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PEMF Therapy
Benefits for Health
Explore the range of benefits
PEMF Therapy can have on
specific health conditions
A to M
Learn how PEMF Therapy can help to enhance your treatment of specific health conditions.
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Benefits of PEMF Therapy for Back Pain
PEMF therapy offers a powerful, safe, and effective solution for managing various types of back pain, offering an alternative to surgery and providing lasting pain relief and improved function. By enhancing nerve function, improving blood flow, and reducing muscle tension, PEMF therapy provides a powerful option for managing both acute and chronic back pain.
Reduces Pain and Inflammation
PEMF therapy has been shown to significantly reduce pain and inflammation in patients with conditions such as lumbar radiculopathy1, whiplash syndrome2, and osteoarthritis3. By targeting the source of pain directly, PEMFs provide effective relief without the need for invasive procedures or heavy medication.
1. Omar AS, Awadalla MA, El-Latif MA. Evaluation of pulsed electromagnetic field therapy in the management of patients with discogenic lumbar radiculopathy. Int J Rheum Dis. 2012 Oct;15(5): 101-8.
2. Thuile C, Walzl M. (2002) Evaluation of electromagnetic fields in the treatment of pain in patients with lumbar radiculopathy or the whiplash syndrome. Neuro Rehabilitation.17: 63-7.
3. Mitbreit IM, Savchenko AG, Volkova LP, et al. (1986) Low-frequency magnetic field in the complex treatment of patients with lumbar osteochondrosis. Ortop Travmatol Protez. (10): 24-27.
Enhances Nerve Function and Reduces Nerve Compression
PEMF therapy improves nerve function and reduces the symptoms associated with nerve compression, such as sciatica. Studies have shown that PEMFs can decrease nerve root compression and improve sensory function, providing significant relief for individuals with disc-related back pain1.
1 Omar AS, Awadalla MA, El-Latif MA. Evaluation of pulsed electromagnetic field therapy in the management of patients with discogenic lumbar radiculopathy. Int J Rheum Dis. 2012 Oct;15(5): 101-8.
Promotes Healing in Acute and Chronic Conditions
PEMF therapy has been shown to significantly reduce pain in various studies, particularly in cases of lumbar radiculopathy1 and whiplash syndrome2. By accelerating recovery and improving mobility, PEMF therapy offers faster pain relief than many traditional treatments. This makes it an excellent option for those dealing with both acute and chronic back pain.
1. Omar AS, Awadalla MA, El-Latif MA. Evaluation of pulsed electromagnetic field therapy in the management of patients with discogenic lumbar radiculopathy. Int J Rheum Dis. 2012 Oct;15(5): 101-8.
2. Thuile C, Walzl M. (2002) Evaluation of electromagnetic fields in the treatment of pain in patients with lumbar radiculopathy or the whiplash syndrome. Neuro Rehabilitation.17: 63-7.
Supports Recovery from Failed Back Surgery
Failed back syndrome, a common complication of back surgery, can leave patients in worse pain than before. PEMF therapy serves as a rescue treatment for these patients, providing pain relief and improving function when other options are exhausted, often turning severe pain into a more manageable condition.
Improves Mobility and Quality of Life
By reducing pain and enhancing nerve function, PEMF therapy helps patients regain mobility and perform daily activities with less discomfort1,2. Many patients report being able to move, work, and live more comfortably, significantly improving their overall quality of life.
1. Omar AS, Awadalla MA, El-Latif MA. Evaluation of pulsed electromagnetic field therapy in the management of patients with discogenic lumbar radiculopathy. Int J Rheum Dis. 2012 Oct;15(5): 101-8.
2. Rauscher E, Van Bise WL. Pulsed magnetic field treatment of chronic back pain. Bioelectromagnetics Society, 23rd Annual Meeting, St. Paul, MN, June, 2001.
Effective for Both Acute and Chronic Pain
While PEMF therapy is particularly beneficial for chronic back pain, it also provides rapid relief for acute pain episodes1. Patients who use PEMF systems regularly report faster recovery from back pain flare-ups, making it a versatile treatment option2.
1. Rauscher E, Van Bise WL. Pulsed magnetic field treatment of chronic back pain. Bioelectromagnetics Society, 23rd Annual Meeting, St. Paul, MN, June, 2001.
2. Omar AS, Awadalla MA, El-Latif MA. Evaluation of pulsed electromagnetic field therapy in the management of patients with discogenic lumbar radiculopathy. Int J Rheum Dis. 2012 Oct;15(5): 101-8.
Reduces the Need for Surgery
By addressing the underlying causes of pain and promoting healing, PEMF therapy can often prevent the need for surgery. It should be considered as a first-line treatment for back pain, offering a conservative approach that avoids the complications associated with surgical interventions.
Counteracts the Negative Effects of Smoking on Back Health
Smoking is known to negatively impact disc health, increasing the acidity of intervertebral discs and contributing to back pain. PEMF therapy has been shown to counteract these effects, improving disc pH and supporting overall spine health, even in smokers1.
1. Hambly MF and Mooney V. Effect of smoking and pulsed electromagnetic fields on intradiscal pH in rabbits. Spine 17(6S):S83-S85, 1992.
Rapid Onset of Pain Relief
In clinical studies, PEMF therapy has been shown to provide pain relief faster than standard treatments, with many patients experiencing significant improvements in as little as one week1. This rapid response makes PEMF therapy an appealing option for those seeking quick and effective pain management.
1. Thuile C, Walzl M. (2002) Evaluation of electromagnetic fields in the treatment of pain in patients with lumbar radiculopathy or the whiplash syndrome. Neuro Rehabilitation.17: 63-7.
Proven Results in Clinical Studies
Numerous clinical trials have demonstrated the effectiveness of PEMF therapy for back pain, showing significant improvements in pain scores, nerve function, and overall patient satisfaction compared to control groups1,2. These findings support the use of PEMFs as a reliable treatment for various types of back pain.
1. Mitbreit IM, Savchenko AG, Volkova LP, et al. (1986) Low-frequency magnetic field in the complex treatment of patients with lumbar osteochondrosis. Ortop Travmatol Protez. (10): 24-27.
2. Rauscher E, Van Bise WL. Pulsed magnetic field treatment of chronic back pain. Bioelectromagnetics Society, 23rd Annual Meeting, St. Paul, MN, June, 2001.
Benefits of PEMF Therapy for Bone Healing
PEMF therapy stimulates bone-building cells and improving cellular function, PEMF therapy has become a valuable tool in orthopaedic care. It can help accelerate bone repair, enhance bone density, and support overall bone health
Accelerates Fracture Healing
PEMF therapy is highly effective in accelerating the healing of various types of fractures, including fresh, delayed, stress, and nonunion fractures. By enhancing the deposition of calcium phosphate crystals and stimulating bone cell activity, PEMFs help bones heal faster and more effectively, reducing recovery time significantly1.
1. Mikhailova RI, Komarova ZA, Semkin VA, et al. Magnetotherapy in fractures of the lower jaw. Stomatologiia (Mosk) 61(1):41-42, 1982.
Enhances Bone Density and Strength
PEMF therapy promotes the formation of new bone by stimulating both osteoblasts (bone-building cells) and osteoclasts (cells responsible for bone remodeling). This balanced approach not only builds new bone but also strengthens existing bone structures, making it ideal for conditions like osteoporosis and osteopenia1,2.
1. Kraus W. The causality of elastic, electrical and magnetic forces in the healthy and defective bone. European Society of Biomechanics, 2nd Meeting and first Symposium of the Groupe d’Etudes de Biomecanique Oste-Articulaire de Strasbourg, 13-15 September, 1979, Strasbourg, France:C-1, 1979.
2. Löwik CW, Nibbering PH, van de Ruit M, et al. Inducible production of nitric oxide in osteoblast-like cells and in fetal mouse bone explants is associated with suppression of osteoclastic bone resorption. J Clin Invest. 1994 Apr;93(4):1465-72.
Reduces Inflammation and Supports Healing
Surgical incisions, implants, and fractures can lead to inflammation that hinders bone healing. PEMF therapy helps reduce inflammation by modulating reactive oxygen species (ROS) and nitric oxide (NO) levels in the bone, creating an optimal environment for repair and regeneration1.
1. Löwik CW, Nibbering PH, van de Ruit M, et al. Inducible production of nitric oxide in osteoblast-like cells and in fetal mouse bone explants is associated with suppression of osteoclastic bone resorption. J Clin Invest. 1994 Apr;93(4):1465-72.
Promotes Stem Cell Proliferation and Differentiation
PEMF therapy enhances the proliferation of bone marrow stem cells and accelerates their differentiation into mature bone cells, supporting rapid bone regeneration. Studies have shown a 30% increase in stem cell numbers and a significant rise in osteogenesis-related gene expression with PEMF exposure1,2.
1. Sun L, Hsieh D, Lin P, et al Pulsed electromagnetic fields accelerate proliferation and osteogenic gene expression in human bone marrow mesenchymal stem cells during osteogenic differentiation Bioelectromagnetics 31:209–219, 2010.
2. Sun LY, Hsieh DK, Yu TC, Effect of pulsed electromagnetic field on the proliferation and differentiation potential of human bone marrow mesenchymal stem cells. Bioelectromagnetics 2009 May;30(4):251-60.
Improves Bone Healing in Challenging Conditions
PEMF therapy has shown success in healing difficult fractures, such as those in the jaw and foot, which are prone to complications. Clinical studies have demonstrated that PEMFs can significantly decrease healing time, enhance bone regeneration, and reduce pain and swelling, even in cases where conventional treatments have failed1,2.
1. Mikhailova RI, Komarova ZA, Semkin VA, et al. Magnetotherapy in fractures of the lower jaw. Stomatologiia (Mosk) 61(1):41-42, 1982.
2. Streit A, Watson BC, Granata JD, et al. Effect on Clinical Outcome and Growth Factor Synthesis With Adjunctive Use of Pulsed Electromagnetic Fields for Fifth Metatarsal Nonunion Fracture: A Double- Blind Randomized Study. Foot Ankle Int. 2016 Sep;37(9):919-23.
Supports Recovery from Surgical Bone Interventions
Bone surgeries, including those involving implants, benefit greatly from PEMF therapy. By stimulating bone growth around implants and enhancing mechanical strength, PEMFs improve surgical outcomes and reduce the risk of complications, making it an excellent adjunct to orthopaedic surgery1,2.
1. Kraus W. The causality of elastic, electrical and magnetic forces in the healthy and defective bone. European Society of Biomechanics, 2nd Meeting and first Symposium of the Groupe d’Etudes de Biomecanique Oste-Articulaire de Strasbourg, 13-15 September, 1979, Strasbourg, France:C-1, 1979.
2. Streit A, Watson BC, Granata JD, et al. Effect on Clinical Outcome and Growth Factor Synthesis With Adjunctive Use of Pulsed Electromagnetic Fields for Fifth Metatarsal Nonunion Fracture: A Double- Blind Randomized Study. Foot Ankle Int. 2016 Sep;37(9):919-23.
Enhances Calcium Uptake and Bone Mineralisation
PEMF therapy increases calcium uptake in bone tissues, promoting higher bone density and strength. Studies on human bone samples have shown a 70% increase in calcium absorption with PEMF treatment, supporting faster and more robust bone formation1.
1. Kraus W. The causality of elastic, electrical and magnetic forces in the healthy and defective bone. European Society of Biomechanics, 2nd Meeting and first Symposium of the Groupe d’Etudes de Biomecanique Oste-Articulaire de Strasbourg, 13-15 September, 1979, Strasbourg, France:C-1, 1979.
Reduces Pain and Swelling in Bone Injuries
By modulating inflammatory responses and improving blood flow, PEMF therapy helps reduce pain and swelling associated with bone injuries1. This pain relief facilitates better mobility and comfort during the healing process, enhancing overall patient satisfaction.
1. Mikhailova RI, Komarova ZA, Semkin VA, et al. Magnetotherapy in fractures of the lower jaw. Stomatologiia (Mosk) 61(1):41-42, 1982.
Improves Outcomes in Bone Grafting and Large Fractures
PEMFs can enhance the integration of bone grafts and support healing in large fractures when combined with tissue-engineered bone scaffolds. This combined approach accelerates bone repair, improves blood vessel formation, and supports cell growth, even in severely damaged or dead bone1.
1. Fu YC, Lin CC, Chang JK, et al. A novel single pulsed electromagnetic field stimulates osteogenesis of bone marrow mesenchymal stem cells and bone repair. PLoS One. 2014 Mar 14;9(3):e91581.
Effective for Chronic Bone Conditions
For patients with chronic conditions like osteoporosis, PEMF therapy provides a continuous stimulus for bone repair and maintenance, helping to prevent further bone loss and improve overall bone health1,2. Regular PEMF use can be a key component in managing and reversing the effects of chronic bone degeneration.
1. Löwik CW, Nibbering PH, van de Ruit M, et al. Inducible production of nitric oxide in osteoblast-like cells and in fetal mouse bone explants is associated with suppression of osteoclastic bone resorption. J Clin Invest. 1994 Apr;93(4):1465-72.
2. Sun L, Hsieh D, Lin P, et al Pulsed electromagnetic fields accelerate proliferation and osteogenic gene expression in human bone marrow mesenchymal stem cells during osteogenic differentiation Bioelectromagnetics 31:209–219, 2010.
Supports Bone Health in Athletes and Active Individuals
For athletes prone to stress fractures, PEMF therapy offers a valuable tool for both prevention and recovery. By enhancing bone resilience and accelerating healing1,2, PEMFs help maintain bone integrity, allowing athletes to return to their activities faster and with reduced risk of re-injury.
Benefits of PEMF Therapy for Cancer
PEMF therapy has been moderately studied in the context of cancer, showing potential as a complementary approach rather than a cure. PEMF therapy can reduce discomfort, enhance treatment efficacy, and improve overall well-being in cancer patients undergoing various medical treatments.
Appropriate Complementary Therapy
PEMF therapy has been used in conjunction with traditional medical treatments to help patients better tolerate their cancer therapies. This can lead to less discomfort, improved treatment efficacy, and a better overall quality of life. While the scientific literature on the effects of PEMF in cancer is extensive, only a few key studies are highlighted here, focusing on both human and animal research. Animal and laboratory studies have provided valuable insights into how PEMFs might work in cancer management. For example, they show how PEMFs can influence free radical processes, inhibit tumour growth, and affect the progression of metastatic disease. They are, however, not contraindicated in cancer treatment and may be beneficial as a complementary therapy. Cancer patients, particularly those weakened by other treatments, may be more vulnerable to excessive PEMF stimulation, so careful management is necessary.
Laboratory and Animal Studies
In laboratory studies, PEMFs have been shown to increase mitochondrial activity in breast cancer cells, which can lead to their early death, and reduce the proliferative activity of cancer cells, such as myeloma and HeLa cells (from an immortal cervical cancer line). Importantly, PEMFs do not appear to promote or damage DNA in human breast cancer cells, which is a significant advantage. Furthermore, research shows that PEMFs can enhance the effects of chemotherapy by making cancer cells more sensitive to radiation and chemotherapy agents. When PEMFs were used alongside seven chemotherapy drugs in breast cancer cells, a significant decrease in mitochondrial activity was observed, making the treatment more effective.
Animal studies support these findings, showing that PEMFs can inhibit tumour growth, particularly in cancers like colon and breast cancer. For example, in mice, PEMFs inhibited the growth of human colon cancer cells by 40-50% and significantly increased survival time. Breast cancer studies in mice also showed reduced tumour growth and vascularity, as well as increased tumour cell death. Other studies have demonstrated that PEMF therapy can reduce the toxicity of chemotherapy drugs like cisplatin in endometrial, ovarian, and prostate cancers, making these therapies more tolerable for patients. Additionally, cancers such as endometrial and prostate cancer appear to be more sensitive to PEMFs than ovarian cancer.
Nitric Oxide Production
PEMFs have an important effect on nitric oxide (NO) production, which is relevant in the context of cancer. NO is a free radical gas that acts as both a signalling molecule and a cell-killing agent. There are three types of nitric oxide synthase (NOS) enzymes that produce NO, and the type found in blood vessel walls, eNOS, plays a crucial role in regulating blood flow and vascular permeability. This regulation of NO production is one of the key effects of PEMF therapy, helping to manage the blood supply to tumours and potentially aiding in their treatment.
Research into the effects of PEMF on nitric oxide (NO) production reveals conflicting results, but high levels of NO are necessary to induce toxicity in tumors. This is one reason PEMF is rarely recommended as a primary cancer treatment. However, when combined with chemotherapy and immunotherapy, NO has been shown to reverse the resistance of tumor cells to these therapies1. PEMFs appear to enhance chemotherapy and radiation outcomes by increasing NO production locally at the tumor site, without causing systemic effects2. This local focus reduces the risk of side effects like low blood pressure or headaches, which are often seen with systemic NO therapies.
1. Scicinski J, Oronsky B, Ning S, et al. NO to cancer: The complex and multifaceted role of nitric oxide and the epigenetic nitric oxide donor, RRx-001. Redox Biol. 2015 Dec;6:1-8.
2. Bonavida B and Garban H. Nitric oxide-mediated sensitization of resistant tumor cells to apoptosis by chemo-immunotherapeutics. Redox Biol. 2015 Dec;6:486-94.
Clinical Study (151 Cancer Patients)
A clinical study involving 151 cancer patients—affected by stomach, lung, breast cancers, Hodgkin’s disease, and melanoma—demonstrated the potential benefits of whole-body PEMF therapy. Patients underwent 15 sessions of medium-intensity PEMF for 20 minutes each. In those treated with PEMF before surgery, 50 of 52 patients reported pain relief, improved health, and better appetite. Postoperative patients treated with PEMF saw reduced pain and faster recovery. Among breast cancer patients, PEMF combined with compression therapy significantly reduced lymphedema, while stomach cancer patients experienced improved rehabilitation and reduced stomach acid issues. During follow-up, metastases were observed in only two patients1.
1. Lubennikov VA, Lazarev AF, Golubtsov VT. First experience in using a whole-body magnetic field exposure in treating cancer patients. Vopr Onkol 41(2):140-141, 1995.
Breast Cancer Study
Research into PEMFs and breast cancer is particularly promising. A study examining the effects of PEMFs on both cancerous and healthy breast cells showed that specific frequencies (20 Hz, 3 mT for 60 minutes/day) progressively damaged breast cancer cells over a three-day period. Notably, the PEMF therapy did not harm healthy breast cells and even slightly improved their function. These findings suggest that PEMFs could serve as a valuable, non-toxic treatment option for breast cancer, especially when combined with conventional therapies like radiation and chemotherapy1.
1. Crocetti S, Beyer C, Schade G, et al. Low intensity and frequency pulsed electromagnetic fields selectively impair breast cancer cell viability. PLoS One. 2013 Sep 11;8(9).
Electric Stimulation and PEMF
The combination of electric stimulation and PEMFs also holds promise. A study using short-duration electric pulses (4 Hz) on superficial breast cancer tumors showed a significant 79% reduction in tumor growth, without damaging normal tissues1. This suggests that similar effects could be achieved by applying PEMFs deeper in the breast, offering a less invasive treatment option.
PEMFs may also play a role in targeting specific cancer types, such as triple-negative breast cancer, by elevating intracellular calcium levels2. Studies indicate that cancer cells, particularly aggressive types, are less capable of handling modest increases in calcium levels compared to normal cells. For example, PEMF treatments using 3 mT at 20 Hz for 60 minutes per day selectively damaged breast cancer cells while leaving healthy cells unaffected3.
1. Wu S, Wang Y, Guo J, et al. Nanosecond pulsed electric fields as a novel drug free therapy for breast cancer: An in vivo study. Cancer Lett. 2013 Oct 4. S0304-3835(13)00701-5.
2. Yu HG, McLaughlin S, Newman M, et al Altering calcium influx for selective destruction of breast tumor. BMC Cancer. 2017 Mar 4;17(1):169.
3. Crocetti S, Beyer C, Schade G, et al. Low intensity and frequency pulsed electromagnetic fields selectively impair breast cancer cell viability. PLoS One. 2013 Sep 11;8(9).
Chemotherapy Complications
PEMF therapy has also proven useful in managing complications from chemotherapy. It accelerated healing in bones affected by cancer surgeries and reduced recovery time from 9 to 6.7 months1. Additionally, PEMFs were used successfully to treat severe tissue damage caused by chemotherapy leaks, especially in children. PEMF therapy promoted faster healing and significantly reduced ulcers and necrosis (tissue death), with a healing rate three times faster than traditional treatments2.
In summary, while not a cure, PEMF therapy shows potential to complement traditional cancer treatments, improve quality of life, alleviate pain, and reduce side effects from chemotherapy. Its ability to stabilize disease progression and support recovery in advanced cancer cases, though still experimental, warrants further exploration.
1. Kiselev AV and Grushina TI. Use of artificial magnetic field for rehabilitation of children with malignant tumors. Vopr Onkol 46(4):469-472, 2000.
2. Capanna R, Donati D, Masetti C, et al. Effect of electromagnetic fields on patients undergoing massive bone graft following bone tumor resection. A double blind study. Clin Orthop Relat Res. 1994 Sep;(306):213-21.
Pre-Cancer
PEMF therapy has been explored for treating early tissue changes that can lead to cancer. In a study of patients with chronic peptic ulcers, PEMF treatment led to complete healing in 60% of participants, with partial healing in 18%1. This suggests that PEMFs may be effective in managing precancerous conditions, where inflammation is often present.
PEMF therapy holds promise as a complementary approach in cancer treatment, potentially enhancing the effectiveness of traditional therapies, reducing side effects, and promoting healing in both cancerous and precancerous conditions. Further research is warranted to explore the underlying mechanisms and broader applications.
1. Kolomietz A, Suslova TE, Savina EV, et al. Clinical-immunological effects of magnetotherapy. All-Union Symposium: Laser and Magnetic Therapy in Experimental and Clinical Studies, Tsyb A and Kaplan M, eds., 16-18 June, Obninsk, Kaluga Region, Russia, p. 208-209 1993.
Benefits of PEMF Therapy for Depression
Depression is a common mental health issue with a lifetime rate of over 20%. Traditional treatments often fall short, especially for those with treatment-resistant depression. Here's how PEMF therapy offers a promising alternative.
Effective for Treatment-Resistant Depression
PEMF therapy offers a scientifically supported, safe alternative that can be used at home and has shown benefits across various types of depression. It enhances neuroplasticity, helps the brain adjust and repair itself, and supports long-term mental health improvements. PEMF therapy can also improve brain metabolism, affecting brain regions involved in depression, enhancing glucose metabolism, and neurotransmitter release, such as BDNF, crucial for mood regulation.
Studies, including those from Harvard Medical School, show significant mood improvements with PEMF therapy in a short time, with low risk and mild side effects. Patients report enhancements in work ability, life interest, and reduced guilt and anxiety levels.
Rapid Symptom Relief
PEMF therapy offers a quicker onset of symptom relief compared to conventional treatments like antidepressants, which often take between four to six weeks to become effective. This rapid response can be crucial for individuals struggling with severe symptoms, reducing the immediate impact of depression and improving quality of life much faster. For those who face debilitating effects of depression, the swift action of PEMF therapy can be a game-changer, providing hope and relief when it is most needed.
Improves Brain Function
PEMF therapy enhances neuroplasticity, the brain’s ability to adapt and rewire itself, which is essential for recovering from depression. By synchronising brain cell networks, PEMFs help to normalise brain activity patterns associated with mood regulation1. This neuroplastic effect supports the brain in adapting to new demands, repairing itself, and maintaining balanced mental health, offering lasting benefits beyond immediate symptom relief.
1. Leuchter AF, Hunter AM, Krantz DE, et al. Rhythms and blues: modulation of oscillatory synchrony and the mechanism of action of antidepressant treatments. Ann N Y Acad Sci. 2015 May;1344:78-91.
Affects Brain Metabolism and Neurotransmitters
PEMF therapy has been shown to positively affect the brain’s glucose metabolism and neurotransmitter release, including brain-derived neurotrophic factor (BDNF), which plays a key role in mood regulation and mental health1. By enhancing these processes, PEMFs support brain function at a cellular level, promoting healthier brain activity patterns and contributing to the alleviation of depressive symptoms.
1. Li Y, Yan X, Liu J, Let al. Pulsed electromagnetic field enhances brain-derived neurotrophic factor expression through L-type voltage-gated calcium channel- and Erk-dependent signaling pathways in neonatal rat dorsal root ganglion neurons. Neurochem Int. 2014 Sep;75:96-104.
Reduces Anxiety and Depression Together
Anxiety often accompanies depression, and PEMF therapy has proven effective in addressing both conditions simultaneously. Studies have shown that specific PEMF frequencies can significantly reduce anxiety levels alongside improving mood, providing comprehensive mental health benefits1,2. This dual action helps individuals manage both aspects of their mental health, leading to a more balanced and stable emotional state.
1. Bech P, Lindberg L, Straaso B, et al. 2-year follow-up study of patients participating in our transcranial pulsating electromagnetic fields (T-PEMF) augmentation in treatment-resistant depression. Acta Neuropsychiatrica 2015.
2. Straaso B, Lauritzen L, Lunde M, et al. Dose-remission of pulsating electromagnetic fields as augmentation in therapy-resistant depression: a randomized, double blind controlled study. Acta Neuropsychiatrica 2014.
Proven Efficacy in Clinical Trials
Clinical studies, including those conducted at prestigious institutions like Harvard Medical School, have demonstrated the significant efficacy of PEMF therapy in treating depression. These trials showed that even low-intensity PEMF treatments can produce noticeable improvements in mood within weeks, proving to be a viable alternative to more invasive or less effective therapies1.
1. Leuchter AF, Hunter AM, Krantz DE, et al. Rhythms and blues: modulation of oscillatory synchrony and the mechanism of action of antidepressant treatments. Ann N Y Acad Sci. 2015 May;1344:78-91.
Sustained Remission Rates
PEMF therapy not only offers rapid relief but also contributes to sustained remission in many patients. Studies have shown that a significant proportion of individuals treated with PEMF remain in remission for extended periods, greatly reducing the likelihood of relapse1,2. This long-term effectiveness helps patients achieve stable and lasting mental health, supporting overall recovery.
1. Bech P, Lindberg L, Straaso B, et al. 2-year follow-up study of patients participating in our transcranial pulsating electromagnetic fields (T-PEMF) augmentation in treatment-resistant depression. Acta Neuropsychiatrica 2015.
2. Straaso B, Lauritzen L, Lunde M, et al. Dose-remission of pulsating electromagnetic fields as augmentation in therapy-resistant depression: a randomized, double blind controlled study. Acta Neuropsychiatrica 2014.
Enhances Quality of Life & Supports Better Sleep
Patients undergoing PEMF therapy often report significant improvements in their daily functioning, including reduced feelings of guilt, increased ability to work, and renewed interest in life1. These benefits go beyond symptom management, enhancing overall quality of life and enabling individuals to engage more fully in their personal and professional activities.
PEMF therapy has been linked to improvements in REM sleep, which is critical for mental health2. By enhancing sleep quality and helping to regulate circadian rhythms, PEMF therapy not only supports better rest but also contributes to its antidepressant effects. Improved sleep can have a profound impact on mood, cognitive function, and overall well-being, further supporting the benefits of PEMF therapy for those with depression.
1. Martiny K, Lunde M, Bech P: Transcranial low voltage pulsed electromagnetic fields in patients with treatment-resistant depression. Biol Psychiatry 2010, 68:163–169.
2. Cohrs S, Tergau F, Riech S, et al. High-frequency repetitive transcranial magnetic stimulation delays rapid eye movement sleep. Neuroreport. 1998 Oct 26;9(15):3439-43.
Minimal Side Effects
Compared to conventional treatments like antidepressants, ECT, or rTMS, PEMF therapy is associated with fewer and milder side effects. The non-invasive nature of PEMF minimises risks, making it a safer option for those seeking long-term treatment. This low risk profile adds to its appeal as an effective therapy for depression, especially for individuals who are sensitive to medication side effects.
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Benefits of PEMF Therapy for Diabetes
PEMF therapy offers a powerful, non-invasive solution that complements standard diabetes care. By enhancing circulation, reducing inflammation, and supporting nerve health, PEMF therapy addresses the underlying problems associated with diabetes, helping to prevent further damage and improve overall well-being.
Improves Circulation and Reduces Complications
PEMF therapy enhances circulation in both small (microcirculation) and large (macrocirculation) blood vessels, helping to address one of the main issues in diabetes—poor blood flow1,2. Improved circulation can reduce the risk of complications such as retinopathy, neuropathy, and cardiovascular disease, which are common in diabetic patients.
1. Sun J, Kwan RL, Zheng Y, et al. Effects of pulsed electromagnetic fields on peripheral blood circulation in people with diabetes: A randomized controlled trial. Bioelectromagnetics. 2016 Jul;37(5):290-7.
2. Webb CY, Lo SSL, Evans JH. 2003. Prevention of diabetic foot using low frequency magnetotherapy. The Diabetic Foot 6:138–150.
Reduces Advanced Glycation End Products (AGEs) Impact
AGEs are harmful compounds that accumulate in tissues due to high blood sugar levels, leading to impaired circulation and tissue damage. PEMF therapy helps mitigate the impact of AGEs by promoting better blood flow, thereby improving tissue health and function.
Supports Nerve Health and Reduces Neuropathy Symptoms
Diabetic neuropathy, a painful condition affecting nerves, particularly in the feet and hands, is a common complication of diabetes. Studies have shown that PEMF therapy significantly improves symptoms such as pain, paraesthesia, and muscle strength, offering a non-drug approach to managing neuropathy1,2.
1. Cieslar G, Sieron A, Radelli J. (1995) The estimation of therapeutic effect of variable magnetic fields in patients with diabetic neuropathy including vibratory sensibility. Balneol Pol 37(1): 23-27.
2. Sieron A, Cieslar G, Jochan K, et al. The therapeutic effect of variable magnetic fields in patients with diabetic retinopathy. Balneol Pol 37(2):44-47, 1995.
Promotes Healing and Prevents Amputations
For severe cases of diabetic neuropathy, such as Charcot foot or gangrene, PEMF therapy has been shown to support healing where conventional treatments have failed1. There are documented cases where PEMF therapy has helped save limbs from amputation, highlighting its effectiveness in severe diabetic complications.
1. Bier RR and Estersohn HS. A new treatment for charcot joint in the diabetic foot. J Am Podiatr Med Assoc 77(2):63-69, 1987.
Improves Eye Health
Diabetic retinopathy is a major cause of vision loss in diabetics. PEMF therapy has demonstrated benefits in reducing the progression of retinopathy, improving visual acuity, and supporting overall eye health through its anti-inflammatory and circulation-enhancing effects1.
1. Danilova AI and Peleshchuk EA. Alternating magnetic fields in the complex treatment of various endocrine ophthalmopathies. Oftalmol Zh (4):207-210, 1986.
Supports Whole-Body Health
Diabetes affects multiple body systems, including the heart, kidneys, eyes, and nerves. PEMF therapy’s broad action on various body tissues makes it an ideal supportive treatment for diabetics, helping to stabilise and repair damage across multiple organs.
Reduces Inflammation and Oedema
Inflammation and fluid retention are common issues in diabetic complications, particularly in conditions like retinopathy and neuropathy. PEMF therapy’s anti-inflammatory and anti-oedema effects help reduce these problems, contributing to overall symptom improvement1.
1. Kuliev RA and Babaev RF. A magnetic field in the combined treatment of suppurative wounds in diabetes mellitus. Vestn Khir 148(1):33-36, 1993.
Prevention and Maintenance
Regular use of PEMF therapy can help prevent the progression of diabetic complications, supporting long-term health and improving overall quality of life for diabetics. It is particularly beneficial for maintaining nerve and vascular health, which are often compromised in diabetes1,2.
1. Sieron A, Cieslar G, Jochan K, et al. The therapeutic effect of variable magnetic fields in patients with diabetic retinopathy. Balneol Pol 37(2):44-47, 1995.
2. Sun J, Kwan RL, Zheng Y, et al. Effects of pulsed electromagnetic fields on peripheral blood circulation in people with diabetes: A randomized controlled trial. Bioelectromagnetics. 2016 Jul;37(5):290-7.
Supports Effective Diabetes Management
While managing blood sugar levels is crucial, PEMF therapy complements traditional diabetes management by addressing the broader health impacts of the condition. By stabilising and repairing existing damage, PEMFs offer an additional layer of protection and support for individuals with diabetes.
Benefits of PEMF Therapy for Erectile Dysfunction (ED)
PEMF therapy offers a promising alternative that addresses the root causes of ED by enhancing blood flow, stimulating pelvic nerves, and supporting overall sexual health. By targeting both the physical and psychological aspects of ED, PEMF therapy provides a holistic approach to improving erectile function and quality of life, making it an effective option for men seeking sustainable and safe solutions.
Enhances Blood Flow to Erectile Tissues
One of the primary causes of erectile dysfunction is poor blood circulation to the penile tissues. PEMF therapy stimulates the pelvic blood vessels, increasing blood flow and supporting firmer, more sustainable erections1. Studies show that combining PEMF with vacuum therapy significantly improves blood flow compared to vacuum therapy alone, demonstrating the effectiveness of PEMF in enhancing erectile function2.
1. Gorpinchenko II. The use of magnetic devices in treating sexual disorders in men. Lik Sprava (3-4):95- 97, 1995.
2. Karpukhin IV and Bogomol’nii VA. Local vacuum-magnetotherapy of impotency patients. Vopr Kurortol Fizioter Lech Fiz Kult (2):38-40, 1996.
Direct Stimulation of Pelvic Nerves
ED can result from nerve damage or poor nerve function within the pelvic area. PEMF therapy directly stimulates the pelvic nerves, which play a crucial role in achieving and maintaining erections. This neural stimulation helps to restore normal function, particularly in cases where nerve impairment is a contributing factor to ED.
Improves Sexual Function and Overall Health
PEMF therapy has been shown to improve sexual function in men with ED, premature ejaculation, and decreased libido. In clinical studies, significant improvements in sexual health and overall well-being were observed among men using PEMF compared to those receiving placebo treatments, indicating a broader positive impact on quality of life1.
1. Gorpinchenko II. The use of magnetic devices in treating sexual disorders in men. Lik Sprava (3-4):95- 97, 1995.
Combats Common Causes of ED
Many physical conditions contributing to ED, such as diabetes, high blood pressure, obesity, and poor cholesterol levels, respond well to PEMF therapy. By addressing these underlying health issues, PEMF helps to mitigate the impact of these conditions on erectile function, offering a holistic approach to managing ED1.
1. Ponomarenko GN, Bin’iash TG, Raĭgorodskiĭ IuM, et al. Transcranial magneto- and electrostimulation in patients with obesity and erectile dysfunction. Vopr Kurortol Fizioter Lech Fiz Kult. 2009 Sep-Oct;(5):30-3.
Supports Hormone Balance and Testosterone Levels
Low testosterone is a common factor in erectile dysfunction, particularly in older men. PEMF therapy has been found to support healthy testosterone levels, with studies showing significant increases in testosterone after treatment1. This hormonal support helps improve sexual drive and performance.
1. Ponomarenko GN, Bin’iash TG, Raĭgorodskiĭ IuM, et al. Transcranial magneto- and electrostimulation in patients with obesity and erectile dysfunction. Vopr Kurortol Fizioter Lech Fiz Kult. 2009 Sep-Oct;(5):30-3.
Improves Outcomes in Combination with Other Therapies
PEMF therapy enhances the effectiveness of other common ED treatments, such as vacuum therapy, making it a valuable addition to standard care. Studies have shown that combining PEMF with vacuum therapy leads to better restoration of sexual function and greater increases in penile blood flow compared to using vacuum therapy alone1.
1. Karpukhin IV and Bogomol’nii VA. Local vacuum-magnetotherapy of impotency patients. Vopr Kurortol Fizioter Lech Fiz Kult (2):38-40, 1996.
Supports Fertility and Sperm Health
Concerns about the impact of PEMF therapy on fertility are unfounded, as studies have shown no negative effects on sperm quality or semen health, even with high-intensity treatments1. This makes PEMF a safe option for men looking to maintain fertility while treating ED.
1. Lundsberg LS, Bracken MB, Belanger K. Occupationally related magnetic field exposure and male subfertility. Fertil Steril 63(2):384-391, 1995.
Addresses Age-Related ED
Ageing is a common factor in erectile dysfunction due to decreased blood flow, nerve function, and hormone levels. PEMF therapy targets these age-related issues, offering an effective solution that helps older men maintain sexual function and confidence.
Benefits of PEMF Therapy for Fibromyalgia
PEMF therapy offers a non-invasive approach to managing FM by targeting the root causes of pain and dysfunction within the body. By enhancing neuroplasticity, reducing inflammation, and improving sleep quality, PEMF therapy provides holistic support for those struggling with the relentless symptoms of fibromyalgia, offering hope where other treatments fall short.
Reduces Chronic Pain and Hypersensitivity
Fibromyalgia is characterised by heightened pain sensitivity due to abnormalities in the central nervous system. PEMF therapy helps reduce pain levels by improving pain thresholds and modulating nerve signals to the brain, offering relief where traditional treatments often fail1,2.
1. Sutbeyaz ST, Sezer N, Koseoglu F, et al. (2009) Low-frequency pulsed electromagnetic field therapy in fibromyalgia: a randomized, double-blind, sham-controlled clinical study. Clin J Pain. Oct;25(8): 722-8.
2. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
Improves Sleep Quality and Daily Function
Poor sleep and impaired daily functioning are common in FM sufferers. PEMF therapy has been shown to enhance sleep quality, increase the ability to perform daily activities, and reduce fatigue, leading to overall better quality of life for those affected1-3.
1. Colbert A, Markov M, Banerji M, et al. Magnetic mattress pad use in patients with fibromyalgia: a randomized double-blind pilot study. J Back Musculoskeletal Rehabil. 1999;13(1):19–31.
2. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
3. Sutbeyaz ST, Sezer N, Koseoglu F, et al. (2009) Low-frequency pulsed electromagnetic field therapy in fibromyalgia: a randomized, double-blind, sham-controlled clinical study. Clin J Pain. Oct;25(8): 722-8.
Reduces Anxiety and Depression
FM often comes with psychological symptoms such as anxiety and depression. PEMF therapy has demonstrated significant improvements in mood and mental well-being by modulating neuroendocrine functions and reducing stress, providing a holistic approach to managing both physical and psychological symptoms of FM1,2.
1. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
2. Sutbeyaz ST, Sezer N, Koseoglu F, et al. (2009) Low-frequency pulsed electromagnetic field therapy in fibromyalgia: a randomized, double-blind, sham-controlled clinical study. Clin J Pain. Oct;25(8): 722-8.
Supports Neuroplasticity and Pain Regulation
FM is linked to dysfunctional pain regulation in the brain. PEMF therapy supports neuroplasticity, helping to rewire the brain’s pain pathways and improve the body's natural pain inhibition mechanisms, offering long-term relief from the debilitating effects of FM.
Decreases Inflammation and Improves Tissue Health
PEMF therapy’s anti-inflammatory effects help alleviate symptoms associated with FM, such as muscle pain and joint stiffness. By improving blood circulation and reducing inflammation, PEMF promotes healing and tissue repair, which is vital for managing chronic conditions like FM1.
1. Thomas AW, Drost DJ, Prato FS. (2001) Human subjects exposed to a specific pulsed (200 μT) magnetic field: effects on normal standing balance. Neurosci Lett. 297(2): 121-124.
Enhances Serotonin Levels and Overall Well-Being
Low serotonin levels are associated with increased pain perception and mood disorders in FM patients. PEMF therapy has been shown to elevate serotonin levels, which not only helps reduce pain but also improves mood and general well-being, contributing to a more balanced and healthier lifestyle1.
1. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
Helps Combat Ambient EMF Sensitivity
Many FM sufferers are particularly sensitive to external electromagnetic fields. Studies conducted in controlled environments, like Faraday cages, have demonstrated that PEMF therapy can still provide significant pain relief, suggesting that specific PEMF applications can help mitigate the negative effects of environmental EMFs1.
1. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
Supports Long-Term Pain Management
Given the chronic nature of FM and the central role of pain dysregulation in the condition, ongoing PEMF therapy offers a sustainable way to manage symptoms. Its effects on both peripheral and central pain processing make it a powerful tool for long-term symptom control, reducing the reliance on less effective or invasive therapies1,2.
1. Colbert A, Markov M, Banerji M, et al. Magnetic mattress pad use in patients with fibromyalgia: a randomized double-blind pilot study. J Back Musculoskeletal Rehabil. 1999;13(1):19–31.
2. Maestú C, Blanco M, Nevado A, et al. Reduction of pain thresholds in fibromyalgia after very low- intensity magnetic stimulation: a double-blinded, randomized placebo-controlled clinical trial. Pain Res Manag. 2013 Nov-Dec;18(6):e101-6.
Effective in Various Treatment Settings
PEMF therapy has proven effective in different applications, including targeted low-intensity treatments to the head and whole-body exposure using magnetic mattress pads1,2. This versatility allows for personalised treatment options that can be tailored to the individual needs of FM patients.
1. Alfano AP, Taylor AG, Foresman PA, et al. Static magnetic fields for treatment of fibromyalgia: a randomized controlled trial. J Altern Complement Med. 2001;7(1):53–64.
2. Colbert A, Markov M, Banerji M, et al. Magnetic mattress pad use in patients with fibromyalgia: a randomized double-blind pilot study. J Back Musculoskeletal Rehabil. 1999;13(1):19–31.
Benefits of PEMF Therapy for Migraines
Conventional treatments, such as pain relief medications and specific migraine drugs, often provide limited relief and can have unwanted side effects. PEMF therapy offers a promising alternative by targeting the neurological and vascular components of migraines. By reducing headache frequency, shortening attack duration, and providing preventive benefits, PEMF therapy stands out as an effective, non-invasive solution for managing migraines and improving overall quality of life.
Reduces Frequency and Duration of Migraines
PEMF therapy has been shown to significantly reduce the frequency and duration of migraine attacks. Studies indicate that patients experience fewer and shorter migraine episodes following regular PEMF treatment, making it an effective preventive approach for chronic migraine sufferers1,2.
1. Lazar L and Farago A. Experiences of patients suffering from migraine-type headache treated with magnetotherapy. Hungarian Symposium on Magnetotherapy (with International Participation), 2nd symposium, 16-17 May, Szekesfehervar, Hungary, p. 137-140, 1987.
2. Thuile C, Walzl M. (2002) Evaluation of electromagnetic fields in the treatment of pain in patients with lumbar radiculopathy or the whiplash syndrome. Neuro Rehabilitation.17: 63-7.
Provides Effective Pain Relief
PEMF therapy helps alleviate migraine pain by modulating neural activity and enhancing blood flow to the brain. This pain-relieving effect is particularly valuable for those who do not respond well to conventional pain medications or are seeking alternatives to avoid medication side effects1,2.
1. Prusinski A, Wielka J, Durko A. (1987) Pulsating electromagnetic field in the therapy of headache. Second Symposium on Magnetotherapy, Szekesfehervar, Hungary, May, 1987. J Bioelectr. 7(1):127-128.
2. Sherman RA, Acosta NM, Robson L. Treatment of migraine with pulsing electromagnetic fields: a double- blind, placebo-controlled study. Headache. 1999 Sep;39(8):567-75.
Non-Invasive and Safe for Home Use
Unlike invasive treatments or those requiring repeated medical visits, PEMF therapy can be safely used at home. Its non-invasive nature makes it a practical and convenient option for ongoing migraine management, allowing users to apply treatment early during a migraine episode for optimal results.
Improves Overall Headache Management
PEMF therapy has shown benefits not just for migraines but also for tension and other headache types, offering a comprehensive approach to headache management. Studies have demonstrated significant improvements in patients resistant to conventional treatments, highlighting PEMF as a versatile tool for headache relief1-3.
1. Pelka RB, Jaenicke C, Gruenwald J. Impulse magnetic-field therapy for migraine and other headaches: a double-blind, placebo-controlled study. Adv Ther 18(3):101-109, 2001.
2. Prusinski A, Wielka J, Durko A. (1987) Pulsating electromagnetic field in the therapy of headache. Second Symposium on Magnetotherapy, Szekesfehervar, Hungary, May, 1987. J Bioelectr. 7(1):127-128.
3. Sherman RA, Acosta NM, Robson L. Treatment of migraine with pulsing electromagnetic fields: a double- blind, placebo-controlled study. Headache. 1999 Sep;39(8):567-75.
Reduces Dependency on Medications & Suitable for Medication-Resistant Cases
Many migraine sufferers rely heavily on medications, which can have long-term side effects. PEMF therapy helps reduce this dependency by providing a natural method of pain management and migraine prevention, supporting a healthier, drug-free approach to managing the condition.
For patients who do not respond well to medications or have conditions that limit their use, PEMF therapy offers a viable alternative. Studies show significant improvements in headache management among those who had previously failed other therapies, underscoring PEMF’s potential as a complementary or standalone treatment option1-3.
1. Mix E, Henssen HL, Lehmitz R, et al. Pulsing electromagnetic field (PEMF) treatment of patients with multiple sclerosis (MS) and migraine. Effect on cell volume and phagocytic activity of blood cells and clinical results (meeting abstract). J Bioelectr 9(2):242 Third Symposium on Magnetotherapy and Magnetic Stimulation, 12-14 October 1989, Szekesfehervar, Hungary, 1990.
2. Prusinski A, Wielka J, Durko A. (1987) Pulsating electromagnetic field in the therapy of headache. Second Symposium on Magnetotherapy, Szekesfehervar, Hungary, May, 1987. J Bioelectr. 7(1):127-128.
3. Thuile C, Walzl M. (2002) Evaluation of electromagnetic fields in the treatment of pain in patients with lumbar radiculopathy or the whiplash syndrome. Neuro Rehabilitation.17: 63-7.
Comparable to Other Advanced Treatments
PEMF therapy has shown effectiveness comparable to other advanced migraine treatments, such as botulinum toxin-A injections, but without the associated risks or need for repeated procedures1. This positions PEMF as a superior option for those seeking sustained relief without invasive interventions.
1. Shehata HS, Esmail EH, Abdelalim A, et al. Repetitive transcranial magnetic stimulation versus botulinum toxin injection in chronic migraine prophylaxis: a pilot randomized trial. J Pain Res. 2016 Oct 7;9:771-777.
Modulates Neural and Vascular Activity
Migraines often involve dysregulated neural and vascular activity. PEMF therapy helps stabilise these processes, reducing the likelihood of migraine triggers and improving the brain’s response to pain, making it beneficial both during and between migraine attacks1.
1. Bettucci D, Cantello R, Gianelli M, et al. Menstrual migraine without aura: cortical excitability to magnetic stimulation. Headache 32(7):345-347, 1992.
Proven Preventive Effects
Regular use of PEMF therapy has been shown to reduce the severity and frequency of migraine episodes over time1,2. By incorporating PEMF into their daily routine, migraine sufferers can benefit from long-term improvements in their condition, often achieving better outcomes than with traditional treatments alone.
1. Grunner O. Cerebral use of a pulsating magnetic field in neuropsychiatry patients with long-term headache. EEG EMG Z Elektroenzephalogr Verwandte Geb (1985) Dec;16(4):227-230.
2. Mix E, Henssen HL, Lehmitz R, et al. Pulsing electromagnetic field (PEMF) treatment of patients with multiple sclerosis (MS) and migraine. Effect on cell volume and phagocytic activity of blood cells and clinical results (meeting abstract). J Bioelectr 9(2):242 Third Symposium on Magnetotherapy and Magnetic Stimulation, 12-14 October 1989, Szekesfehervar, Hungary, 1990.
Benefits of PEMF Therapy for Multiple Sclerosis (MS)
PEMF therapy offers a valuable approach that complements standard care by enhancing nerve function, reducing inflammation, and improving overall quality of life for those living with MS. By targeting the condition at a cellular level, PEMF therapy provides a promising supportive treatment for managing the multifaceted challenges of MS.
Reduces Inflammation and Supports Nerve Function
PEMF therapy helps reduce the inflammation associated with MS, supporting nerve repair and improving signal conduction in damaged neurons. By modulating immune responses and reducing demyelination, PEMFs provide relief from the neurological symptoms of MS, including spasticity and motor dysfunction1-4.
1. Guseo A. Pulsing electromagnetic field therapy of multiple sclerosis by the Gyuling–Bordacs device: Double-blind, cross-over and open studies. J Bioelectr 1987; 6: 23–25.
2. Nielsen JF, Sinkjaer T and Jakobsen J. Treatment of spasticity with repetitive magnetic stimulation; a double-blind placebo-controlled study. Mult Scler 1996; 2: 227–232.
3. Sandyk R. Treatment with weak electromagnetic fields improves fatigue associated with multiple sclerosis. IntJ Neurosci. Feb;84: 177–186, 1996.
4. Zeitzer JM, Ayas NT, Shea SA, et al. Absence of detectable melatonin and preservation of cortisol and thyrotropin rhythms in tetraplegia. J Clin Endocrinol Metab. 2000 Jun;85(6):2189-96.
Alleviates Spasticity and Improves Mobility
Spasticity, or muscle stiffness, is a common and disabling symptom of MS. PEMF therapy has been shown to decrease muscle tension, enhance muscle strength, and improve gait and mobility. This reduction in spasticity helps patients perform daily activities with greater ease and independence1-3.
1. Guseo A. Pulsing electromagnetic field therapy of multiple sclerosis by the Gyuling–Bordacs device: Double-blind, cross-over and open studies. J Bioelectr 1987; 6: 23–25.
2. Nielsen JF, Sinkjaer T and Jakobsen J. Treatment of spasticity with repetitive magnetic stimulation; a double-blind placebo-controlled study. Mult Scler 1996; 2: 227–232.
3. Wieczorek V, Schock G. Our experience with the pulsing electromagnetic field therapy of neurologic diseases. Third Symposium on Magnetotherapy and Magnetic Stimulation, October 1989, Szekesfehervar, Hungary. J Bioelectr 1990; 9(2):242.
Reduces Fatigue and Enhances Cognitive Function
Fatigue is a pervasive issue for MS patients, significantly affecting their quality of life. PEMF therapy has demonstrated potential in alleviating MS-related fatigue by improving neurotransmitter levels and brain activity patterns. It also supports cognitive functions such as concentration and mental clarity, helping to counteract the cognitive decline seen in MS1-3.
1. Richards TL, Lappin MS, Acosta-Urquidi J, et al. Double-blind study of pulsing magnetic field effects on multiple sclerosis. J Altern Complement Med 1997; 3: 21–29.
2. Sandyk R. Treatment with weak electromagnetic fields improves fatigue associated with multiple sclerosis. IntJ Neurosci. Feb;84: 177–186, 1996.
3.Sieron A, Cieslar G, Zmudzinski J. The therapeutical effect of variable magnetic field in patients with multiple sclerosis (meeting abstract). European Bioelectromagnetics Assoc. (EBEA), 2nd Congress, 9-11 December, Bled, Slovenia, p. 39, 1993.
Improves Bladder Control and Urinary Function
Bladder dysfunction is a frequent complication in MS, leading to incontinence and other urinary issues. PEMF therapy improves bladder control by enhancing spinal nerve function, offering relief from these often embarrassing and restrictive symptoms1-3.
1. Centonze D, Petta F, Versace V, et al. Effects of motor cortex rTMS on lower urinary tract dysfunction in multiple sclerosis. Mult Scler. 2007 Mar;13(2):269-71.
2. Guseo A. Pulsing electromagnetic field therapy of multiple sclerosis by the Gyuling–Bordacs device: Double-blind, cross-over and open studies. J Bioelectr 1987; 6: 23–25.
3. Sandyk R. Resolution of sleep paralysis by weak electromagnetic fields in a patient with multiple sclerosis. Int J Neurosci. Aug;90(3-4):145-57, 1997.
Enhances Quality of Life and Mental Well-Being
Beyond physical symptoms, MS affects mental health, often leading to depression and anxiety. PEMF therapy has been found to improve emotional stability, reduce anxiety, and elevate overall mood, contributing to a better quality of life for MS patients1,2.
1. Brola W, Wegrzyn W, Czernicki J. Effect of variable magnetic field on motor impairment and quality of life in patients with multiple sclerosis. Wiad Lek. 2002;55(3-4):136-43.
2. Sieron A, Cieslar G, Zmudzinski J. The therapeutical effect of variable magnetic field in patients with multiple sclerosis (meeting abstract). European Bioelectromagnetics Assoc. (EBEA), 2nd Congress, 9-11 December, Bled, Slovenia, p. 39, 1993.
Supports Brain Health and Neuroplasticity
MS disrupts brain function and neuroplasticity, the brain’s ability to adapt and reorganise itself. PEMF therapy promotes neuroplasticity, enhancing the brain's capacity to repair and adjust to damage, thereby supporting cognitive function and reducing neurological decline1,2.
1. Heusser K, Tellschaft D, Thoss F. Influence of an alternating 3Hz magnetic field with an induction of 0.1 millitesla on chosen parameters of the human occipital EEG. Neurosci Lett 1997; 239: 57–60.
2. Richards TL, Lappin MS, Acosta-Urquidi J, et al. Double-blind study of pulsing magnetic field effects on multiple sclerosis. J Altern Complement Med 1997; 3: 21–29.
Reduces Dependency on Medications
Many MS patients rely on medications that can have side effects or limited effectiveness. PEMF therapy provides an additional, drug-free approach to symptom management, allowing for a reduction in medication use and associated side effects while still providing meaningful relief1.
1. Terlaki, G.; Gyorgy, B.; Payer, A. Clinical experiences by magnetotherapy. Hungarian Symposium on Magnetotherapy (with International Participation), 2nd symposium, 16-17 May, Szekesfehervar, Hungary, p. 175-179, 1987.
Effective for Both Relapsing/Remitting and Progressive MS
Research shows that PEMF therapy is beneficial across different types of MS, helping to manage symptoms during both relapsing/remitting and progressive phases of the disease. This versatility makes it a valuable part of a comprehensive treatment strategy for MS1,2.
1. Terlaki, G.; Gyorgy, B.; Payer, A. Clinical experiences by magnetotherapy. Hungarian Symposium on Magnetotherapy (with International Participation), 2nd symposium, 16-17 May, Szekesfehervar, Hungary, p. 175-179, 1987.
2. Wieczorek V, Schock G. Our experience with the pulsing electromagnetic field therapy of neurologic diseases. Third Symposium on Magnetotherapy and Magnetic Stimulation, October 1989, Szekesfehervar, Hungary. J Bioelectr 1990; 9(2):242.
Complementary to Conventional Treatments
While PEMF therapy is not a cure for MS, it works well alongside disease-modifying agents, physical therapies, and other conventional treatments1. By addressing additional aspects of the condition that standard therapies may not fully manage, PEMFs enhance the overall clinical outcomes for MS patients, supporting their daily function and well-being.
1. Sieron A, Cieslar G, Zmudzinski J. The therapeutical effect of variable magnetic field in patients with multiple sclerosis (meeting abstract). European Bioelectromagnetics Assoc. (EBEA), 2nd Congress, 9-11 December, Bled, Slovenia, p. 39, 1993.