Clinical Experiment: "Study on the Use of Far Infrared Radiation to Improve Autonomic Nervous System Dysfunction Symptoms and Enhance Immunity"

Research findings:
This study focused on the pre-ganglionic neuron distribution of the sympathetic and parasympathetic nervous systems and investigated the effects of far infrared radiation. The results demonstrated that far infrared radiation can reduce the amount of O2- in the human body. Since superoxide anions serve as the basis for other reactive oxygen species (ROS), far infrared radiation can also reduce the generation of other ROS, thus lowering the probability of related diseases.
Excessive reactive oxygen species or autonomic nervous system dysfunction can lead to various diseases. Therefore, this experiment aims to provide a non-antagonistic complementary healing therapy in clinical settings, utilizing the non-invasive nature of far infrared radiation.

Regarding the physiological parameters of the autonomic nervous system, after 10 minutes of far infrared radiation, the SDNN value showed improvement, and after 20 minutes of radiation, the RMSSD value increased. Additionally, the experiment showed that 15 minutes of far infrared radiation can increase sympathetic nervous system activity, while radiation to the brainstem and thoracolumbar and sacral vertebrae for 15 minutes can promote parasympathetic nervous system activity. Notably, irradiation of the pre-ganglionic neurons of the sympathetic and parasympathetic nervous systems (brainstem, thoracolumbar, and sacral vertebrae) for 40 minutes significantly enhances total power.

Clinical Trial Product: Photon Energy Wave Thermal Instrument