Abstract: A radiation detector head assembly includes a detector column including a detector having a first surface and a second surface opposite the first surface. The detector column includes a first collimator disposed over the first surface of the detector and a second collimator disposed over the second surface of the detector. The detector column includes a first radiation shield disposed over the first collimator, wherein the first radiation shield includes a first recess for receiving the first collimator and a first opening over a third surface of the first collimator, the third surface being opposite the first surface of the detector. The detector column includes a second radiation shield disposed over the second collimator, wherein the second radiation shield includes a second recess for receiving the second collimator and a second opening over a fourth surface of the second collimator, the fourth surface being opposite the second surface.

Abstract: Patient weight measuring system includes a patient table and a control circuit. The patient table includes a tabletop that receives a patient thereon, an elevation mechanism, and a load sensor. The elevation mechanism adjusts a height of the tabletop relative to a floor. The elevation mechanism includes a support frame and an actuator. The support frame includes multiple pivotable frame members mechanically connected to the tabletop. The actuator is configured to exert an actuator force on at least one of the frame members to control the height of the tabletop. The load sensor is operably connected to the actuator and configured to measure the actuator force. The control circuit is communicatively connected to the load sensor, and is configured to calculate a weight of the patient disposed on the tabletop based on the actuator force measured by the load sensor.

Abstract: Patient weight measuring system includes a patient table and a control circuit. The patient table includes a tabletop that receives a patient thereon, an elevation mechanism, and a load sensor. The elevation mechanism adjusts a height of the tabletop relative to a floor. The elevation mechanism includes a support frame and an actuator. The support frame includes multiple pivotable frame members mechanically connected to the tabletop. The actuator is configured to exert an actuator force on at least one of the frame members to control the height of the tabletop. The load sensor is operably connected to the actuator and configured to measure the actuator force. The control circuit is communicatively connected to the load sensor, and is configured to calculate a weight of the patient disposed on the tabletop based on the actuator force measured by the load sensor.

Abstract: A method of determining linear and angular displacements of a first coordinate system of a field of view of a first imaging system relative to a second a coordinate system of a field of view of a second imaging system, the method comprising: providing a phantom having a plurality of fiducial regions that can be imaged by both imaging systems; acquiring first and second images of the phantom with the first and second imaging systems wherein spatial coordinates of features in the first and second images reference the first and second coordinate systems respectively; determining positions of a plurality of features of the fiducials in the first image and spatial coordinates of the same features in the second image; and using the coordinates to determine the linear and angular displacements.