Effect of pulsed electromagnetic field on mandibular fracture healing: A randomized control trial, (RCT)

Mohajerani, Hassan; Tabeie, Faraj; Vossoughi, F.; Jafari, Esmail; Assadi, Majid

doi:10.1016/j.jormas.2019.02.022

Cited by 22 publications

(42 citation statements)

References 22 publications

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“…In the outcome of pain, when we omitted the trial performed by Mohajerani et al [2019], I 2 changed from 60% to 0% but the merger effect size remains unchanged, suggesting that the research by Mohajerani et al [2019] is the main source of heterogeneity. Omitting any trial did not change the results of meta‐analysis, suggesting that the result is robust and PEMF intervention can significantly relieve pain.…”

Section: Resultsmentioning

confidence: 99%

“…Three trials reported BMD. Mohajerani et al [2019] reported PEMF did not increase BMD after 2 weeks of intervention, but increased BMD at 28 days of follow‐up. Yang and Yang [2005] reported that BMD of collum femoris was higher than that of control after intervention of 1 month ( P < 0.01), 2 months ( P < 0.01), and 3 months ( P < 0.01), and BMD of lumbar vertebra was also higher than that of control after intervention of 1 month ( P < 0.05), 2 months ( P < 0.05), and 3 months ( P < 0.05).…”

Section: Resultsmentioning

confidence: 99%

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Effectiveness of Pulsed Electromagnetic Fields on Bone Healing: A Systematic Review and Meta‐Analysis of Randomized Controlled Trials

Peng

Xiong

et al. 2020

Bioelectromagnetics

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The effect of pulsed electromagnetic field (PEMF) on bone healing is still uncertain and it has not been established as a standardized treatment. The aim of this systematic review and meta‐analysis is to evaluate the effect of PEMF on bone healing in patients with fracture. We searched CNKI, Wan Fang, VIP, EMbase, PubMed, CENTRAL, Web of Science, Physiotherapy Evidence Database, and Open Grey websites for randomized controlled trials (published before July 2019 in English or Chinese) comparing any form of PEMF to sham. Reference lists were also searched. Related data were extracted by two investigators independently. The bias risk of the articles and the evidence strength of the outcomes were evaluated. Twenty‐two studies were eligible and included in our analysis (n = 1,468 participants). The pooled results of 14 studies (n = 1,131 participants) demonstrated that healing rate in PEMF group was 79.7% (443/556), and that in the control group was 64.3% (370/575). PEMF increased healing rate (RR = 1.22; 95% confidence interval [CI] = 1.10–1.35; I2 = 48%) by the Mantel–Haenszel analysis, relieved pain (standardized mean difference (SMD) = −0.49; 95% CI = −0.88 to −0.10; I2 = 60%) by the inverse variance analysis, and accelerated healing time (SMD = −1.01; 95% CI = −2.01 to −0.00; I2 = 90%) by the inverse variance analysis. Moderate quality evidence suggested that PEMF increased healing rate and relieved pain of fracture, and very low‐quality evidence showed that PEMF accelerated healing time. Larger and higher quality randomized controlled trials and pre‐clinical studies of optimal frequency, amplitude, and duration parameters are needed. © 2020 Bioelectromagnetics Society.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Effectiveness of Pulsed Electromagnetic Fields on Bone Healing: A Systematic Review and Meta‐Analysis of Randomized Controlled Trials

Peng

Xiong

et al. 2020

Bioelectromagnetics

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“…Під впливом постійного та змінного імпульсного магнітного поля відзначається посилення метаболічних процесів в ділянці кісткового регенерату, в більш ранні терміни з'являються фібро-та остеобласти в ділянці регенерації, процес утворення кісткової речовини проходить інтенсивніше та у більш ранні терміни [45][46][47][48]. У низці досліджень на тваринах доведено, що магнітотерапії властива седативна, гіпотензивна, протизапальна, протинабрякова, знеболююча і трофіко-регенеративна дія [4,49,50]. На противагу, Rosso F. et al, 2015 [51] не виявили статистично достовірних доказів ефективності магнітотерапії у порівнянні з ЕУХТ.…”

Section: електрична стимуляціяunclassified

“…У царині щелепно-лицевої хірургії серед потенційних показань до застосування магнітотерапії виокремлюють: захворювання пародонту; гострий артрит СНЩС; переломи нижньої щелепи; післяопераційні рани та травми [44,49]. Проте, відкритим залишається питання щодо використання магнітотерапії за наявності металевих конструкцій у порожнині рота [44,39].…”

Section: електрична стимуляціяunclassified

Modern Physical Methods of Stimulating the Bone Tissue Healing Processes

Vares¹,

Shtybel²

2019

Ukr. ž. med. bìol. sportu

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“…It is not yet entirely clear, however, whether the effects of ELF-EMFs on the human body is beneficial or harmful. It was found that ELF-EMFs have significant effects on cells and tissues and their functions in the living organisms, such as a marked change in the synaptic plasticity generated in synapses of the dentate gyrus (Komaki et al, 2014); persistent changes in neuronal activity after prolonged exposure to ELF-EMFs (Komaki et al, 2014); dramatic effects from behaviour to physiology and protein expression (Wyszkowska et al, 2016); important alterations of glucose and lipid metabolisms (Hashish et al, 2008); deleterious effect on ultra structure of prostate gland in rat (Khaki et al, 2008); the occurrence of oxidative stress-based nervous system pathologies associated with ageing (Falone et al, 2008); regulation of calcium-related activities in cardiomyocytes (Wei et al, 2015); absence of evidence of persisting unrepaired nuclear DNA single-strand breaks in distinct types of cells in the brain, kidney and liver of adult mice after continuous 8-week 50 Hz magnetic field (MF) exposure with flux density of 0.1 or 1.0 mT (Korr et al, 2014); changes in the synthesis and release of oestradiol-17β (E2) in uterine tissues (Koziorowska et al, 2018); the treatment of cerebral ischaemia by reduction neuronal cell death by low-energy low-frequency pulsed electromagnetic fields (PEMFs) (Gessi et al, 2019); increased bone density, faster recovery, increased formation of new bone, a further opening of the mouth and decreased pain depending on the post-operative PEMF treatment with 1 mT intensity and 40 Hz frequency in mandibular bone fractures (Mohajerani et al, 2019); and the improvement of pain intensity, disability and lumbar range of motion in PEMF exposure with 20 Gauss low intensity, 50 Hz frequency in patients with non-chronic specific low back pain (Elshiwi et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Effects of extremely low-frequency electromagnetic field exposure on the skeletal muscle functions in rats

et al. 2020

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The aim of the present study was to systematically investigate the effects of chronic exposure to extremely low-frequency electromagnetic field (ELF-EMF) on electrophysiological, histological and biochemical properties of the diaphragm muscle in rats. Twenty-nine newly weaned (24 days old, 23–80 g) female ( n = 15) and male ( n = 14) Wistar Albino rats were used in this study. The animals were randomly divided into two groups: the control group and the electromagnetic field (EMF) group. The control group was also randomly divided into two groups: the control female group and the control male group. The EMF exposure group was also randomly divided into two groups: the ELF-EMF female group and the ELF-EMF male group. The rats in the ELF-EMF groups were exposed for 4 h daily for up to 7 months to 50 Hz frequency, 1.5 mT magnetic flux density. Under these experimental conditions, electrophysiological parameters (muscle bioelectrical activity parameters: intracellular action potential and resting membrane potential and muscle mechanical activity parameter: force–frequency relationship), biochemical parameters (Na+, K+, Cl− and Ca+2 levels in the blood serum of rats; Na+-K+ ATPase enzyme-specific activities in muscle tissue; and free radical metabolism in both muscle tissue and serum) and transmission electron microscopic morphometric parameters of the diaphragm muscle were determined. We found that chronic exposure to ELF-EMF had no significant effect on the histological structure and mechanical activity of the muscle and on the majority of muscle bioelectrical activity parameters, with the exception of some parameters of muscle bioelectrical activity. However, the changes in some bioelectrical activity parameters were relatively small and unlikely to be clinically relevant.

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Effect of pulsed electromagnetic field on mandibular fracture healing: A randomized control trial, (RCT)

Cited by 22 publications

References 22 publications

Effectiveness of Pulsed Electromagnetic Fields on Bone Healing: A Systematic Review and Meta‐Analysis of Randomized Controlled Trials

Effectiveness of Pulsed Electromagnetic Fields on Bone Healing: A Systematic Review and Meta‐Analysis of Randomized Controlled Trials

Modern Physical Methods of Stimulating the Bone Tissue Healing Processes

Effects of extremely low-frequency electromagnetic field exposure on the skeletal muscle functions in rats

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