In-line PET detector configuration for a combined PET and CT imaging system

What is claimed is: 1. A positron emission tomography (PET) detector configuration for a combined PET and computed tomography (CT) imaging system having a tunnel, comprising: a backplane having a vertical axis that extends through a vertical plane in the backplane to form a vertical neutral backplane axis and a horizontal axis that extends through an aperture of the backplane; a plurality of PET detectors located about the aperture, wherein each PET detector includes an attachment portion that attaches to the backplane to form a plurality of PET detectors arrangement wherein each PET detector arrangement extends through the backplane and wherein each PET detector arrangement has a detector axis oriented in the same plane as the vertical neutral backplane axis and a shape of each PET detector arrangement about the detector axis is symmetrical to define a detector axis of symmetry wherein a center of mass of each PET detector arrangement is located on the detector axis of symmetry and wherein the center of mass of each PET detector arrangement is in-line with the vertical neutral backplane axis. 2. The PET detector configuration according to claim 1 , wherein the attachment portion is located on a horizontal surface of each PET detector for slidably attaching each PET detector to the backplane. 3. The PET detector configuration according to claim 2 , wherein the attachment portion has a substantially dovetail shape. 4. The PET detector configuration according to claim 2 , wherein the attachment portion has a substantially rectangular shape. 5. The PET detector configuration according to claim 1 , wherein each PET detector is a time-of-flight (TOF) detector. 6. The PET detector configuration according to claim 1 , wherein each PET detector includes photomultiplier tubes (PMTs). 7. The PET detector configuration according to claim 1 , wherein each PET detector includes avalanche photo diodes (APDs). 8. The PET detector configuration according to claim 1 , wherein each PET detector includes silicon photo multipliers (SiPMs). 9. A positron emission tomography (PET) detector configuration for a combined PET and computed tomography (CT) imaging system, wherein the CT system includes an annular cavity: a backplane having a vertical axis that extends through a vertical plane in the backplane to form a vertical neutral backplane axis and a horizontal axis that extends through an aperture of the backplane; a plurality of PET detectors located about the aperture, wherein each PET detector includes an attachment portion that attaches to the backplane to form a plurality of PET detectors arrangement wherein each PET detector arrangement extends through the backplane and wherein each PET detector arrangement has a detector axis oriented in the same plane as the vertical neutral backplane axis and a shape of each PET detector arrangement about the detector axis is symmetrical to define a detector axis of symmetry wherein a center of mass of each PET detector arrangement is located on the detector axis of symmetry and wherein the center of mass of each PET detector arrangement is in-line with the vertical neutral backplane axis to reduce a strength needed for structural integrity of the backplane relative to a cantilevered detector arrangement. 10. The PET detector configuration according to claim 9 , wherein the attachment portion is located on a horizontal surface of each PET detector for slidably attaching each PET detector to the backplane. 11. The PET detector configuration according to claim 10 , wherein the attachment portion has a substantially dovetail shape. 12. The PET detector configuration according to claim 10 , wherein the attachment portion has a substantially rectangular shape. 13. The PET detector configuration according to claim 9 , wherein each PET detector is a time-of-flight (TOF) detector. 14. The PET detector configuration according to claim 9 , wherein each PET detector includes photomultiplier tubes (PMTs). 15. The PET detector configuration according to claim 9 , wherein each PET detector includes avalanche photo diodes (APDs). 16. The PET detector configuration according to claim 9 , wherein each PET detector includes silicon photo multipliers (SiPMs). 17. A combined positron emission tomography (PET) and computed tomography (CT) imaging system, comprising: a CT imaging section; a PET imaging section including a plurality of PET detectors wherein each PET detector includes an attachment portion that attaches to the backplane to form a plurality of PET detectors arrangement wherein each PET detector arrangement extends through the backplane and has a detector axis oriented in the same plane as a vertical neutral backplane axis wherein a shape of each PET detector arrangement about the detector axis is symmetrical to define a detector axis of symmetry wherein a center of mass of each PET detector arrangement is located on the detector axis of symmetry, the PET imaging section further including a backplane having a vertical axis that extends through a vertical plane in the backplane to form the vertical neutral backplane axis and a horizontal axis that extends through an aperture of the backplane and wherein the center of mass of each PET detector arrangement is located in-line with the vertical neutral backplane axis of the backplane; a bed traversing mechanism for holding a patient; a base element, wherein the CT and PET imaging sections and the bed traversing mechanism are mounted to the base element; and at least one seismic isolation element mounted to the base element for isolating the CT and PET imaging sections and the bed traversing mechanism from a seismic event. 18. A combined positron emission tomography (PET) and computed tomography (CT) imaging system, comprising: a CT imaging section; a PET imaging section including a plurality of PET detectors wherein each PET detector includes an attachment portion that attaches to the backplane to form a plurality of PET detectors arrangement wherein each PET detector arrangement extends through the backplane and has a detector axis oriented in the same plane as a vertical neutral backplane axis wherein a shape of each PET detector arrangement about the detector axis is symmetrical to define a detector axis of symmetry wherein a center of mass of each PET detector arrangement is located on the detector axis of symmetry, the PET imaging section further including a backplane having a vertical axis that extends through a vertical plane in the backplane to form the vertical neutral backplane axis and a horizontal axis that extends through an aperture of the backplane and wherein the center of mass of each PET detector arrangement is located in-line with the vertical neutral backplane axis of the backplane; a bed traversing mechanism for holding a patient; and a ramp having a cavity for housing conduits attached to the combined imaging system, wherein the ramp is attached to the combined imaging system and moves with the combined imaging system during a seismic event.