Research
More about the science
Trigger point pressure: The pointed pen-tips pressing into skin provide a stimulus to this area which allows the sensory nerves to provide a temporary change of input to the brain. This stops the pain signal and relaxes tense muscles known as trigger points.
Magnetic Field Therapy: A local magnetic field, produced by rare-earth magnets housed within each pen, is emitted through the pen-tips to penetrate into the tissues below. This increases microcirculation in the blood vessels and cells to facilitate natural healing.
Far-Infrared Rays: Far-infrared rays are produced by a ceramic carbon compound inside each pen and reflected from the aluminum pen walls down toward the pen tips and radiated into the tissues below. This increases tissue temperature, expands blood vessels (vasodilation) and improves oxygen transport to promote healing, accelerate recovery. and decrease inflammation.
Negative ions (Anions): Negative ions are produced by a ceramic carbon compound and concentrated along the magnetic lines emitted through the pen tips. These are absorbed into the tissues and promote oxygen delivery to cells and help with homeostasis (cellular balance) to enhance healing potential.
Trigger Point Pressure
The pointed pen-tips pressing into skin provide a stimulus to this area which allows the sensory nerves to provide a temporary change of input to the brain. This stops the pain signal and relaxes tense muscles known as trigger points.
Magnetic Field Therapy
A local magnetic field, produced by rare-earth magnets housed within each pen, is emitted through the pen-tips to penetrate into the tissues below. This increases microcirculation in the blood vessels and cells to facilitate natural healing.
The health sector is another field where neodymium magnets are incorporated in medical devices for example in magnetic resonance imaging devices to diagnose and treat chronic pain syndrome, arthritis, wound healing, insomnia, headache, and several other diseases due to their ability to generate a static magnetic field. An increase in their usage has been observed over the last decade [2].These magnets are thought to have a curing effect and are therefore sometimes called “magic magnets”.
Reference link
There is increasing interest in using permanent magnets for therapeutic purposes encouraged by basic science publications and clinical reports. Magnetotherapy provides a non invasive, safe, and easy method to directly treat the site of injury, the source of pain and inflammation, and other types of disease. The physiological bases for the use of magnetic fields for tissue repair as well as physical principles of dosimetry and application of various magnetic fields are subjects of this review. Analysis of the magnetic and electromagnetic stimulation is followed by a discussion of the advantage of magnetic field stimulation compared with electric current and electric field stimulation.
Far-Infrared rays
Far-infrared rays are produced by a ceramic carbon compound inside each pen and reflected from the aluminum pen walls down toward the pen tips and radiated into the tissues below. This increases tissue temperature, expands blood vessels (vasodilation) and improves oxygen transport to promote healing, accelerate recovery. and decrease inflammation.
Delivering pure FIR radiation (eliminating completely the near and mid infrared bands), have became safe, effective, and widely used sources to generate therapeutic effects.
This study suggests that FIR radiation increases NO production via increasing CaMKII-mediated eNOS-Ser(1179) phosphorylation but TRPV channels may not be involved in this pathway. Our results may provide the molecular mechanism by which FIR radiation improves endothelial function.
Anions
Reduces pain and alters the numbers of circulating neutrophils and lymphocytes, and also affects various circulating chemical factors related to inflammation.