2009
DOI: 10.1118/1.3117592
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A flexible multicamera visual‐tracking system for detecting and correcting motion‐induced artifacts in cardiac SPECT slices

Abstract: Patient motion is inevitable in SPECT and PET due to the lengthy period of time patients are imaged. The authors hypothesized that the use of external-tracking devices which provide additional information on patient motion independent of SPECT data could be employed to provide a more robust correction than obtainable from data-driven methods. Therefore, the authors investigated the Vicon MX visual-tracking system ͑VTS͒ which utilizes near-infrared ͑NIR͒ cameras to stereo-image small retroreflective markers on … Show more

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Cited by 56 publications
(57 citation statements)
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“…This may occur due to the obstruction of the line of sight of the Vicon cameras either by the camera-heads of the SPECT system itself, or by the patient's arms, other parts of the body, or clothing. In a separate study [11] reporting motiontracking in 77 patients undergoing cardiac-SPECT imaging, we determined that at least three of the four markers on the chest and one on the abdomen bands could be tracked without loss in 94% and 92% of the studies, respectively, during the entire period of SPECT and transmission imaging. The accuracy of VTS for motion tracking was also established to be submillimeter and subdegree through studies comparing the motion of Tc-99m containing markers as determined from stereotracking and SPECT reconstructions.…”
Section: Methodsmentioning
confidence: 99%
“…This may occur due to the obstruction of the line of sight of the Vicon cameras either by the camera-heads of the SPECT system itself, or by the patient's arms, other parts of the body, or clothing. In a separate study [11] reporting motiontracking in 77 patients undergoing cardiac-SPECT imaging, we determined that at least three of the four markers on the chest and one on the abdomen bands could be tracked without loss in 94% and 92% of the studies, respectively, during the entire period of SPECT and transmission imaging. The accuracy of VTS for motion tracking was also established to be submillimeter and subdegree through studies comparing the motion of Tc-99m containing markers as determined from stereotracking and SPECT reconstructions.…”
Section: Methodsmentioning
confidence: 99%
“…A flexible multicamera visual-tracking system was used for detecting motion in cardiac SPECT slices by Joseph E. McNamara et al (1). The authors investigated the Vicon MX visual-tracking system (VTS), which utilizes near-infrared (NIR) cameras to stereo-image small retroreflective markers on stretchy bands wrapped about the chest and abdomen of patients during cardiac SPECT.…”
Section: Hardware Base or External Motion Detectionmentioning
confidence: 99%
“…In addition, RI-based body surface tracking is of particular interest for motion compensation in nuclear medical imaging such as positron emission tomography (PET) and single-photon emission computed tomography (SPECT) [32]. Based on previous concepts for motion compensation in PET/SPECT using marker-based tracking [33,34,35], dense and real-time RI has been attracting interest in this field lately [36,37] Open issues in this context such as the calibration and synchronization to the scanner are discussed in Sect. 6.…”
Section: Motion Compensation In Tomographic Reconstructionmentioning
confidence: 99%