Litcius/Paper detail

Flat-panel conebeam CT in the clinic: history and current state

Rebecca Fahrig, David A. Jaffray, Ioannis Sechopoulos, J. Webster Stayman

2021Journal of Medical Imaging39 citationsDOIOpen Access PDF

Abstract

), for visualization of small contrast-filled vessels, bones, or teeth, was an imaging requirement that could not be met by the contemporaneous CT scanners. However, the use of nonlinear imagers, e.g., x-ray image intensifiers, limited the clinical utility of the earliest diagnostic conebeam CT systems. The development of consumer-electronics large-area displays provided a technical foundation that was leveraged in the 1990s to first produce large-area digital x-ray detectors for use in radiography and then compact flat panels suitable for high-resolution and high-frame-rate conebeam CT. In this review, we show the concurrent evolution of digital flat panel (DFP) technology and clinical conebeam CT. We give a brief summary of conebeam CT reconstruction, followed by a brief review of the correction approaches for DFP-specific artifacts. The historical development and current status of flat-panel conebeam CT in four clinical areas-breast, fixed C-arm, image-guided radiation therapy, and extremity/head-is presented. Advances in DFP technology over the past two decades have led to improved visualization of high-contrast, high-resolution clinical tasks, and image quality now approaches the soft-tissue contrast resolution that is the standard in clinical CT. Future technical developments in DFPs will enable an even broader range of clinical applications; research in the arena of flat-panel CT shows no signs of slowing down.

Topics & Concepts

MedicineFlat panel detectorDigital radiographyFlat panelMedical physicsImage qualityHigh resolutionNuclear medicineScannerRadiographyRadiologyComputer scienceDetectorArtificial intelligenceComputer graphics (images)Image (mathematics)GeologyRemote sensingTelecommunicationsDental Radiography and ImagingAdvanced X-ray and CT ImagingMedical Imaging Techniques and Applications