Detection of Small Bowel Slow-Wave Frequencies From Noninvasive Biomagnetic Measurements

We report a novel method for identifying the small intestine electrical activity slow-wave frequencies (SWFs) from noninvasive biomagnetic measurements. Superconducting quantum interference device magnetometer measurements are preprocessed to remove baseline drift and high-frequency noise. Subsequen...

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Published in	IEEE transactions on biomedical engineering Vol. 56; no. 9; pp. 2181 - 2189
Main Authors	Erickson, Jonathan C., Obioha, Chibuike, Goodale, Adam, Bradshaw, L. Alan, Richards, William O.
Format	Journal Article
Language	English
Published	United States IEEE 01.09.2009 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Animals Biomagnetics Electric variables measurement Electromagnetic Fields Electrophysiological Phenomena Frequency measurement Gastrointestinal Motility - physiology Interference Intestine, Small - physiology Intestines Noise measurement Signal processing Signal Processing, Computer-Assisted slow wave SOBI SQUID SQUID magnetometers Superconducting device noise Superconducting devices Swine wavelet transforms
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ISSN	0018-9294 1558-2531 1558-2531
DOI	10.1109/TBME.2009.2024087

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Abstract	We report a novel method for identifying the small intestine electrical activity slow-wave frequencies (SWFs) from noninvasive biomagnetic measurements. Superconducting quantum interference device magnetometer measurements are preprocessed to remove baseline drift and high-frequency noise. Subsequently, the underlying source signals are separated using the well-known second-order blind identification (SOBI) algorithm. A simple classification scheme identifies and assigns some of the SOBI components to a section of small bowel. SWFs were clearly identified in 10 out of 12 test subjects to within 0.09-0.25 cycles per minute. The method is sensitive at the 40.3 %-55.9% level, while false positive rates were 0%-8.6 %. This technique could potentially be used to help diagnose gastrointestinal ailments and obviate some exploratory surgeries.
AbstractList	We report a novel method for identifying the small intestine electrical activity slow-wave frequencies (SWFs) from noninvasive biomagnetic measurements. Superconducting quantum interference device magnetometer measurements are preprocessed to remove baseline drift and high-frequency noise. Subsequently, the underlying source signals are separated using the well-known second-order blind identification (SOBI) algorithm. A simple classification scheme identifies and assigns some of the SOBI components to a section of small bowel. SWFs were clearly identified in 10 out of 12 test subjects to within 0.09-0.25 cycles per minute. The method is sensitive at the 40.3 %-55.9 % level, while false positive rates were 0 %-8.6 %. This technique could potentially be used to help diagnose gastrointestinal ailments and obviate some exploratory surgeries.We report a novel method for identifying the small intestine electrical activity slow-wave frequencies (SWFs) from noninvasive biomagnetic measurements. Superconducting quantum interference device magnetometer measurements are preprocessed to remove baseline drift and high-frequency noise. Subsequently, the underlying source signals are separated using the well-known second-order blind identification (SOBI) algorithm. A simple classification scheme identifies and assigns some of the SOBI components to a section of small bowel. SWFs were clearly identified in 10 out of 12 test subjects to within 0.09-0.25 cycles per minute. The method is sensitive at the 40.3 %-55.9 % level, while false positive rates were 0 %-8.6 %. This technique could potentially be used to help diagnose gastrointestinal ailments and obviate some exploratory surgeries. We report a novel method for identifying the small intestine electrical activity slow-wave frequencies (SWFs) from noninvasive biomagnetic measurements. Superconducting quantum interference device magnetometer measurements are preprocessed to remove baseline drift and high-frequency noise. Subsequently, the underlying source signals are separated using the well-known second-order blind identification (SOBI) algorithm. A simple classification scheme identifies and assigns some of the SOBI components to a section of small bowel. SWFs were clearly identified in 10 out of 12 test subjects to within 0.09-0.25 cycles per minute. The method is sensitive at the 40.3 %-55.9 % level, while false positive rates were 0 %-8.6 %. This technique could potentially be used to help diagnose gastrointestinal ailments and obviate some exploratory surgeries. We report a novel method for identifying the small intestine electrical activity slow wave frequencies from noninvasive biomagnetic measurements. Superconducting QUantum Interference Device (SQUID) magnetometer measurements are pre-processed to remove baseline drift and high frequency noise. Subsequently, the underlying source signals are separated using the well-known SOBI algorithm. A simple classification scheme identifies and assigns some of the SOBI components to a section of small bowel. Slow wave frequencies were clearly identified in 10 out of 12 test subjects to within 0.09–0.25 cycles per minute. The method is sensitive at the 40.3–55.9% level, while false positive rates were 0–8.6%. This technique could potentially be used to help diagnose gastrointestinal ailments and obviate some exploratory surgeries.
Author	Goodale, Adam Erickson, Jonathan C. Obioha, Chibuike Richards, William O. Bradshaw, L. Alan
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SubjectTerms	Algorithms Animals Biomagnetics Electric variables measurement Electromagnetic Fields Electrophysiological Phenomena Frequency measurement Gastrointestinal Motility - physiology Interference Intestine, Small - physiology Intestines Noise measurement Signal processing Signal Processing, Computer-Assisted slow wave SOBI SQUID SQUID magnetometers Superconducting device noise Superconducting devices Swine wavelet transforms
Title	Detection of Small Bowel Slow-Wave Frequencies From Noninvasive Biomagnetic Measurements
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