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Vibrational Profiling of Brain Tumors and Cells

This study reports vibration profiles of neuronal cells and tissues as well as brain tumor and neocortical specimens. A contact-free method and analysis protocol was designed to convert an atomic force microscope into an ultra-sensitive microphone with capacity to record and listen to live biologica...

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Published in:	Theranostics 2017-01, Vol.7 (9), p.2417-2430
Main Authors:	Nelson, Sultan L, Proctor, Dustin T, Ghasemloonia, Ahmad, Lama, Sanju, Zareinia, Kourosh, Ahn, Younghee, Al-Saiedy, Mustafa R, Green, Francis Hy, Amrein, Matthias W, Sutherland, Garnette R
Format:	Article
Language:	English
Subjects:	Animals Astrocytoma - diagnosis Astrocytoma - pathology Brain Neoplasms - diagnosis Brain Neoplasms - pathology Diagnostic Tests, Routine - methods Meningioma - diagnosis Meningioma - pathology Neocortex - physiology Pathology - methods Rats Research Paper Sound Vibration
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creator	Nelson, Sultan L Proctor, Dustin T Ghasemloonia, Ahmad Lama, Sanju Zareinia, Kourosh Ahn, Younghee Al-Saiedy, Mustafa R Green, Francis Hy Amrein, Matthias W Sutherland, Garnette R
description	This study reports vibration profiles of neuronal cells and tissues as well as brain tumor and neocortical specimens. A contact-free method and analysis protocol was designed to convert an atomic force microscope into an ultra-sensitive microphone with capacity to record and listen to live biological samples. A frequency of 3.4 Hz was observed for both cultured rat hippocampal neurons and tissues and vibration could be modulated pharmacologically. Malignant astrocytoma tissue samples obtained from operating room, transported in artificial cerebrospinal fluid, and tested within an hour, vibrated with a much different frequency profile and amplitude, compared to meningioma or lateral temporal cortex providing a quantifiable measurement to accurately distinguish the three tissues in real-time. Vibration signals were converted to audible sound waves by frequency modulation, thus demonstrating, acoustic patterns unique to meningioma, malignant astrocytoma and neocortex.
doi_str_mv	10.7150/thno.19172
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subjects	Animals Astrocytoma - diagnosis Astrocytoma - pathology Brain Neoplasms - diagnosis Brain Neoplasms - pathology Diagnostic Tests, Routine - methods Meningioma - diagnosis Meningioma - pathology Neocortex - physiology Pathology - methods Rats Research Paper Sound Vibration
title	Vibrational Profiling of Brain Tumors and Cells
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