Single-shot dual-energy x-ray imaging with a flat-panel sandwich detector for preclinical imaging

• We develop a single-shot dual-energy imaging method with a flat-panel sandwich detector that is insensitive to motion artifacts.
• We perform Monte Carlo and cascaded-systems analyses to quantify imaging performance.
• We perform single-shot dual-energy imaging for phantoms and a postmortem mouse.
• The choice between single- and dual-shot methods is a compromise between image CNR and susceptibility to motion artifacts.

We describe a multi-layer (“sandwich”) configuration detector consisting of two x-ray imaging flat-panel detectors for single-shot (single-kV) dual-energy imaging. An intermediate copper filter is used to increase spectral separation between the two detectors to improve contrast at the expense of image noise. Monte Carlo and cascaded-systems analyses of the signal and noise performance are described that quantify performance characteristics. Image quality of dual-energy images obtained from a prototype sandwich-detector system is evaluated using a figure of merit (FOM), defined as the squared contrast-to-noise ratio normalized by x-ray exposure for a mouse phantom for preclinical imaging. Demonstration dual-energy bone and soft-tissues images of a postmortem mouse are obtained using the prototype system. While the FOM with the single-shot detector is lower than that achieved using a conventional dual-shot (dual-kV) method, the single-shot approach may be preferable when imaging speed or insensitivity to motion artifacts is a primary concern.