Share Email Print

Proceedings Paper

Design and construction of a flat-panel-based cone beam volume computed tomography (FPD-CBVCT) imaging system through the adaptation of a commercially available CT system: work in progress
Author(s): David L. Conover; Ruola Ning; Rongfeng Yu; Junmei Zhong
Format Member Price Non-Member Price
PDF $17.00 $21.00

Paper Abstract

The purpose of this presentation is to show how a commercially available spiral CT can be modified for use as the electro-mechanical scanner hardware for a prototype flat panel detector-based cone beam volume computed tomography (FPD-CBVCT) imaging system. FPD-CBVCT has the benefits of isotropic high resolution, low contrast sensitivity and 3D visualization. In contrast to spiral CT, which acquires a series of narrow slices, FPD-CBVCT acquires a full volume of data (limited by the cone angle and the FPD active area) in one <= 360° scan. Our goal is to use a GE HighSpeed Advantage (HSA) CT system as the basis for an FPD-CBVCT imaging prototype for performing phantom, animal and patient imaging studies. Specific electromechanical and radiographic subsystems to be controlled include: gantry rotation and tilt, patient table positioning, rotor control, mA control, the high frequency generator (kVp, exposure time, repetition rate) and image data acquisition. Also, a 2D full field FPD needs to replace the 1D detector, as well as the existing slit collimator needs to be retrofitted to a full field collimator to allow x-ray exposure over the entire active area of the FPD. In addition, x-ray projection data acquisition needs to be performed at >=30 fps. Power and communication signals to control modules on the rotating part of the gantry will be through integrated slip rings on the gantry. Through the synchronized control of the pulsed x-ray exposures, data acquisition, gantry rotation and tilt, as well as the position and translation speed of the patient table, the system will be able to achieve spiral cone beam and circle-plus-arc cone beam image acquisition protocols. Performance will be evaluated with optical encoders, standard dosimetry equipment and phantom studies.

Paper Details

Date Published: 5 June 2003
PDF: 11 pages
Proc. SPIE 5030, Medical Imaging 2003: Physics of Medical Imaging, (5 June 2003); doi: 10.1117/12.480387
Show Author Affiliations
David L. Conover, Univ. of Rochester (United States)
Ruola Ning, Univ. of Rochester (United States)
Rongfeng Yu, Univ. of Rochester (United States)
Junmei Zhong, Univ. of Rochester (United States)

Published in SPIE Proceedings Vol. 5030:
Medical Imaging 2003: Physics of Medical Imaging
Martin J. Yaffe; Larry E. Antonuk, Editor(s)

© SPIE. Terms of Use
Back to Top
Sign in to read the full article
Create a free SPIE account to get access to
premium articles and original research
Forgot your username?