Sympathetic Resonance Technology™: Scientific Foundation and Summary of Biologic and Clinical Studies [November 2002]
Sympathetic Resonance Technology™ (SRT; Clarus Products, International, L.L.C., San Rafael, CA) is a novel technology used in consumer health care products to protect humans from the potentially harmful effects of stress. A summary of the previously unpublished studies on SRT, both basic and clinical, is presented. These studies collectively show that SRT mitigates the stress response for a variety of stressors such as chemical and electromagnetic stress in various biologic systems and multiple levels of organization, ranging from the molecular to the behavioral. A rudimentary model of how SRT may work at the level of the biofield, the endogenous electromagnetic field of the organism, is proposed. By interacting with key component frequencies in the biofield, SRT may stabilize the organism homeodynamically, thereby protecting it from the effects of stressful stimuli.
SRT™ and the effects of EMF on Human Brain Cells [September 2002]
This pilot study suggests that the addition of the Q-Link® to active Mobile Phone-exposure does affect neural function in humans, altering both resting EEG patterns and the evoked neural response to auditory stimuli, and that there is a tendency for some Mobile Phone-related changes to the EEG to be attenuated by the Q-Link®. (PDF unavailable at this time)
The Effects of SRT™ on Six Different Types of Water [June 2006]
The effects of SRT™ on water were measured. The subtle energetics, pH, and ORP of water, with and without SRT™ processing, were measured for six different types of water, five of which are commercial bottled waters, and one of which was prepared in Dr. Beverly Rubik's Laboratory using special processing. The results show some consistent changes due to SRT™, including more photon emission from the waters, and improved antioxidant properties. In brief, it is shown that SRT™ adds subtle energy/information to the water and lowers the ORP, which helps reduce oxidative stress.