Title :
Automated 3-D segmentation of respiratory-gated PET transmission images
Author :
Reutter, BW ; Klein, GJ ; Huesman, RH
Author_Institution :
Center for Functional Imaging, Lawrence Berkeley Lab., CA, USA
fDate :
12/1/1997 12:00:00 AM
Abstract :
As a preliminary step toward performing respiration compensated attenuation correction of respiratory-gated cardiac PET data, we acquired and automatically segmented respiratory-gated transmission data for a dog breathing on its own under gas anesthesia. Transmission data were acquired for 20 min on a CTI/Siemens ECAT EXACT HR (47-slice) scanner. Two respiratory gates were obtained using data from a pneumatic bellows placed around the dog´s chest. For each respiratory gate, torso and lung surfaces were segmented automatically using a differential 3-D image edge detection algorithm. Three-dimensional visualizations showed that during inspiration the heart translated about 4 mm transversely and the diaphragm translated about 9 mm inferiorly. The observed respiratory motion of the canine heart and diaphragm suggests that respiration compensated attenuation correction may be necessary for accurate quantitation of high-resolution respiratory-gated human cardiac PET data. Our automated image segmentation results suggest that respiration compensated segmented attenuation correction may be possible using respiratory-gated transmission data obtained with as little as 3 min of acquisition time per gate
Keywords :
data visualisation; edge detection; image resolution; image segmentation; lung; medical image processing; pneumodynamics; positron emission tomography; 20 min; 3 min; CTI/Siemens ECAT EXACT HR scanner; acquisition time; automated 3-D segmentation; canine heart; diaphragm; differential 3-D image edge detection algorithm; dog; gas anesthesia; high-resolution respiratory-gated human cardiac PET data; inspiration; lung surfaces; pneumatic bellows; respiration compensated attenuation correction; respiratory gates; respiratory motion; respiratory-gated PET transmission images; respiratory-gated cardiac PET data; three-dimensional visualizations; torso; Anesthesia; Attenuation; Bellows; Data visualization; Heart rate; Image edge detection; Image segmentation; Lungs; Positron emission tomography; Torso;
Journal_Title :
Nuclear Science, IEEE Transactions on
