Stefan Musolino scite author profile

This work reports on the development of an optical fiber based probe for in vivo measurements of brain temperature. By utilizing a thin layer of rare-earth doped tellurite glass on the tip of a conventional silica optical fiber a robust probe, suitable for long-term in vivo measurements of temperature can be fabricated. This probe can be interrogated using a portable optical measurement setup, allowing for measurements to be performed outside of standard optical laboratories.

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Miniaturized single-fiber-based needle probe for combined imaging and sensing in deep tissue

Schartner

Musolino

et al. 2018

Opt. Lett.

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The ability to visualize structure while simultaneously measuring chemical or physical properties of a biological tissue has the potential to improve our understanding of complex biological processes. We report the first miniaturized single-fiber-based imaging+sensing probe capable of simultaneous optical coherence tomography (OCT) imaging and temperature sensing. An OCT lens is fabricated at the distal end of a double-clad fiber, including a thin layer of rare-earth-doped tellurite glass to enable temperature measurements. The high refractive index of the tellurite glass enables a common-path interferometer configuration for OCT, allowing easy exchange of probes for biomedical applications. The simultaneous imaging+sensing capability is demonstrated on rat brains.

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A portable optical fiber probe for in vivo brain temperature measurements

Musolino¹,

Schartner²,

Tsiminis³

et al. 2016

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Improved method for optical fiber temperature probe implantation in brains of free-moving rats

Musolino

Schartner

Hutchinson

et al. 2019

Journal of Neuroscience Methods

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Stefan Musolino

Portable optical fiber probe for in vivo brain temperature measurements

Miniaturized single-fiber-based needle probe for combined imaging and sensing in deep tissue

A portable optical fiber probe for in vivo brain temperature measurements

Improved method for optical fiber temperature probe implantation in brains of free-moving rats

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