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Literature DB >> 16917871

The influence of extremely low frequency magnetic fields on cytoprotection and repair.

John A Robertson¹, Alex W Thomas, Yves Bureau, Frank S Prato.

Abstract

Ischemia-reperfusion injuries, such as those suffered from various types of cardiovascular disease, are major causes of death and disability. For relatively short periods of ischemia, much of the damage is potentially reversible and in fact, does not occur until the influx of oxygen during the reperfusion stage. Because of this, there is a window of opportunity to protect the ischemic tissue. Here, we review several mechanisms of protection, such as heat shock proteins, opioids, collateral blood flow, and nitric oxide induction, and the evidence indicating that magnetic fields may be used as a means of providing protection via each of these mechanisms. While there are few studies demonstrating direct protection with magnetic field therapies, there are a number of published reports indicating that electromagnetic fields may be able to influence some of the biochemical systems with protective applications.

Entities: Chemical Disease

Mesh：

Substances：

Year: 2007 PMID： 16917871 DOI： 10.1002/bem.20258

Source DB: PubMed Journal: Bioelectromagnetics ISSN： 0197-8462 Impact factor: 2.010

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Cited

13 in total

1. Response of hippocampal neurons and glial cells to alternating magnetic field in gerbils submitted to global cerebral ischemia.

Authors: Snežana Rauš; Vesna Selaković; Milica Manojlović-Stojanoski; Lidija Radenović; Zlatko Prolić; Branka Janać
Journal: Neurotox Res Date: 2012-06-06 Impact factor: 3.911

2. Effect of 60 Hz magnetic fields on the activation of hsp70 promoter in cultured INER-37 and RMA E7 cells.

Authors: J Antonio Heredia-Rojas; Abraham Octavio Rodríguez de la Fuente; Juan Manuel Alcocer González; Laura E Rodríguez-Flores; Cristina Rodríguez-Padilla; Martha A Santoyo-Stephano; Esperanza Castañeda-Garza; Reyes S Taméz-Guerra
Journal: In Vitro Cell Dev Biol Anim Date: 2010-09-11 Impact factor: 2.416

Review 3. Therapeutic potential of electromagnetic fields for tissue engineering and wound healing.

Authors: T Saliev; Z Mustapova; G Kulsharova; D Bulanin; S Mikhalovsky
Journal: Cell Prolif Date: 2014-10-16 Impact factor: 6.831

4. Effect of an Extremely Low-Frequency Electromagnetic Field on the Concentration of Salivary Immunoglobulin A.

Authors: Piotr Skomro; Danuta Lietz-Kijak; Olga Bogdziewicz-Wałęsa; Joanna Janiszewska-Olszowska
Journal: Int J Environ Res Public Health Date: 2022-05-10 Impact factor: 4.614

5. Anti-proliferative effect of extremely low frequency electromagnetic field on preneoplastic lesions formation in the rat liver.

Authors: Mónica Noemí Jiménez-García; Jaime Arellanes-Robledo; Diana Ivette Aparicio-Bautista; Miguel Angel Rodríguez-Segura; Saúl Villa-Treviño; Juan José Godina-Nava
Journal: BMC Cancer Date: 2010-04-24 Impact factor: 4.430

6. Benign Effect of Extremely Low-Frequency Electromagnetic Field on Brain Plasticity Assessed by Nitric Oxide Metabolism during Poststroke Rehabilitation.

Authors: Natalia Cichoń; Piotr Czarny; Michał Bijak; Elżbieta Miller; Tomasz Śliwiński; Janusz Szemraj; Joanna Saluk-Bijak
Journal: Oxid Med Cell Longev Date: 2017-09-12 Impact factor: 6.543

7. Comparison of Allotransplantation of Fresh and Vitrified Mouse Ovaries to The Testicular Tissue under Influence of The Static Magnetic Field.

Authors: Vida Sadat Kazemein Jasemi; Firooz Samadi; Hussein Eimani; Saeed Hasani; Rouhollah Fathi; Abdolhossein Shahverdi
Journal: Cell J Date: 2017-08-19 Impact factor: 2.479

8. Emerging synergisms between drugs and physiologically-patterned weak magnetic fields: implications for neuropharmacology and the human population in the twenty-first century.

Authors: P D Whissell; M A Persinger
Journal: Curr Neuropharmacol Date: 2007-12 Impact factor: 7.363

9. Inhibition of angiogenesis mediated by extremely low-frequency magnetic fields (ELF-MFs).

Authors: Simona Delle Monache; Adriano Angelucci; Patrizia Sanità; Roberto Iorio; Francesca Bennato; Fabrizio Mancini; Giancaterino Gualtieri; Rosella Cardigno Colonna
Journal: PLoS One Date: 2013-11-14 Impact factor: 3.240

10. Pulsed electromagnetic fields reduce acute inflammation in the injured rat-tail intervertebral disc.

Authors: Andrew K Chan; Xinyan Tang; Nikhil V Mummaneni; Dezba Coughlin; Ellen Liebenberg; Annie Ouyang; Stefan Dudli; Michael Lauricella; Nianli Zhang; Erik I Waldorff; James T Ryaby; Jeffrey C Lotz
Journal: JOR Spine Date: 2019-12-02