Modulation of inflammatory response by electromagnetic field in Neuronal and Microglial cells
Yssel Mendoza-Mari, Marija Stojanovic, Dan E Miulli, Devendra K Agrawal

TL;DR
This study shows that electromagnetic fields reduce inflammation in neurons and microglial cells, potentially aiding recovery from brain injuries.
Contribution
The study demonstrates the anti-inflammatory effect of EMF on neurons and microglial cells in vitro and in vivo.
Findings
EMF treatment reduced pro-inflammatory gene expression in neuronal and microglial cell lines.
The anti-inflammatory effect of EMF was observed both in vitro and in vivo in animal models.
Findings suggest EMF could enhance recovery from traumatic brain injury.
Abstract
Neuroinflammation plays a key role in the development of CNS pathologies. This event encompasses a series of mechanisms involving the immune system and its cellular and molecular components. While it is necessary to activate the innate immune system during the early response to pathogens or traumas, persistent inflammation hinders neuronal recovery and contributes to the development of long-term neuronal complications. In this way, the application of pharmacological and non-pharmacological treatments is crucial to achieving better recovery of patients. We recently observed that the application of a low frequency electromagnetic field (EMF) decreases the expression of pro-inflammatory markers in an animal model of Traumatic Brain Injury in swine. To characterize this effect in terms of individualized response of neurons and microglial cells, we performed an in vitro model of…
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Taxonomy
TopicsElectromagnetic Fields and Biological Effects
