Edge-illumination spectral phase-contrast tomography.
Luca BrombalFulvia ArfelliFrancesco BrunVittorio Di TrapaniMarco EndrizziRalf MenkPaola PerionLuigi RigonMara SaccomanoGiuliana TrombaAlessandro OlivoPublished in: Physics in medicine and biology (2024)
Following the rapid, but independent, diffusion of X-ray spectral and phase-contrast systems, this work demonstrates the first combination of spectral and phase-contrast computed tomography (CT) obtained by using the edge-illumination technique and a CdTe small-pixel (62 μm) spectral detector. A theoretical model is introduced, starting from a standard attenuation-based spectral decomposition and leading to spectral phase-contrast material decomposition. Each step of the model is followed by quantification of accuracy and sensitivity on experimental data of a test phantom containing different solutions with known concentrations. An example of a micro CT application (20 μm voxel size) on an iodine-perfused ex-vivo murine model is reported. 
The work demonstrates that spectral-phase contrast combines the advantages of spectral imaging, i.e. high-Z material discrimination capability, and phase-contrast imaging, i.e. soft tissue sensitivity, yielding simultaneously mass density maps of water, calcium, and iodine with an accuracy of 1.1%, 3.5%, and 1.9% (root mean square errors), respectively. Results also show a 9-fold increase in the signal-to-noise ratio of the water channel when compared to standard spectral decomposition. The application to the murine model revealed the potential of the technique in the simultaneous 3D visualization of soft tissue, bone, and vasculature. While being implemented by using a broad spectrum (pink beam) at a synchrotron radiation facility (Elettra, Trieste, Italy), the proposed experimental setup can be readily translated to compact laboratory systems including conventional X-ray tubes.
Keyphrases
- dual energy
- computed tomography
- contrast enhanced
- image quality
- magnetic resonance
- optical coherence tomography
- soft tissue
- magnetic resonance imaging
- positron emission tomography
- high resolution
- emergency department
- patient safety
- artificial intelligence
- mass spectrometry
- climate change
- single cell
- quality improvement
- quantum dots
- molecularly imprinted