How PEMF Can Help With Bone Growth
The human body relies on an intricate energy flow for the optimal function of tissues and organs. Pulsed Electromagnetic (PEMF) therapy harnesses this natural energy field to facilitate healing on a cellular level. Offering a range of benefits, PEMF therapy aids in reducing inflammation, enhancing circulation, increasing blood oxygenation, managing chronic pain, expediting injury recovery, and fostering bone formation. This article will cover what PEMF therapy is and how it can be effective for bone growth.
What is PEMF therapy?
PEMF therapy harnesses low-frequency pulsed electromagnetic fields to enhance overall health and well-being. Supported by numerous clinical studies, this therapy offers a wide range of benefits.
Both the Earth and the human body possess natural electromagnetic fields. Within the body, healthy cell membranes carry positive and negative charges, facilitating the exchange of ions crucial for transporting chemical messages into and out of cells. When cells are damaged, their electromagnetic charge weakens, impeding ion exchange. PEMF therapy works to restore this natural charge, thereby enabling cells to generate appropriate energy.
PEMF therapy encompasses various parameters, including waveform, intensity, frequency, and duration of treatment, each influencing biological processes to stimulate healing.
Exploring the Influence of PEMF Therapy on Bones
PEMF therapy garnered attention from NASA during the 1970s as a potential solution to counter muscle and bone depletion experienced by astronauts. Since then, the FDA has sanctioned PEMF therapy for various clinical applications, notably as a safe and efficacious treatment for healing non-union fractures.
Unlike older, invasive electrical stimulation methods, PEMFs offer a non-invasive alternative. While research on the efficacy of electrical stimulation has yielded mixed results, multiple studies indicate that PEMFs positively impact bone health and healing.
A comprehensive 2007 review, employing high-quality methodology, revealed that PEMF treatment may hasten the healing process of acute tibial fractures. PEMFs essentially mimic the effects of electrical stimulation but penetrate deeper into the body. A subsequent 2016 study observed that patients treated with electrical stimulation exhibited lower rates of recurrent nonunions and reported reduced pain.
Further studies have demonstrated that applying alternating electric currents to mesenchymal cells promotes the development of bone-building osteoblasts and facilitates fracture healing—a process also stimulated by PEMFs.
With its proven safety profile and absence of side effects, PEMF therapy emerges as a valuable treatment option for bone fractures, offering the potential for accelerated healing and pain reduction without any associated risks.
PEMFs essentially mimic the effects of electrical stimulation but penetrate deeper into the body. A subsequent 2016 study observed that patients treated with electrical stimulation exhibited lower rates of recurrent nonunions and reported reduced pain.
A review article published in May 2020 delves into the tissue-level effects of PEMFs on stimulating bone and cartilage repair. The review identifies three primary processes in cell response to pulsed electromagnetic field therapy: signal transduction via cell membrane adenosine receptors, activation of osteoinductive pathways, and stimulation of skeletal extracellular matrix synthesis. Together, these mechanisms facilitate bone healing in fractures, osteotomies, and nonunions. A deeper comprehension of these mechanisms further bolsters the clinical application of PEMFs for bone growth and stimulation.
PEMF Therapy and Osteoporosis
Studies have demonstrated that PEMF therapy can alleviate pain and enhance functional outcomes in patients with osteoporosis. Additionally, pulsed electromagnetic fields may activate mechanisms that promote bone formation and inhibit bone loss.
A small-scale study observed a significant increase in bone density in the forearm region after PEMF application for 10 hours daily over 12 weeks. Although these gains diminished over the subsequent nine months, a similar, albeit weaker, response was noted in the contralateral arm, suggesting a potential “cross-talk” effect possibly attributed to proximity during sleep or weak general field effects.
PEMFs targeting the entire body, usable for extended durations such as during sleep, present a convenient and cost-effective solution for bolstering bone health.
Introducing Get Pulsed PEMF Devices: A Cost-Effective Treatment Solution
While some insurance plans may cover PEMF therapy in clinical settings, patients often bear the cost. In such cases, investing in a home-use system can offer an affordable alternative to multiple office visits.
Owning a PEMF device not only aids in initial bone injuries but also supports long-term bone health, potentially preventing osteoporosis. The prolonged treatment necessary for such benefits is impractical in clinical settings but easily achievable at home, even during sleep.
With its diverse health benefits, PEMF therapy proves to be a worthwhile investment. A home PEMF device can serve multiple household members and address a variety of conditions.
Introducing Get Pulsed PEMF Devices: A Cost-Effective Treatment Solution
While some insurance plans may cover PEMF therapy in clinical settings, patients often bear the cost. In such cases, investing in a home-use system can offer an affordable alternative to multiple office visits.
Owning a PEMF device not only aids in initial bone injuries but also supports long-term bone health, potentially preventing osteoporosis. The prolonged treatment necessary for such benefits is impractical in clinical settings but easily achievable at home, even during sleep.
With its diverse health benefits, PEMF therapy proves to be a worthwhile investment. A home PEMF device can serve multiple household members and address a variety of conditions.
Get Pulsed PEMF Devices: Enhancing Bone Health with PEMF Therapy
PEMF therapy effectively accelerates bone healing in acute injuries and fosters long-term bone growth and health when consistently applied over extended periods. To support overall bone health, investing in a home PEMF device is a convenient and cost-effective solution.
Get Pulsed PEMF Devices offer a medium-intensity whole-body system with customizable intensities and frequencies. Its six preset programs deliver multiple benefits, while adjustable treatment times ranging from 10 minutes to 12 hours accommodate personalized use. Safe for overnight use, Get the best PEMF Devices from Get Pulsed PEMF ensure long-term bone health benefits.