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Coupling of transient near infrared photonic with magnetic nanoparticle for potential dissipation-free biomedical application in brain.


ABSTRACT: Combined treatment strategies based on magnetic nanoparticles (MNPs) with near infrared ray (NIR) biophotonic possess tremendous potential for non-invasive therapeutic approach. Nonetheless, investigations in this direction have been limited to peripheral body region and little is known about the potential biomedical application of this approach for brain. Here we report that transient NIR exposure is dissipation-free and has no adverse effect on the viability and plasticity of major brain cells in the presence or absence superparamagnetic nanoparticles. The 808?nm NIR laser module with thermocouple was employed for functional studies upon NIR exposure to brain cells. Magnetic nanoparticles were characterized using transmission electron microscopy (TEM), X-ray diffraction (XRD), dynamic laser scattering (DLS), and vibrating sample magnetometer (VSM). Brain cells viability and plasticity were analyzed using electric cell-substrate impedance sensing system, cytotoxicity evaluation, and confocal microscopy. When efficacious non-invasive photobiomodulation and neuro-therapeutical targeting and monitoring to brain remain a formidable task, the discovery of this dissipation-free, transient NIR photonic approach for brain cells possesses remarkable potential to add new dimension.

SUBMITTER: Sagar V 

PROVIDER: S-EPMC4964614 | biostudies-literature | 2016 Jul

REPOSITORIES: biostudies-literature

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Coupling of transient near infrared photonic with magnetic nanoparticle for potential dissipation-free biomedical application in brain.

Sagar Vidya V   Atluri V S R VSR   Tomitaka A A   Shah P P   Nagasetti A A   Pilakka-Kanthikeel S S   El-Hage N N   McGoron A A   Takemura Y Y   Nair M M  

Scientific reports 20160728


Combined treatment strategies based on magnetic nanoparticles (MNPs) with near infrared ray (NIR) biophotonic possess tremendous potential for non-invasive therapeutic approach. Nonetheless, investigations in this direction have been limited to peripheral body region and little is known about the potential biomedical application of this approach for brain. Here we report that transient NIR exposure is dissipation-free and has no adverse effect on the viability and plasticity of major brain cells  ...[more]

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