It is of clinical interest to decompose a three material mixture into its constituted substances using dual-energy CT. In radiation therapy, for example material decomposition can be used to determine tissue properties for the calculation of dose in treatment planning. Due to use of polychromatic spectrum in CT, beam hardening artifacts prevent to achieve fully satisfactory results. Here an iterative reconstruction algorithm proposed by A. Malusek, M. Magnusson, M.Sandborg, and G. Alm Carlsson in 2008 is implemented to achieve this goal. The iterative algorithm can be implemented with both single- and dual-energy CT. The material decomposition process is based on mass conservation and volume conservation assumptions. The implementation and ...
ABSTRACT X-ray CT images have various applications, including CTbased attenuation correction (CTAC) ...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
It is of clinical interest to decompose a three material mixture into its constituted substances usi...
Abstract. Quantitative tissue classification using dual-energy CT has the potential to improve accur...
In principle, dual-energy CT can only accurately decompose a mixture into two materials. To decompos...
Dual Energy Computed Tomography (DECT) is an emerging technique that offers new possibilities to det...
We present and evaluate an iterative dual energy CT reconstruction algorithm for a K-edge contrast m...
The choice of the material base to which the material decomposition is performed in dual-energy comp...
Material decomposition (MD) is an important application of computer tomography (CT). For phase contr...
The physical principles of dual-energy computed tomography (DECT) are as old as computed tomography ...
Purpose: To develop and evaluate-in a proof-of-concept configuration-a novel iterative reconstructio...
International audiencePURPOSE:Dual-energy computed tomography (DECT) makes it possible to get two fr...
ObjectivesConventional material decomposition techniques for dual-energy computed tomography (CT) as...
Material decomposition in computed tomography is a method for differentiation and quantification of ...
ABSTRACT X-ray CT images have various applications, including CTbased attenuation correction (CTAC) ...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
It is of clinical interest to decompose a three material mixture into its constituted substances usi...
Abstract. Quantitative tissue classification using dual-energy CT has the potential to improve accur...
In principle, dual-energy CT can only accurately decompose a mixture into two materials. To decompos...
Dual Energy Computed Tomography (DECT) is an emerging technique that offers new possibilities to det...
We present and evaluate an iterative dual energy CT reconstruction algorithm for a K-edge contrast m...
The choice of the material base to which the material decomposition is performed in dual-energy comp...
Material decomposition (MD) is an important application of computer tomography (CT). For phase contr...
The physical principles of dual-energy computed tomography (DECT) are as old as computed tomography ...
Purpose: To develop and evaluate-in a proof-of-concept configuration-a novel iterative reconstructio...
International audiencePURPOSE:Dual-energy computed tomography (DECT) makes it possible to get two fr...
ObjectivesConventional material decomposition techniques for dual-energy computed tomography (CT) as...
Material decomposition in computed tomography is a method for differentiation and quantification of ...
ABSTRACT X-ray CT images have various applications, including CTbased attenuation correction (CTAC) ...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...