Publications [#132758] of G. Allan Johnson
- AC Brau, CT Wheeler, LW Hedlund, GA Johnson, Fiber-optic stethoscope: a cardiac monitoring and gating system for magnetic resonance microscopy.,
Magnetic resonance in medicine : official journal of the Society of Magnetic Resonance in Medicine / Society of Magnetic Resonance in Medicine, United States, vol. 47 no. 2
pp. 314-21, ISSN 0740-3194
(last updated on 2005/08/03)
A fundamental problem associated with using the conventional electrocardiograph (ECG) to monitor a subject's cardiac activity during magnetic resonance imaging (MRI) is the distortion of the ECG due to electromagnetic interference. This problem is particularly pronounced in MR microscopy (MRI of small animals at microscopic resolutions (< 0.03 mm(3))) because the strong, rapidly-switching magnetic field gradients induce artifacts in the animal's ECG that often mimic electrophysiologic activity, impairing the use of the ECG for cardiac monitoring and gating purposes. The fiber-optic stethoscope system offers a novel approach to measuring cardiac activity that, unlike the ECG, is immune to electromagnetic effects. The fiber-optic stethoscope is perorally inserted into the esophagus of small animals to optically detect pulsatile compression of the esophageal wall. The optical system is shown to provide a robust cardiac monitoring and gating signal in rats and mice during routine cardiac MR microscopy.
Animals • Electrocardiography • Esophagoscopy* • Fiber Optics* • Heart Atria • Heart Rate • Heart Ventricles • Hemodynamic Processes • Magnetic Resonance Imaging • Mice • Mice, Inbred C57BL • Microscopy • Myocardial Contraction • Rats • Stethoscopes* • anatomy & histology* • instrumentation* • physiology