Intravenous Laser Therapy in the Complex Treatment of Nervous System and Brain Diseases and the New Development Mechanism of the Diseases

Introduction: The first results of red laser influence on the nervous system were received in 1981. Extensive research had shown that laser irradiation increased the functional activity of the nervous system. We started using IFLT for treating nervous diseases in 2005. The accumulated experience has forced us to take a new look at the work of the vascular system. It became clear that disorders of blood supply in the nervous tissue lead to the development of many diseases of the nervous system and brain. We conducted mathematical calculations: the main role in the transportation of blood to the tissue is played by the artery, the power of the heart is only 0,49 - 0,027 % of the power needed to transport blood to the tissue. We have experience of using IFLT in complex treatment of patients with multiple sclerosis (21 patients), parkinsonism (17 patients), Alzheimer’s disease (4 patients), inflammatory and degenerative diseases of the peripheral nervous system (63 patients), different form of Encephalopathy (27 patients), and acute disorders of cerebral circulation (34 patients). The results of using IFLT on patients with Alzheimer’s disease were unsatisfactory. With all other diseases, a positive result was obtained. The period of observing some patients with multiple sclerosis (4 patients) and Parkinson’s disease (3 patients) was 15 years.

Background and Aims: The use of Intravenous Laser Blood Irradiation (ILBI) within the last 30 years has demonstrated high efficacy in the treatment of both vascular and nervous diseases.

Rationale: Laser energy at 630-640 nanometers is arguably most effective for irradiation of blood and the vascular wall. Photons at this wavelength are absorbed by oxygen, improve micro- circulation, can change the viscosity of the blood and affect the nerve and muscle elements of the vascular wall.

Conclusions: To sum up, more than 30 years of experience of using laser energy at 630-640 nm have shown that this waveband directly influences the parameters of all cells in the blood, blood plasma, and the coagulation process in the nerve and muscle elements of the vascular wall. Additionally, ILBI directly or indirectly affects the cells of the immune system, hormones, and exchange processes in an organism, thereby improving not only the function of the vascular system, but of the nervous system as well. Finally, it can lead to increased effectiveness in treatment of diseases of the nervous system and brain.

Keywords: Intravenous Frequency laser Therapy; Diseases of the nervous system and brain