Frequency repair, also known as electromagnetic therapy, is an independent clinical neuroscience discipline based on the three major theories of "central nervous system repairability theory", "overall frequency repair theory", and "frequency repair law" combined with induction mechanics. During screening, the device terminal emits radio resonance waves in the same frequency band as the brain waves for resonance (i.e., the interaction between physical signals and physiological signals). By detecting the frequency of ultra-low frequency biological wave signals in the human central nervous system, comparing and analyzing them with normal frequencies in the system database, the activity of organs, tissues, and cells can be determined, and the health status of the body can be evaluated. The essence is that nerve cells generate action potentials by resonance between peaks at low frequencies, and the data comes from changes in action potentials. During repair: Perform cell memory recovery training on deviated cells, and use the appropriate standard frequency emitted by the equipment to correct the deviated frequency, improve cell activity, and enhance cell function. By intervening in nerve and brain mechanical waves, the command system is restored to normal. Through brain computer interaction technology, the principle of resonance between radio resonance waves and brain biomechanical waves is used to screen, evaluate, intervene, and repair physical health status.

Nature screening (Nonlinear Analysis) Jumping sites/3-5 cell functions Preventive Medicine: Acoustic Waves, Optical Waves, Frequency Waves, Three Wave Resonance Capture 0.1-8 HZ Cell advance/prevention/prediction Non invasive physical frequency wave quantum level

What content can the Nature system screen for? Detailed screening can be conducted for the whole body of the human body, including: 1403 organs; 5894 pathological morphological indicators; 489 common biochemical indicators; 172 microbial indicators; 16 tumor markers. Characteristics of the Nature System The Nature system integrates cloud services, cloud diagnostics, cloud monitoring, and cloud repair. √ Non invasive and radiation free Quick detection (detailed inspection usually within 45 minutes) √ No need to fast √ No need to draw blood √ Low cost of use √ Covering all systems and organs throughout the body Early detection of health risks and provision of intervention plans √ No harm to the body, can be checked multiple times, and the physical condition can be understood at any time

Neurological disorders • Long term insomnia can activate the sympathetic nervous system, leading to muscle tension (especially in the neck, shoulders, and waist), causing stiffness and pain in the muscles around the spine, and even exacerbating intervertebral disc pressure, triggering cervical spondylosis or lumbar problems. • Excessive excitation of the sympathetic nervous system can also inhibit the parasympathetic nervous system, leading to slowed gastrointestinal motility, abnormal gastric acid secretion, causing bloating, constipation, or gastroesophageal reflux (such as heartburn and acid reflux). Inflammation and metabolic imbalance • Insomnia can increase the levels of inflammatory factors in the body, such as IL-6、TNF-α）， Exacerbating spinal degenerative diseases (such as intervertebral disc degeneration) and intestinal inflammation (such as irritable bowel syndrome, Crohn's disease). • Reduced secretion of melatonin (a hormone that regulates sleep) may affect the balance of gut microbiota and further exacerbate gastrointestinal problems.

Neural compression and pain interference • Misalignment of the cervical or thoracic spine may compress the sympathetic nervous chain, causing autonomic dysfunction and leading to insomnia (such as difficulty falling asleep and having multiple dreams). • Chronic pain caused by lumbar problems (such as disc herniation) can directly interfere with sleep quality, forming a vicious cycle of "pain insomnia pain aggravation". Intestinal brain axis interference • Dysbiosis of gut microbiota can affect the central nervous system through the gut brain axis, reducing serotonin (approximately 90% produced by the gut) and GABA（ The synthesis of neurotransmitters that regulate sleep can lead to insomnia or shallow sleep. • Chronic gastrointestinal inflammation (such as gastritis and enteritis) may release inflammatory factors that enter the brain through the bloodstream, disrupting sleep rhythms.