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IEEE Transactions on Nuclear Science
|
August 10, 2010
Quantitative Study of Rigid-Body and Respiratory Motion of Patients Undergoing Stress and Rest Cardiac SPECT Imaging
Joyeeta Mitra Mukherjee, Karen L Johnson, Joseph E McNamara, et al.
IEEE Transactions on Nuclear Science
|
June 12, 2010
Estimation of Rigid-Body and Respiratory Motion of the Heart From Marker-Tracking Data for SPECT Motion Correction
Joyeeta Mitra Mukherjee, Joseph E McNamara, Karen L Johnson, et al.
IEEE Transactions on Nuclear Science
|
March 26, 2010
Body Deformation Correction for SPECT Imaging
Songxiang Gu, Joseph E McNamara, Joyeeta Mitra, et al.
Medical Physics
|
June 24, 2009
A flexible multicamera visual-tracking system for detecting and correcting motion-induced artifacts in cardiac SPECT slices
Joseph E McNamara, P Hendrik Pretorius, Karen Johnson, et al.
IEEE Transactions on Nuclear Science
|
May 17, 2016
LROC Investigation of Three Strategies for Reducing the Impact of Respiratory Motion on the Detection of Solitary Pulmonary Nodules in SPECT
Mark S Smyczynski, Howard C Gifford, Joyoni Dey, et al.
IEEE Transactions on Nuclear Science
|
December 17, 2008
An Assessment of a Low-Cost Visual Tracking System (VTS) to Detect and Compensate for Patient Motion during SPECT
Joseph E McNamara, Philippe Bruyant, Karen Johnson, et al.
Medical Physics
|
May 3, 2013
Toward correcting drift in target position during radiotherapy via computer-controlled couch adjustments on a programmable Linac
Joseph E McNamara, Rajesh Regmi, D Michael Lovelock, et al.
Medical Physics
|
December 11, 2013
Use of MRI to assess the prediction of heart motion with gross body motion in myocardial perfusion imaging by stereotracking of markers on the body surface
Michael A King, Joyoni Dey, Karen Johnson, et al.
IEEE Transactions on Nuclear Science
|
May 17, 2016
Modeling the respiratory motion of solitary pulmonary nodules and determining the impact of respiratory motion on their detection in SPECT imaging
Mark S Smyczynski, Howard C Gifford, Andre Lehovich, et al.
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of 1
Search research articles
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Showing results (1-10 of 9) with videos related to
Sort By:
Page
of 1
IEEE Transactions on Nuclear Science
|
August 10, 2010
Quantitative Study of Rigid-Body and Respiratory Motion of Patients Undergoing Stress and Rest Cardiac SPECT Imaging
Joyeeta Mitra Mukherjee, Karen L Johnson, Joseph E McNamara, et al.
IEEE Transactions on Nuclear Science
|
June 12, 2010
Estimation of Rigid-Body and Respiratory Motion of the Heart From Marker-Tracking Data for SPECT Motion Correction
Joyeeta Mitra Mukherjee, Joseph E McNamara, Karen L Johnson, et al.
IEEE Transactions on Nuclear Science
|
March 26, 2010
Body Deformation Correction for SPECT Imaging
Songxiang Gu, Joseph E McNamara, Joyeeta Mitra, et al.
Medical Physics
|
June 24, 2009
A flexible multicamera visual-tracking system for detecting and correcting motion-induced artifacts in cardiac SPECT slices
Joseph E McNamara, P Hendrik Pretorius, Karen Johnson, et al.
IEEE Transactions on Nuclear Science
|
May 17, 2016
LROC Investigation of Three Strategies for Reducing the Impact of Respiratory Motion on the Detection of Solitary Pulmonary Nodules in SPECT
Mark S Smyczynski, Howard C Gifford, Joyoni Dey, et al.
IEEE Transactions on Nuclear Science
|
December 17, 2008
An Assessment of a Low-Cost Visual Tracking System (VTS) to Detect and Compensate for Patient Motion during SPECT
Joseph E McNamara, Philippe Bruyant, Karen Johnson, et al.
Medical Physics
|
May 3, 2013
Toward correcting drift in target position during radiotherapy via computer-controlled couch adjustments on a programmable Linac
Joseph E McNamara, Rajesh Regmi, D Michael Lovelock, et al.
Medical Physics
|
December 11, 2013
Use of MRI to assess the prediction of heart motion with gross body motion in myocardial perfusion imaging by stereotracking of markers on the body surface
Michael A King, Joyoni Dey, Karen Johnson, et al.
IEEE Transactions on Nuclear Science
|
May 17, 2016
Modeling the respiratory motion of solitary pulmonary nodules and determining the impact of respiratory motion on their detection in SPECT imaging
Mark S Smyczynski, Howard C Gifford, Andre Lehovich, et al.
Page
of 1