Effective treatment of electromagnetic fields: A Synthesis of Findings from 17 Studies

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This page's analysis is based on PubMed data provided by the U.S. National Library of Medicine (NLM).

Original Abstract of the Article

Main Research Findings

Numerous studies have demonstrated the potential of electromagnetic fields in treating various ailments. For instance, 7 highlighted the influence of electromagnetic fields on cellular and biophysical systems, as well as on the human body. Furthermore, 9 showed promising results in using a combination of vacuum and electromagnetic fields for the regeneration of facial scars caused by acid attacks, improving both the appearance and function of the face and neck. Additionally, 15 suggests that transcranial pulsed electromagnetic field therapy can improve movement speed and increase cerebrospinal erythropoietin levels in Parkinson's disease patients. However, 2 concluded that, at present, the use of pulsating electromagnetic fields for treating orthopedic diseases is not scientifically proven.

Treatment Summary

Electromagnetic field therapy is being explored for a range of conditions, including fracture healing ( 1 ), Parkinson's disease ( 15 ), depression ( 13 ), cancer ( 6 ), brain tumors ( 11 ), multiple sclerosis ( 3 ), post-concussion syndrome ( 17 ), skin sagging and stretch marks ( 12 ), and shoulder pain ( 5 ). Notably, 7 highlighted the widespread use of electromagnetic field therapy in orthopedic conditions.

Benefits and Risks

Benefit Summary

Electromagnetic field therapy holds the potential to improve various conditions, including fracture healing ( 1 ), Parkinson's disease ( 15 ), depression ( 13 ), cancer ( 6 ), brain tumors ( 11 ), multiple sclerosis ( 3 ), post-concussion syndrome ( 17 ), skin sagging and stretch marks ( 12 ), and shoulder pain ( 5 ). 7 emphasized its widespread application in orthopedic treatments.

Risk Summary

While generally considered safe, electromagnetic field therapy has limitations. 13 found no antidepressant effects from low-intensity transcranial pulsed electromagnetic fields for treatment-resistant depression. Additionally, 2 concluded that the scientific evidence supporting the effectiveness of pulsating electromagnetic fields in orthopedic conditions is insufficient at present.

Comparison Across Studies

Similarities

Across numerous studies, electromagnetic field therapy shows promise for treating various conditions. 7 underlines its widespread application in orthopedic treatments.

Differences

The effectiveness of electromagnetic field therapy can vary depending on the condition and the specific treatment approach. 2 points to the need for more research on the effectiveness of pulsating electromagnetic fields for orthopedic conditions.

Consistency and Contradictions in Findings

The effectiveness of electromagnetic field therapy remains inconclusive. While some studies show positive outcomes, others suggest limited benefits or lack of effectiveness. For example, 2 highlighted the need for more conclusive evidence regarding the use of pulsating electromagnetic fields for orthopedic conditions.

Practical Considerations

Electromagnetic field therapy is a relatively new treatment approach. Further research is crucial to fully understand its effectiveness and safety. Before undergoing this therapy, consult with a healthcare professional to discuss potential risks and benefits.

Limitations of Current Research

The research on electromagnetic field therapy remains limited, requiring further exploration. Key areas for future investigation include understanding the mechanisms of action, identifying specific conditions and treatments where it is most effective, developing optimal treatment approaches, and thoroughly assessing safety.

Future Research Directions

Future research should focus on elucidating the mechanisms of action for electromagnetic field therapy, identifying effective conditions and treatment methods, developing optimal treatment approaches, and ensuring safety. Research on the combined effects of electromagnetic field therapy with other treatment modalities is also warranted.

Conclusion

Electromagnetic field therapy holds great promise as a treatment option for various conditions. However, more research is needed to fully understand its effectiveness and safety. Further research is crucial to establish this therapy as a reliable and effective treatment approach.

Treatment List

Fracture healing, Parkinson's disease, depression, cancer, brain tumors, multiple sclerosis, post-concussion syndrome, skin sagging and stretch marks, shoulder pain.

Literature analysis of 17 papers

Positive Content

Neutral Content

Negative Content

Article Type

Randomized Controlled Trial5

Meta-Analysis1

Systematic Review0

Review3

Journal Article17

A device for generation of electromagnetic fields of extremely low frequency.

Author: WahlströmO, KnutssonH

Significant differences in fracture treatment

This study tested a new device that generates low-frequency electromagnetic fields for treating bone fractures. The device produced a magnetic field of 4 Gauss at frequencies between 1 and 1000 Hz. A controlled study of patients with fresh fractures showed significant differences (p<0.01) between those treated with this device and those in the control group. These promising results warrant further research on this method for fracture healing.

Language : English

[Pulsating electromagnetic fields in treatment of injuries and illnesses of the locomotor system--an overview and meta-analysis].

Author: Schmidt-RohlfingB, SilnyJ, NiethardF U

Not scientifically proven

This study found that the use of pulsating electromagnetic fields in the treatment of orthopedic diseases is not scientifically proven.

Language : German

Effects of a pulsed electromagnetic therapy on multiple sclerosis fatigue and quality of life: a double-blind, placebo controlled trial.

Author: LappinMartha S, LawrieFraser Wilson, RichardsTodd L, KramerEric D

MS treatment

Pulsed electromagnetic fields show potential benefits in the treatment of multiple sclerosis (MS) based on a previous pilot study.

Language : English

Short-term effects of pulsed electromagnetic fields after physical exercise are dependent on autonomic tone before exposure.

Author: GroteV, LacknerH, KelzC, TrappM, AichingerF, PuffH, MoserM

Accelerated bone healing

Pain relief

This study investigated the immediate effects of pulsed electromagnetic field (PEMF) therapy on healthy individuals. Exposure to PEMFs after physical exertion significantly affected heart rate variability (HRV), a measure of the autonomic nervous system. Lower-intensity PEMFs led to faster recovery after exercise, and those with lower baseline HRV showed quicker recovery with higher-intensity fields. The effects were short-lived and didn't impact overall well-being. This suggests that PEMF therapy may have a temporary, dose-dependent effect on heart rate regulation.

Language : English

[The new magnetic therapy TAMMEF in the treatment of simple shoulder pain].

Author: BattistiE, BianciardiL, AlbaneseA, PiazzaE, RigatoM, GalassiG, GiordanoN

Pain treatment

This study examines the effects of a specific type of electromagnetic field therapy (TAMMEF) on pain. Previous research has shown that low-frequency electromagnetic fields can be effective in pain management, but the study emphasizes the importance of the specific settings (frequency, intensity, and waveform) used. The TAMMEF system utilizes a music-based signal to control the electromagnetic field, creating a constantly changing combination of settings. The study aims to assess the effectiveness of this dynamic, music-modulated approach to pain treatment.

Language : Italian

Improving the Efficacy of Magnetic Nanoparticle-Mediated Hyperthermia Using Trapezoidal Pulsed Electromagnetic Fields as an In Vitro Anticancer Treatment in Melanoma and Glioblastoma Multiforme Cell Lines.

Author: SouiadeLilia, Domingo-DiezJavier, AlcaideCesar, GámezBerta, GámezLinarejos, RamosMilagros, Serrano OlmedoJosé Javier

Enhanced MHT efficiency

Increased cancer cell death

This study investigates the potential of trapezoidal pulsed alternating magnetic fields (TPAMFs) to enhance the efficiency of magnetic hyperthermia (MHT) treatment compared to sinusoidal waveforms in killing cancer cells.

Language : English

Pulsed Electromagnetic Fields (PEMF)-Physiological Response and Its Potential in Trauma Treatment.

Author: FlatscherJonas, Pavez LorièElizabeth, MittermayrRainer, MeznikPaul, SlezakPaul, RedlHeinz, SlezakCyrill

Trauma recovery

Pulsed electromagnetic fields (PEMF) are a non-invasive treatment modality that has been shown to have positive effects on various biological processes. This review summarizes the vast body of research on PEMF, highlighting its potential benefits and emphasizing the need for standardized reporting parameters to improve our understanding of its mechanisms of action.

Language : English

Exposure to Low Levels of Radiofrequency Electromagnetic Fields Emitted from Cell-phones as a Promising Treatment of Alzheimer's Disease: A Scoping Review Study.

Author: ShirbandiKiarash, KhalafiMohammad, J BevelacquaJoseph, SadeghianNajmeh, AdibanSaina, Bahaeddini ZarandiFaegheh, MortazaviSeyed Alireza, MortazaviSeyedeh Haniyeh, MortazaviSeyed Mohammad Javad, S WelshJames

Reduced risk of AD

Exposure to low levels of radiofrequency electromagnetic fields (RF-EMFs) from cellphones may reduce the risk of Alzheimer's disease (AD) by increasing mitogen-activated protein kinases (MAPKs) and glial fibrillary acidic protein (GFAP) while decreasing myelin basic protein (MBP). Further research is needed to fully understand the effects of RF-EMFs on the progression of AD.

Language : English

Vacuum and Electromagnetic Fields Treatment to Regenerate a Diffuse Mature Facial Scar Caused by Sulfuric Acid Assault.

Author: VeroneseSheila, BrunettiBruno, MinichinoAnna Maria, SbarbatiAndrea

Improved facial function

Tissue regeneration

A new treatment combining vacuum and electromagnetic fields showed promise in improving the aesthetic and functional aspects of mature acid facial scars, suggesting potential for tissue regeneration.

Language : English

10.

Low-energy amplitude-modulated radiofrequency electromagnetic fields as a systemic treatment for cancer: Review and proposed mechanisms of action.

Author: TuszynskiJack A, CostaFrederico

Enhanced overall survival

Inhibited tumor growth

Somnolence

LEAMRFEMF, a new treatment option for advanced hepatocellular carcinoma (AHCC), uses low-energy amplitude-modulated radiofrequency electromagnetic fields to inhibit tumor growth. The technology uses patient-specific frequencies to disrupt cell division and mitochondrial trafficking, potentially shifting cancer cell metabolism away from aberrant glycolysis. In uncontrolled clinical trials, LEAMRFEMF showed enhanced overall survival in treated patients compared to historical controls. Mild transient somnolence was the only reported adverse event.

Language : English

11.

An implantable ultrasound-powered device for the treatment of brain cancer using electromagnetic fields.

Author: YangYilin, HuXiaoping, LiuYuxin, OuyangBin, ZhangJiaxi, JinHuawei, YuZhenhua, LiuRuiwei, LiZhe, JiangLelun, LinXudong, XuBingzhe

Brain tumor treatment

Inhibition of recurrence

Safe treatment

Brain tumors are difficult to treat. This study presents a new ultrasound-powered tumor treating device (UP-TTD) that safely inhibits brain cancer recurrence by disrupting the division of cancer cells. The UP-TTD showed significant therapeutic effects in vitro and in vivo, reducing tumor growth and area.

Language : English

12.

A New Treatment for Stretch Marks and Skin Ptosis with Electromagnetic Fields and Negative Pressure: A Clinical and Histological Study.

Author: ScaranoAntonio, SbarbatiAndrea, AmoreRoberto, IorioEugenio L, FerraroGiuseppe, LorussoFelice, AmusoDomenico

SM treatment

V-EMF effectiveness

This study evaluated the effects of electromagnetic fields and negative pressure (V-EMF) treatment on the histological structure of the skin in individuals with hypotonia and stretch marks (SMs). The treatment showed potential benefits in improving the quality and quantity of the extracellular matrix and collagen and elastic fibers in the skin.

Language : English

13.

No antidepressant effects of low intensity transcranial pulsed electromagnetic fields for treatment resistant depression.

Author: van BelkumSjoerd M, de BoerMarrit K, OpmeerEsther M, KortekaasRudie, MulderTim, WooningsFrank, HoendersH J Rogier, KamphuisHans, AlemanAndré, SchoeversRobert A

Treatment resistant depression treatment

This study aimed to investigate the short- and long-term efficacy of transcranial pulsed electromagnetic fields (tPEMF) in participants with treatment-resistant depression (TRD). tPEMF is a noninvasive neurostimulation method that has shown promise in treating TRD, but long-term efficacy remains unknown. This study is designed to assess the effectiveness of tPEMF in both the short-term and long-term.

Language : English

14.

[Pathophysiological mechanisms of the therapeutic action of alternating electromagnetic fields in the treatment of osteoarticular pathology].

Author: AlekseevaL I, ByalovskyYu Yu, ZagorodnyN V, IvanovaG E, KarateevD E, KonchugovaT V, RakitinaI S, StrakhovM A

Osteoarticular pathology treatment

This review discusses the use of alternating electromagnetic fields (AEMF) for treating musculoskeletal conditions. AEMF is a non-invasive treatment that uses magnetic fields. Studies show that AEMF can stimulate bone and cartilage regeneration. The review describes the mechanisms by which AEMF works and discusses its potential benefits for treating bone and joint conditions.

Language : Russian

15.

Long-term treatment with transcranial pulsed electromagnetic fields improves movement speed and elevates cerebrospinal erythropoietin in Parkinson's disease.

Author: JensenBente Rona, MallingAnne Sofie Bøgh, SchmidtSissel Ida, MeyerMorten, MorbergBo Mohr, WermuthLene

Parkinson's disease

Daily transcranial stimulation with bipolar pulsed electromagnetic fields for eight weeks improved functional rate of force development and decreased inter-hand tremor coherence in patients with mild Parkinson's disease.

Language : English

16.

Effects of electromagnetic fields treatment on rat critical-sized calvarial defects with a 3D-printed composite scaffold.

Author: TuChang, ChenJingyuan, HuangChunwei, XiaoYifan, TangXiangyu, LiHao, MaYongzhuang, YanJiyuan, LiWeigang, WuHua, LiuChaoxu

Craniofacial regeneration

Combining 3D-printed scaffolds with electromagnetic fields (EMF) could be a promising approach for craniofacial regeneration. In this study, PLA/HA composite scaffolds seeded with rat bone marrow mesenchymal stem cells (BMSCs) were implanted into critical-sized calvarial defects in rats with or without EMF treatment. EMF treatment enhanced the proliferation and osteogenic differentiation of BMSCs, leading to significantly higher new bone formation and vascularization compared to scaffold alone.

Language : English

17.

Transcranial low-frequency pulsating electromagnetic fields (T-PEMF) as post-concussion syndrome treatment.

Author: MillerClaire Prener, PrenerMartin, DissingSteen, PaulsonOlaf B

TBI symptom management

Transcranial pulsating low-frequency electromagnetic stimulation (T-PEMF) shows promise in treating long-lasting symptoms after mild traumatic brain injury. T-PEMF has been studied in other patient groups with positive results, showing potential neuroprotective and anti-inflammatory effects.

Language : English

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