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Title page for ETD etd-07292004-170244

Type of Document Master's Thesis
Author Irimia, Andrei
Author's Email Address andrei.irimia@vanderbilt.edu
URN etd-07292004-170244
Title A Modular Computer Program for the Acquisition and Analysis of Biomagnetic Signals Using SQUID Magnetometers
Degree Master of Science
Department Computer Science
Advisory Committee
Advisor Name Title
J. Michael Fitzpatrick Committee Chair
L. Alan Bradshaw Committee Member
  • gastric electrical activity
  • signal acquisition
  • signal processing
  • software package
  • magnetogastrography
  • data analysis
  • Magnetometers -- Computer programs
  • Gastrointestinal system -- Magnetic fields
  • Gastrointestinal system -- Electric properties
Date of Defense 2004-07-29
Availability unrestricted
The study of bioelectric and biomagnetic activity in the human gastrointestinal (GI) tract is of great interest in clinical research due to the proven possibility to detect pathological conditions thereof from electric and magnetic field recordings. The magnetogastrogram (MGG) and magnetoenterogram (MENG) can be recorded using superconducting quantum interference device (SQUID) magnetometers, which are the most sensitive magnetic flux-to-voltage converters currently available. To address the urgent need for powerful acquisition & analysis software tools faced by many researchers and clinicians in this important area of investigation, an integrative and modular computer program was developed for the acquisition, processing and analysis of GI SQUID signals. In addition to a robust hardware implementation for efficient data acquisition, a number of signal processing and analysis modules were developed to serve in a variety of both clinical procedures and scientific investigations. Implemented software features include data processing and visualization, waterfall plots of signal frequency spectra as well as spatial maps of GI signal frequencies. Moreover, a software tool providing powerful 3D visualizations of GI signals was created using realistic models of the human torso and internal organs. Due to the novelty of our modular and integrative approach to GI signal analysis and to our highly realistic depiction of gastric and intestinal signals originating in the human body, our powerful methods for biomagnetic field analysis are bound to set the standard in today's gastroenterological research and possibly to help revolutionize clinical GI diagnosis methods via biomagnetic signal analysis.
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