Articles de revues : « Electromagnetic therapy »

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Barker, A. T. « Electromagnetic therapy ». Journal of Biomedical Engineering 12, n^o 1 (janvier 1990) : 85. http://dx.doi.org/10.1016/0141-5425(90)90121-3.

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Lightwood, R. « Electromagnetic therapy ». Journal of Biomedical Engineering 12, n^o 1 (janvier 1990) : 85–86. http://dx.doi.org/10.1016/0141-5425(90)90122-4.

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Markov, Marko S., et Agata P. Colbert. « Magnetic and electromagnetic field therapy ». Journal of Back and Musculoskeletal Rehabilitation 15, n^o 1 (1 juillet 2000) : 17–29. http://dx.doi.org/10.3233/bmr-2000-15103.

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KITAGAWA, Fumio. « Dovelopment of Pulsed Electromagnetic Therapy ». Journal of the Society of Mechanical Engineers 94, n^o 876 (1991) : 940–42. http://dx.doi.org/10.1299/jsmemag.94.876_940.

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Lightwood, Ray. « Electromagnetic therapy : science or quackery ? » Journal of Biomedical Engineering 11, n^o 4 (juillet 1989) : 352. http://dx.doi.org/10.1016/0141-5425(89)90072-1.

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Mclntosh, Jeanne. « Electromagnetic Energy Exonerated ». Physiotherapy 80, n^o 4 (avril 1994) : 266. http://dx.doi.org/10.1016/s0031-9406(10)61322-3.

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Low, JL. « Pulsed Electromagnetic Fields ». Physiotherapy 89, n^o 1 (janvier 2003) : 71. http://dx.doi.org/10.1016/s0031-9406(05)60689-x.

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George, Mark S. « Current state of electromagnetic neuromodulation therapy ». Brain Stimulation 14, n^o 6 (novembre 2021) : 1735. http://dx.doi.org/10.1016/j.brs.2021.10.487.

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DiLazzaro, Vincenzo. « Cellular mechanisms of electromagnetic neuromodulation therapy ». Brain Stimulation 14, n^o 6 (novembre 2021) : 1734. http://dx.doi.org/10.1016/j.brs.2021.10.485.

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Goats, G. C. « Pulsed electromagnetic (short-wave) energy therapy. » British Journal of Sports Medicine 23, n^o 4 (1 décembre 1989) : 213–16. http://dx.doi.org/10.1136/bjsm.23.4.213.

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Barker, Anthony T. « Nonionising electromagnetic therapy : Fact or Fantasy ? » Physics Bulletin 36, n^o 6 (juin 1985) : 251–53. http://dx.doi.org/10.1088/0031-9112/36/6/020.

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Gordon, Glen A. « Designed electromagnetic pulsed therapy : Clinical applications ». Journal of Cellular Physiology 212, n^o 3 (2007) : 579–82. http://dx.doi.org/10.1002/jcp.21025.

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Gordon, Glen A. « Designed electromagnetic pulsed therapy : Clinical applications ». Journal of Cellular Physiology 216, n^o 3 (septembre 2008) : 851. http://dx.doi.org/10.1002/jcp.21527.

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Madduri, Bala, Avnika Singh Anand, Himani Kohli, Manan Oza, Satish Chauhan, Mr Amitabh, Ekta Kohli et Sanjeev Kumar Sharma. « Advances in Electromagnetic Therapy for Wound Healing ». Defence Life Science Journal 3, n^o 3 (25 juin 2018) : 293. http://dx.doi.org/10.14429/dlsj.3.12032.

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<p>Understanding the molecular basis of wound healing and tissue regeneration continues to remain as one of the major challenges in modern medicine. There is absolute necessity to unveil the rather elusive mechanism with a special emphasis on the approaches to accelerate wound healing. Low frequency low intensity Pulsed electromagnetic therapy is evidenced to have a significant impact on wound repair and regeneration. It provides a non-invasive reparative technique to treat an injury. <em>In vitro </em>studies reported a significant effect of electromagnetic field on neovascularisation and angiogenesis. There are also many pieces of evidence which support its efficiency in reducing the duration of wound healing and improving the tensile strength of scars. Here, we compared the traditional stigma associated with pulsed electromagnetic fields and weighed them with its potential therapeutic effect on wound healing. Furthermore, we emphasized the need for more focused research to determine the therapeutic strategies and optimised parameters of pulsed electromagnetic field that can assure efficient wound healing and regeneration. </p>

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Abbosh, Amin. « Electromagnetic Medical Sensing ». Sensors 19, n^o 7 (8 avril 2019) : 1662. http://dx.doi.org/10.3390/s19071662.

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Bhandari, Chirag, et Trilok Mahajan. « Pulsed Electromagnetic Stimulation Therapy for Erectile Dysfunction ». Urology and Andrology – Open Journal 5, n^o 1 (31 décembre 2021) : 7–9. http://dx.doi.org/10.17140/uaoj-5-137.

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Erectile dysfunction (ED) is a significant and common medical problem. Currently, there are several treatment available options for patients with ED, both non-invasive and invasive like phosphodiesterase 5 inhibitors, intra-cavernosal injections (BIMIX,TRIMIX), intraurethral prostaglandin E1 pellets, vacuum erection devices and insertion of a penile prosthesis. Most of these options are invasive, which can be troublesome for patients, and also have side-effect profiles. Pulsed-electro magnetic stimulation therapy (PLMST) has gained interest in the field of sexual medicine. In the given case author presented a successful effect of in a case of erectile dysfunction.

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Joshi, Narahari, et Araque Haydeé. « Electromagnetic Fields and Torticollis Therapy With Electroacupuncture ». Medical Acupuncture 22, n^o 2 (juin 2010) : 111–15. http://dx.doi.org/10.1089/acu.2010.0742.

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Gaynor, James S., Sean Hagberg et Blake T. Gurfein. « Veterinary applications of pulsed electromagnetic field therapy ». Research in Veterinary Science 119 (août 2018) : 1–8. http://dx.doi.org/10.1016/j.rvsc.2018.05.005.

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Cameron, Ivan L., Nicholas J. Short et Marko S. Markov. « Safe alternative cancer therapy using electromagnetic fields ». Environmentalist 27, n^o 4 (3 septembre 2007) : 453–56. http://dx.doi.org/10.1007/s10669-007-9075-y.

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McKinney, P. W. « Pulsed Electromagnetic Field Therapy in Plastic Surgery ». Yearbook of Plastic and Aesthetic Surgery 2007 (janvier 2007) : 134–36. http://dx.doi.org/10.1016/s1535-1513(08)70128-0.

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KINNEY, B. « Pulsed electromagnetic field therapy in plastic surgery ». Aesthetic Surgery Journal 25, n^o 1 (janvier 2005) : 87–91. http://dx.doi.org/10.1016/j.asj.2004.12.001.

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Kozar, Valentyn Ivanovich, Volodymyr Serhiiovych Bakhariev, Nadiia Pavlіvna Halchenko et Yevhen Viktorovych Dorozhko. « CONCEPTUAL MODELING OF THE DATABASE OF GIS MONITORING OF ELECTROMAGNETIC POLLUTION OF SETTLEMENTS ». Collection of Scientific Works of the Ukrainian State University of Railway Transport, n^o 202 (22 décembre 2022) : 36–48. http://dx.doi.org/10.18664/1994-7852.202.2022.273613.

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The article presents the results of conceptual modeling of the geospatial database for monitoring electromagnetic pollution of settlements. Recently, the world has seen a rapid increase in the number of sources and the level of electromagnetic radiation. This can negatively affect people's health and their environment. The analysis of the publications showed that today researchers have formed a theoretical base for assessing the impact of electromagnetic radiation on people and the environment, developed models of the propagation of electromagnetic waves, ways and methods of protection against their harmful effects. However, not enough attention has been paid to monitoring the electromagnetic pollution of settlements. Systematic measurements of electromagnetic field levels are carried out only by individual EU countries Systematic control of this type of pollution is not carried out in Ukraine, there are no regulatory documents regarding the procedure for its monitoring, but the maximum permissible levels of electromagnetic fields for the population are established. Data on the distribution of electromagnetic fields are interdisciplinary in nature and necessarily contain an indication of the location of objects. For their effective processing, it is advisable to use geo-information technologies. Based on the results of the analysis of the subject area of electromagnetic pollution monitoring, a conceptual data model was developed. It is described using UML tools. The model contains two sets of data. The basic set of geospatial data includes information about buildings of various purposes, land plots, streets, highways, railways, engineering communications, relief, soils, hydrography, territory zoning, facility addresses. The profile set includes data on electromagnetic radiation sources and their sanitary protection zones, control points, the results of calculations and measurements of radiation parameters, the relative level of electromagnetic fields and the building restriction zones. The proposed model can be the basis of the physical modeling of the settlement's electromagnetic pollution monitoring system.

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Penialosa Ovalies, D. I., O. V. Boiprav, M. V. Tumilovich, A. V. Gusinsky et P. I. Baltrukovich. « Substantiation of the Possibility to Use the Electromagnetic Shields Based on Powdered Aluminum Oxides to Reduce the Electromagnetic Radiation Energy of Electronic Devices ». Doklady BGUIR 20, n^o 7 (10 décembre 2022) : 48–55. http://dx.doi.org/10.35596/1729-7648-2022-20-7-48-55.

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The article introduces the results of the experimental substantiation of the possibility to use the electromagnetic shields based on powdered aluminum oxides to reduce the electromagnetic radiation energy introduced by electronic devices. To achieve this goal, a methodology has been developed for assessing the effect of materials on the electromagnetic radiation level of electronic devices, and a methodology for estimating the radius of the controlled zone of the secondary electromagnetic radiation of computer equipment has been systematized. In accordance with the indicated methods, the study has been carried out, based on the results of which it was determined that electromagnetic shields containing the composite coating based on powdered aluminum oxides and iron oxide provide suppression of the electromagnetic radiation energy of electronic devices, as well as a reduction of up to 2 times the radius of the controlled zone of the secondary electromagnetic radiation of computer equipment. Recommendations for the practical application of the composite coatings based on the powdered alumina and iron oxide have been developed. In accordance with these recommendations, such coatings can be used in the process of manufacturing or improving the technical and functional properties of electromagnetic shields designed to ensure the electromagnetic compatibility of electronic devices, as well as to solve problems related to the information security.

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Jankauskienė, J., A. Paunksnis, A. Blužienė et J. Saulgozis. « The Effect of Pulsed Electromagnetic Field on Patients with Endocrine Ophthalmopathy ». European Journal of Ophthalmology 8, n^o 4 (octobre 1998) : 253–57. http://dx.doi.org/10.1177/112067219800800409.

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Purpose To evaluate eye signs, proptosis and ocular movements in patients with endocrine ophthalmopathy under the influence of pulsed electromagnetic field therapy. Methods We examined 14 patients (9 women, 5 men) with endocrine ophthalmopathy and evaluated eye signs, proptosis and ocular movements before and after the course of pulsed electromagnetic field therapy, and 12 controls. Their age ranged from 29 to 57 years. Visual sensitivity was investigated with a static automatic perimeter (Allergan Humphrey Field Analyzer). The score was calculated by rating the severity of involvement of soft tissue, proptosis, extraocular movements, corneal state and optic nerve function on a scale from 0 to 3. The pulsed electromagnetic field procedures were carried out with the help of electromagnetic spectacles. Results Pulsed electromagnetic field therapy reduced the score for soft tissue and proptosis in patients who suffered from endocrine ophthalmopathy. There was fall in the mean score for ocular movements, corneal and optic nerve function but it did not reach significance after treatment. Electromagnetic field therapy has no useful effect on visual signs and eye movements in two patients who had had the illness more than two years. Conclusions Localised pulsed electromagnetic field procedures can be recommended, together with other methods of conservative treatment of endocrine ophthalmopathy.

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Schulman, Peter M., Miriam M. Treggiari, N. David Yanez, Charles A. Henrikson, Peter M. Jessel, Thomas A. Dewland, Matthias J. Merkel et al. « Electromagnetic Interference with Protocolized Electrosurgery Dispersive Electrode Positioning in Patients with Implantable Cardioverter Defibrillators ». Anesthesiology 130, n^o 4 (1 avril 2019) : 530–40. http://dx.doi.org/10.1097/aln.0000000000002571.

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Abstract Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New Background The goal of this study was to determine the occurrence of intraoperative electromagnetic interference from monopolar electrosurgery in patients with an implantable cardioverter defibrillator undergoing surgery. A protocolized approach was used to position the dispersive electrode. Methods This was a prospective cohort study including 144 patients with implantable cardioverter defibrillators undergoing surgery between May 2012 and September 2016 at an academic medical center. The primary objectives were to determine the occurrences of electromagnetic interference and clinically meaningful electromagnetic interference (interference that would have resulted in delivery of inappropriate antitachycardia therapy had the antitachycardia therapy not been programmed off) in noncardiac surgeries above the umbilicus, noncardiac surgeries at or below the umbilicus, and cardiac surgeries with the use of an underbody dispersive electrode. Results The risks of electromagnetic interference and clinically meaningful electromagnetic interference were 14 of 70 (20%) and 5 of 70 (7%) in above-the-umbilicus surgery, 1 of 40 (2.5%) and 0 of 40 (0%) in below-the-umbilicus surgery, and 23 of 34 (68%) and 10 of 34 (29%) in cardiac surgery. Had conservative programming strategies intended to reduce the risk of inappropriate antitachycardia therapy been employed, the occurrence of clinically meaningful electromagnetic interference would have been 2 of 70 (2.9%) in above-the-umbilicus surgery and 3 of 34 (8.8%) in cardiac surgery. Conclusions Despite protocolized dispersive electrode positioning, the risks of electromagnetic interference and clinically meaningful electromagnetic interference with surgery above the umbilicus were high, supporting published recommendations to suspend antitachycardia therapy whenever monopolar electrosurgery is used above the umbilicus. For surgery below the umbilicus, these risks were negligible, implying that suspending antitachycardia therapy is likely unnecessary in these patients. For cardiac surgery, the risks of electromagnetic interference and clinically meaningful electromagnetic interference with an underbody dispersive electrode were high. Conservative programming strategies would not have eliminated the risk of clinically meaningful electromagnetic interference in either noncardiac surgery above the umbilicus or cardiac surgery.

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Pramesuari, Florentina D. « ARTIFICIAL INTELLIGENCE IN DETECTING ATHEROSCLEROSIS PLAQUES AND ELECTROMAGNETIC THERAPY TO ALTER CHOLESTEROL LEVEL ». Journal of Widya Medika Junior 4, n^o 4 (octobre 2022) : 216–20. http://dx.doi.org/10.33508/jwmj.v4i4.4334.

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Introduction: Artificial Intelligence (AI) application in healthcare fields include matching patient symptoms to appropriate physician, helped to diagnose patients, determine patient’s prognosis, drug discovery, translating languages, and organize data. AI technology used in analysis and diagnosing coronary atherosclerotic plaques has increased annually. There are studies suggested that extremely low-frequency electromagnetic fields exposure can affect lipid metabolism. Purpose: To use applied AI in a device that can both identifying atherosclerosis in blood vessel and treat with low-frequency electromagnetic wave. Method: Experiments carried out using a device to detect and treat blockage of blood vessels by emitting electromagnetic signals. This tool is an AI breakthrough that not only includes a diagnostic function, but can also perform electromagnetic therapy. Result: Previous studies mentioned that AI can be applied to identify atherosclerosis. There are some studies that states low-frequency electromagnetic waves can alter HDL and cholesterol levels in blood. Larger studies are needed to combine both function in identify atherosclerosis plaques and electromagnetic therapy. Conclusion: Rapidly developing AI technology can be applied to identify atherosclerosis plaque and treat them. Further studies are required to provide definitive proof of electromagnetic wave effects on the removal of cholesterol from plaques using thermal effects or raising HDL concentrations in blood.

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Orel, V. E., M. O. Nikolov, I. I. Dyatkovskaya, A. V. Romanov, N. M. Dzyatkovska, O. YU Yaroshenko et A. V. Makarenko. « Radiofrequency antitumor therapy of animals with Walker-256 carcinosarcoma ». Electronics and Communications 16, n^o 2 (28 mars 2011) : 110–14. http://dx.doi.org/10.20535/2312-1807.2011.16.2.268265.

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The greatest tumor growth inhibition was observed for animals with Walker carcinosarcoma 256 after radiofrequency antitumoral therapy by spatially inhomogeneous electromagnetic field with officinal preparation doxorubicin. According to the scintigraphic studies spatially inhomogeneous electromagnetic field increased blood flow throughout the body and tumor animal, enabling locally visualize nanocomposite Fe3O4 nanoparticles with KCI and radiopharmaceutical in Walker-256 carcinosarcoma.

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Abd-Elrashid, Nesrien A., Ahmed S. Ahmed et Ahmed M.Kenawy. « EFFECTS OF PULSED ELECTROMAGNETIC FIELD VERSUS LOW LEVEL LASER THERAPY ON COLONY COUNT ON VENOUS ULCERATION ». International Journal of Physiotherapy and Research 5, n^o 6 (11 novembre 2017) : 2471–76. http://dx.doi.org/10.16965/ijpr.2017.230.

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Celan, D., et M. Trlep. « Electromagnetic Field Parameters in Different Magnetic Therapy Devices ». Journal of Magnetics 24, n^o 2 (30 juin 2019) : 294–302. http://dx.doi.org/10.4283/jmag.2019.24.2.294.

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Prusinski, A., J. Wielka et A. Durko. « Pulsating Electromagnetic Field in the Therapy of Headache ». Journal of Bioelectricity 7, n^o 1 (janvier 1988) : 127–28. http://dx.doi.org/10.3109/15368378809016186.

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Habash, Riadh W. Y., Rajeev Bansal, Daniel Krewski et Hafid T. Alhafid. « Thermal Therapy, Part IV : Electromagnetic and Thermal Dosimetry ». Critical Reviews™ in Biomedical Engineering 35, n^o 1-2 (2007) : 123–82. http://dx.doi.org/10.1615/critrevbiomedeng.v35.i1-2.30.

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Usichenko, Taras I., Hardy Edinger, Vasyl V. Gizhko, Christian Lehmann, Michael Wendt et Frank Feyerherd. « Low-Intensity Electromagnetic Millimeter Waves for Pain Therapy ». Evidence-Based Complementary and Alternative Medicine 3, n^o 2 (2006) : 201–7. http://dx.doi.org/10.1093/ecam/nel012.

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Millimeter wave therapy (MWT), a non-invasive complementary therapeutic technique is claimed to possess analgesic properties. We reviewed the clinical studies describing the pain-relief effect of MWT. Medline-based search according to review criteria and evaluation of methodological quality of the retrieved studies was performed. Of 13 studies, 9 of them were randomized controlled trials (RCTs), only three studies yielded more than 3 points on the Oxford scale of methodological quality of RCTs. MWT was reported to be effective in the treatment of headache, arthritic, neuropathic and acute postoperative pain. The rapid onset of pain relief during MWT lasting hours to days after, remote to the site of exposure (acupuncture points), was the most characteristic feature in MWT application for pain relief. The most commonly used parameters of MWT were the MW frequencies between 30 and 70 GHz and power density up to 10 mW cm−2. The promising results from pilot case series studies and small-size RCTs for analgesic/hypoalgesic effects of MWT should be verified in large-scale RCTs on the effectiveness of this treatment method.

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Sutbeyaz, Serap Tomruk, Nebahat Sezer, Fusun Koseoglu et Sibel Kibar. « Low-frequency Pulsed Electromagnetic Field Therapy in Fibromyalgia ». Clinical Journal of Pain 25, n^o 8 (octobre 2009) : 722–28. http://dx.doi.org/10.1097/ajp.0b013e3181a68a6c.

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Boyko, N. I., I. A. Safronov et L. D. Tondii. « ASHEMIT : A device for wideband electromagnetic pulse therapy ». Instruments and Experimental Techniques 43, n^o 5 (septembre 2000) : 675–82. http://dx.doi.org/10.1007/bf02759082.

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ZOHRE, REZAEE, YADOLLAHPOUR ALI, JALILIFAR MOSTAFA et RASHIDI SAMANEH. « Nondrug Antimicrobial Techniques : Electromagnetic Fields and Photodynamic Therapy ». Biomedical and Pharmacology Journal 8, SEMAR (30 mars 2015) : 147–55. http://dx.doi.org/10.13005/bpj/571.

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González, Dr Jesús M. González. « Helical Hyperbolic Magnetic Field in Nerves, when they Act as Current Conductors ». Global Academic Journal of Medical Sciences 4, n^o 6 (20 décembre 2022) : 286–92. http://dx.doi.org/10.36348/gajms.2022.v04i06.009.

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Knowledge of the magnetic field of a nerve is of interest for the application of external electromagnetic therapy to regenerate injured nerves. The aim of this work is to the theoretical study of the magnetic field generated in the nerves when they act as current conductors and thus determine how their hyperbolic curves are, within the concept of hyperbolic medicine. Using Internet search engines and various databases (Medline, Google Scholar, Researchgate, Scielo), a bibliographic review of scientific papers related to the electromagnetic field generated in the nerves, when they act as current conductors, has been carried out. For this work we use, theoretically, the right-hand rule in electromagnetism. So, we apply it to a model nerve, to determine what its hyperbolic magnetic field is like. The conclusions are: a) Hyperbolic curves are very common in nature and human physiology. The lines of force of an electromagnetic field act on human physiology through hyperbolic curves. b) Human physiology and a nerve can be divided into smaller fragments like a magnet do and maintain their same characteristics. c) A nerve fragment is a conducting wire of electric current that generates a transversal magnetic field, according to the right-hand rule in electromagnetism. That magnetic field has hyperbolic lines of force that follow a counterclockwise helical path.

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Mcdowell, AD, et MJ Lunt. « Electromagnetic Field Strength Measurements on Megapulse Units ». Physiotherapy 77, n^o 12 (décembre 1991) : 805–9. http://dx.doi.org/10.1016/s0031-9406(10)61910-4.

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Nguyen, J. van, et R. Marks. « Pulsed Electromagnetic Fields for Treating Osteo-arthritis ». Physiotherapy 88, n^o 8 (août 2002) : 458–70. http://dx.doi.org/10.1016/s0031-9406(05)60848-6.

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Shields, Nora, John Gormley et Neil O'Hare. « Physiotherapist's perception of risk from electromagnetic fields ». Advances in Physiotherapy 7, n^o 4 (janvier 2005) : 170–75. http://dx.doi.org/10.1080/14038190500431834.

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Bachl, Norbert, Gerhard Ruoff, Barbara Wessner et Harald Tschan. « Electromagnetic Interventions in Musculoskeletal Disorders ». Clinics in Sports Medicine 27, n^o 1 (janvier 2008) : 87–105. http://dx.doi.org/10.1016/j.csm.2007.10.006.

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R, Leclaire, et Bourgouin J. « Electromagnetic treatment of shoulder periarthritis ». Clinical Journal of Sport Medicine 1, n^o 3 (juillet 1991) : 213. http://dx.doi.org/10.1097/00042752-199107000-00020.

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Byalovsky, Yuri Yu, Aleksey V. Ivanov et Irina S. Rakitina. « Effects of a pulsed electromagnetic field on the course of osteoporosis in postmenopausal women ». Russian Journal of Physiotherapy, Balneology and Rehabilitation 20, n^o 5 (25 août 2022) : 385–95. http://dx.doi.org/10.17816/rjpbr107453.

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BACKGROUND: Pulsed electromagnetic field therapy is non-invasive, pain-relieving and preventing bone loss in osteoporosis. This study analyzes the effects of rehabilitation of postmenopausal women after spinal fracture after treatment with a pulsed electromagnetic field. AIM: is to analyze the effect of pulsed electromagnetic field on fractures and osteoporosis after spinal fracture surgery. MATERIAL AND METHODS: A randomized controlled trial was conducted, respectively, in the pulsed electromagnetic field treatment group (40 cases) and the control group (42 cases), respectively. The results of the assessment of health-related quality of life (HRQOL), back pain, body function, hip bone density at 1 month and 3 months after surgery were studied. RESULTS: Compared with the control group, the pulsed electromagnetic field treatment group can significantly improve the psychological score, the 6-minute walk test, and the sitting position in a chair one month after surgery. And 3 months after surgery, the pulsed electromagnetic field treatment group can significantly improve health-related quality of life (HRQOL), back pain, and body function scores. CONCLUSION: Pulsed electromagnetic field therapy has a positive effect on pain relief, functional changes in the body and bone loss after spinal fracture surgery.

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Tomska, Natalia, Agnieszka Turoń-Skrzypińska, Aleksandra Szylińska, Aleksandra Rył, Agnieszka Lubińska-Gruszka, Hanna Mosiejczuk et Iwona Rotter. « Deep Electromagnetic Stimulation and Radial Shock Wave Therapy in Back Pain ». Ortopedia Traumatologia Rehabilitacja 20, n^o 3 (12 juin 2018) : 189–95. http://dx.doi.org/10.5604/01.3001.0012.0943.

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Background. Pain significantly decreases the quality of life. The treatment of back pain relies heavily on comprehensive rehabilitation. This study compared the effectiveness of deep electromagnetic stimulation and radial shock wave therapy in the opinion of patients with back pain of various aetiology. Material and methods. The study group consisted of 73 subjects, of whom 36 patients underwent radial shock wave therapy and 37 patients underwent deep electromagnetic stimulation. All patients had a diagnosis of discopathy or osteoarthritis in the cervical or lumbar spine. Data were collected by means of an original anonymous questionnaire. Results. Both groups demonstrated a reduction in pain intensity after a series of their respective treatments (p=0.03). There were no statistically significant differences in pain intensity between the groups directly on completion of the treatment (p=0.227) and at 2 weeks (p=0.058) and 1 month after the treatment (p=0.084). Conclusion. Deep electromagnetic stimulation and radial shock wave therapy provide similarly satisfactory analgesic outcomes in patients with back pain.

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Mordachev, V. I. « Characteristics of the electromagnetic environment created by radiations of user equipment of ...4G/5G/6G cellular (mobile) communications in buildings ». Doklady BGUIR 19, n^o 6 (1 octobre 2021) : 42–50. http://dx.doi.org/10.35596/1729-7648-2021-19-6-42-50.

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The goal of the work is to substantiate the technique for assessing the intensity of electromagnetic background generated by the set of radiating user devices of mobile communications in multi-storey buildings. For known empirical models of radio wave propagation in buildings, expressions are obtained for the probability distribution density and expectation of the power flux density of electromagnetic fields generated inside building by these sources from various parts of the building's interior space: from the near zone with radio wave propagation conditions similar to free space; and from the far zone, for which, along with intense attenuation of radio waves due to internal obstacles, a «quasi-waveguide» propagation of radio waves along corridors and industrial premises is also possible in certain directions. Relationships are obtained for the average levels of individual components of the electromagnetic background, determined as scalar sums of power flux density values of the fields generated by the sets of radiating devices of both the near zone and the far zone as a whole or its individual parts, characterized by different conditions of radio wave propagation. A method is proposed for assessing the electromagnetic background inside buildings based on approximation of sections of the inner surface of the premises in which the observation point is located, and the outer surface of the building, in the inner space of which radiation sources are randomly distributed, by the corresponding sections of the inner and outer spherical surfaces that are the subtend areas of the corresponding solid angles, in space elements of which a different spatial densities and radiation powers of sources and different conditions of radio wave propagation are possible. The results can be used to analyze the electromagnetic ecology of habitat and the electromagnetic safety of population at the full-scale implementation of 4G/5G/6G mobile communications, as well as to analyze the electromagnetic compatibility of systems using frequency bands for mobile communications on a primary and secondary basis.

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Yeung, Sai Ho, Raunaq Pradhan, Xiaohua Feng et Yuanjin Zheng. « Focused Magnetic Resonance Coupling Coils for Electromagnetic Therapy Applications ». IEEE Transactions on Biomedical Engineering 62, n^o 11 (novembre 2015) : 2602–10. http://dx.doi.org/10.1109/tbme.2015.2408432.

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Jiang, Yuxiang, Haiwei Dong, Houda Almansour, Hossam Mohamed et Abdulmotaleb El Saddik. « A unipolar pulse electromagnetic field apparatus for magnetic therapy ». IEEE Instrumentation & ; Measurement Magazine 21, n^o 5 (octobre 2018) : 41–48. http://dx.doi.org/10.1109/mim.2018.8515707.

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Schaum, Kathleen D. « Decision on National Coverage of Electromagnetic Therapy for Wounds ». Advances in Skin & ; Wound Care 17, n^o 6 (2004) : 316–17. http://dx.doi.org/10.1097/00129334-200407000-00015.

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S. K. DAS, S. T. CLEGG, T. V. SAMUL. « Electromagnetic thermal therapy power optimization for multiple source applicators ». International Journal of Hyperthermia 15, n^o 4 (janvier 1999) : 291–308. http://dx.doi.org/10.1080/026567399285666.

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Uzunca, Kaan, Murat Birtane et Nurettin Taştekin. « Effectiveness of pulsed electromagnetic field therapy in lateral epicondylitis ». Clinical Rheumatology 26, n^o 1 (22 avril 2006) : 69–74. http://dx.doi.org/10.1007/s10067-006-0247-9.

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Bechir, Edwin Sever, Farah Bechir et Bogdan Vladila. « Effects of Electromagnetic Field Use on Jaw Bone Densification ». Revista de Chimie 69, n^o 12 (15 janvier 2019) : 3705–9. http://dx.doi.org/10.37358/rc.18.12.6824.

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Résumé :

The working hypothesis started from the premise of the benefits of the electromagnetic field therapy (EMFT) benefits in order to densify the periodontal bone tissues. The objective of this study was to quantify the results of using this therapy with the Electronic Doctor Stem Generator (EDSG) in the densification of affected alveolar bone tissues by clinical and radiological examinations. The study was performed on 30 patients, who benefited from adjuvant therapy in the electromagnetic field (EMF) with the EDSG device after performing the specific dental treatments. We applied these very low-frequency EMF bioactivation treatment delivered by EDSG device, 30 daily exposures for a 2-hour interval. The results proved the appreciable reduction of teeth mobility, the reduction of periodontal pockets depth and the bone regeneration in the regions exposed to the EMF produced by EDSG device. EMF adjuvant therapy with EDSG device is an innovative, atraumatic and non-invasive therapy.

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