The Combination of Underwater Light Therapy with Underwater Spinal Traction Guarantees a 50% Regression of Intervertebral Hernia

Abstract

In this work, we study the effect of water structure on absorption spectra of water that is subject to electromagnetic radiation of the following types: 1. polychromatic visible and infrared polarized (PVIP) light emitted by a "Bioptron" device with a wavelength of 480 to 3,400 nm and frequency of 625 to 88 THz under water via a fiber optic cable and with an exposure of 2, 4, 6, 10, 15, and 30 minutes; 2. electromagnetic waves belonging to a 5.6 mm range with a frequency of 50-52 GHz and an exposure of 2, 4, 6, 10, 15, and 30 minutes via a radiation source with dimensions over 5 cm immersed into water; 3. one-time effect of PVIP light and CO₂ at a temperature of 0°C and with an exposure of 4 minutes; 4. one-time effect of electromagnetic waves belonging to a 5.6 mm range and CO₂ at a temperature of 0°C and with an exposure of 4 minutes; 5. effect of PVIP light on water from a 10 cm height above the water surface. The conducted studies have shown that the best changes occur in water irradiated with PVIP light during 4 and 15 minutes as compared to the absorption spectra of a control specimen of tap water. Significant changes in the water structure occurred if water was irradiated with PVIP light from a 10-cm height above the water surface during 15 minutes. Carried out experiments show that water exposed to polychromatic VIP-light (Bioptron) is activated that manifests in changes of physical and chemical properties, namely, in changes of optical absorption spectra, Raman scattering and pH of water. The studies showed as well that after the end of 4- and 15- minute exposure of water to electromagnetic waves (26 and 15 minutes later, respectively) the water structure significantly improved owing to its unique ability to store and transmit information.