after BFS irradiation the number of immunized cells and the capability of immune response in human body are all enhanced significantly, including the distinct elevations of peripheral blood leukocyte count and lymphocyte counts. It was also found that BFS could increase the activity of sheep RBC receptors on the spleen lymphocytes in the irradiated animal, inhibit the generation of the SRBC antibody which could remarkably decrease the contents of the serum hemolysin and agglutinin, promote the phagocytosis of macrophage in rat abdominis cavum, and increase the complement content. During the process of lymphocyte B maturation, BFS irradiation affects the expression of its surface marker and increases the percentage of receptors expressed by complement.

Bio-spectrum Treatment Mechanism

 

 


Bio-spectrum device has a wide range of biological effects, which are summarized from the following aspects:

1. Effects on cellular chromosomes: After analyzing the chromosomes of bone marrow cells from mice receiving long-term BFS irradiation, scientists have demonstrated that long-term BFS irradiation has no effects on Chromosome deformation. Besides, they also made the study of irradiating the pregnant mice and then analyzing the chromosomes of bone marrow cells and melanocytes from their offsprings. The results showed that BFS did not increase the rates of chromosome deformity, even after irradiating ten continuous generations. This study from another point of view proved that BFS irradiation does not result in deformity and mutation.

 

2. Effects on reproductive and developing functions: No obvious effects were found in the experiments.

 

3. Effects on neuroendocine system: It is mostly believed that the neuro- endocrine system is closely correlated with the regulation of cellular immune system, and is an important physiological regulation system in maintaining the normal physiological activities in human body. Experimental studies have showed that BFS irradiation has apparent influences on thalam encephalon- hypophysis--adrenal gland system. It can promote the release of adrenal cortex steroid and the synthesis and secretion of insulin, and improve the hyperthyreosis. In the experimental rabbits with alloxan diabetes, it has been found that BFS has evident corrective effects. In addition, BFS also has distinct therapeutic effects on juvenile face sore, irregular menstruation, climacteric syndrome and mental diseases. It is suggested that its acting mechanism is probably related to the improvement of hormone secretion.

 

4. Effects on basal metabolism: Many scientists have studied the effects of BFS on basal metabolism. Their results showed that BFS irradiation could reduce the content of rat liver glucogen, decrease the activities of liver lactic dehydrogenase, non-specific esterase and phosphatase, decrease the activity of intestinal mucosal proteolyst in the small intestine of experimental animals and the content of macroglobulin, and increase the activity of liver ATPase. Besides, it was also found that BFS could decrease the blood sugar level, blood urea nitrogen level and uric acid level, and elevate the ratio of plasma albumin to globulin.

 

5. Effects on nervous system: In some experiments, chromic catguts, were used to lightly tie up the nervi ischiadicus of SD rat. The nerves were damaged due to chronic oppression, showing that their medullary sheath was taken off. This area was extremely sensitive to the K+channel blockers TEA and hyoscine. After the pathological animal models had been irradiated with BFS, their allergy to pain disappeared and their transmission functions of action potentials were partially recovered. The reactions of damaged nerve region to TEA and hyoscine became dull. The above results suggested that the therapeutic effects of BFS on damaged peripheral nerves be through recovering the axis-clinder membrane structure of nerve, for the irradiation using the infrared lamp with the same power under the same conditions did not have the effects. The effects of BFS on central nervous system are expressed to be able to change electroecephalogram (EEG), especially its evident improvement on the EEG of patients with epilepsy. In addition, it also has effects on the levels of nervous active protein and the permeability of blood-brain barrier. Clinical observation also showed that BFS had therapeutic effects on senile dementia (brain atrophy), which was probably related to its effects on inhibiting the degeneration of nerve cells in cerebral cortex, and improving the oxygen supply to the cells. Besides, the nerve-action effects of mice such as learning ability and exploring capability were much enhanced.

 

6. Biological effects on cardiovascular system: Many scientists have reported that BFS apparatus has definite therapeutic effects on heart diseases of coronary atherosclerosis, which are related to the dilatation of coronary artery after BFS irradiation. It has also been found that BFS has good effects on paroxysmal tachycardia and ventricular premature systole.

 

7. Effects on hematology: The results in bioptic experiments indicate that BFS irradiation can increase red blood cell (RBC) counts and enhance the hemoglobin contents, platelet counts and hematocrits. Its effects on leukocytes and lymphocytes will be discussed in the section of immune response. It has been found that BFS can improve the whole blood circulation, local blood circulation and nail fold microcirculation. BFS can increase the diameter of blood capillary while it does not remarkably increase the number of nail fold blood capillary ansa. BFS can increase the area of platelet aggregate and platelet aggregating rate, decrease the level of plasma fibrinogen, and increase the RBC flow and migration rate and the abilities of RBC deformity, which can fasten the blood flow. The interesting thing is that after BFS irradiation, the factor VIII in blood can be activated to play its hemostatic function. Therefore, some researchers believe that BFS apparatus has some two-way regulative functions.

 

8. Effects on immune response: The most interesting thing of the BFS effects is the high sensitivity of body immune system to the BFS. Many experimental reports showed that after BFS irradiation the number of immunized cells and the capability of immune response in human body are all enhanced significantly, including the distinct elevations of peripheral blood leukocyte count and lymphocyte counts. It was also found that BFS could increase the activity of sheep RBC receptors on the spleen lymphocytes in the irradiated animal, inhibit the generation of the SRBC antibody which could remarkably decrease the contents of the serum hemolysin and agglutinin, promote the phagocytosis of macrophage in rat abdominis cavum, and increase the complement content. During the process of lymphocyte B maturation, BFS irradiation affects the expression of its surface marker and increases the percentage of receptors expressed by complement.


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