Add to ORKGBoth computer simulations and experimental phantom studies were carried out to investigate the radiation dose reduction with tensor framelet based iterative image reconstruction (TFIR) for a dedicated high-resolution spectral breast computed tomography (CT) based on a silicon strip photon-counting detector. The simulation was performed with a 10 cm-diameter water phantom including three contrast materials (polyethylene, 8 mg ml(-1) iodine and B-100 bone-equivalent plastic). In the experimental study, the data were acquired with a 1.3 cm-diameter polymethylmethacrylate (PMMA) phantom containing iodine in three concentrations (8, 16 and 32 mg ml(-1)) at various radiation doses (1.2, 2.4 and 3.6 mGy) and then CT images were reconstructed using...
We present the first evaluation of a recently developed silicon-strip detector for photon-counting d...
In the framework of the BREAST-CT project funded by INFN (Committee V), the Medical Physics group of...
Purpose: Within the SYRMA-CT collaboration based at the ELETTRA synchrotron radiation (SR) facility ...
Both computer simulations and experimental phantom studies were carried out to investigate the radia...
PURPOSE: Breast CT is an emerging imaging technique that can portray the breast in 3D and improve vi...
PurposeTo investigate the feasibility of detecting breast microcalcification (μCa) with a dedicated ...
OBJECTIVES The aim of the article was to evaluate the lesion detectability, image quality, and ra...
Purpose: Photon counting spectral (PCS) computed tomography (CT) shows promise for breast imaging. A...
The purpose of this study was to quantify the effectiveness of techniques intended to reduce dose to...
About 1.7 million new cases of breast cancer were estimated by the World Health Organization (WHO) i...
We present the implementation of the CT iterative reconstruction strategy developed within the SYRMA...
We compared reconstruction algorithms [filtered back projection (FBP), maximum likelihood ex-pectati...
PurposeThe possible clinical applications which can be performed using a newly developed detector de...
Abstract Conventional CT scanners use energy-integrating detectors (EIDs). Photon-counting detector ...
We present the first evaluation of a recently developed silicon-strip detector for photon-counting d...
In the framework of the BREAST-CT project funded by INFN (Committee V), the Medical Physics group of...
Purpose: Within the SYRMA-CT collaboration based at the ELETTRA synchrotron radiation (SR) facility ...
Both computer simulations and experimental phantom studies were carried out to investigate the radia...
PURPOSE: Breast CT is an emerging imaging technique that can portray the breast in 3D and improve vi...
PurposeTo investigate the feasibility of detecting breast microcalcification (μCa) with a dedicated ...
OBJECTIVES The aim of the article was to evaluate the lesion detectability, image quality, and ra...
Purpose: Photon counting spectral (PCS) computed tomography (CT) shows promise for breast imaging. A...
The purpose of this study was to quantify the effectiveness of techniques intended to reduce dose to...
About 1.7 million new cases of breast cancer were estimated by the World Health Organization (WHO) i...
We present the implementation of the CT iterative reconstruction strategy developed within the SYRMA...
We compared reconstruction algorithms [filtered back projection (FBP), maximum likelihood ex-pectati...
PurposeThe possible clinical applications which can be performed using a newly developed detector de...
Abstract Conventional CT scanners use energy-integrating detectors (EIDs). Photon-counting detector ...
We present the first evaluation of a recently developed silicon-strip detector for photon-counting d...
In the framework of the BREAST-CT project funded by INFN (Committee V), the Medical Physics group of...
Purpose: Within the SYRMA-CT collaboration based at the ELETTRA synchrotron radiation (SR) facility ...