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1 x SMF Osteoporosis Therapy Bracelet
$22.95 – $37.95
Osteoporosis is a disease that weakens bones to the point where they break easily — most often, bones in the hip, backbone (spine), and wrist. Osteoporosis is called a “silent disease” because you may not notice any changes until a bone breaks.
Your bones are in a constant state of renewal — new bone is made and old bone is broken down. When you’re young, your body makes new bone faster than it breaks down old bone and your bone mass increases. After the early 20s this process slows, and most people reach their peak bone mass by age 30. As people age, bone mass is lost faster than it’s created.
The use of magnetic fields for bone health is a relatively new study. Studies show promising results in bone regeneration through the use of magnets alongside other therapies. Static magnetic fields are created by magnets or charges that move at a steady flow (current), such as in direct current (DC) electricity. They exert an attracting force on metallic objects, and so magnets are commonly used for this purpose.
The most effective frequency, treatment duration, and amount of exposure required for the best recovery have all been the subject of studies on the use of magnetic treatments for osteoporosis. Static magnetic therapy promotes osteoblast formation, which helps to fortify bones, and inhibits osteoclast growth, which breaks down bone. Studies have indicated that the use of magnets in medicine can have an impact on bone mass and density.
Magnetic therapy for osteoporosis is a treatment that can help bones regenerate, improving density and increasing their minerals and mass. Magnetic pulses or wave forms help bones to absorb more calcium that the usual. This can help prevent fractures later in life. EMFs have also a long clinical story as an aid to reduce bone loss in osteoporosis, to improve osteotomies.
The regeneration process has been proven to be greatly influenced by magnetic fields, which has sparked a lot of interest in using magnetic materials to improve osteoblast. Because it raises the expression of the genes linked to osteogenic differentiation, electrical stimulation is advantageous to osteogenesis promotion. Additionally, it has been discovered that electrical stimulation on tissue grafts promotes the development of blood vessels and collagen tissue.