This phantom simulates a contrast medium enhanced thorax, abdomen and pelvis in portal venous phase. It covers the second thoracic vertebra to the perineum.
It has iliac lymph node masses on the right side.
The phantom can be used in CT (including CBCT) to evaluate and optimize imaging performance and post-processing applications, including AI-enabled applications. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of soft and bone tissue. Air voids including those of the lungs are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of vasculature, bone and soft tissues, including the lungs, heart, liver, gallbladder, pancreas, spleen, adrenals, kidneys, stomach, small intestine, colon, bladder and prostate.
External iliac lymph node masses on the right side
Specifications
Size: Approx. Approx. 267 x 185 x 466 mm
Weight: Approx. Approx. 11040 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a contrast medium enhanced thorax, abdomen and pelvis in portal venous phase. It covers the second thoracic vertebra to the perineum.
It has iliac lymph node masses on the right side.
The phantom can be used in CT (including CBCT) to evaluate and optimize imaging performance and post-processing applications, including AI-enabled applications. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of soft and bone tissue. Air voids including those of the lungs are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of vasculature, bone and soft tissues, including the lungs, heart, liver, gallbladder, pancreas, spleen, adrenals, kidneys, stomach, small intestine, colon, bladder and prostate.
External iliac lymph node masses on the right side
Specifications
Size: Approx. Approx. 267 x 185 x 466 mm
Weight: Approx. Approx. 11040 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a 1-year-old child's contrast medium enhanced thorax, abdomen and pelvis in portal venous phase. It covers the sixth cervical vertebra to the perineum. The colon is filled with contrast medium as after rectal administration.
The phantom can be used in CT (including CBCT) and X-ray imaging to evaluate and optimize imaging performance and post-processing applications, including AI-enabled applications. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of soft and bone tissue. Air voids including those of the lungs are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of vasculature, bone and soft tissues, including the lungs, heart, liver, gallbladder, pancreas, spleen, adrenals, kidneys, stomach, small intestine, colon and bladder.
Specifications
Size: Approx. Approx. 210 x 145 x 313 mm
Weight: Approx. Approx. 4400 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a 3-year-old child's contrast medium enhanced thorax, abdomen and pelvis in portal venous phase. It covers the sixth cervical vertebra to the perineum.
The phantom can be used in CT (including CBCT) and X-ray imaging to evaluate and optimize imaging performance and post-processing applications, including AI-enabled applications. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of soft and bone tissue. Air voids including those of the lungs are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of vasculature, bone and soft tissues, including the lungs, heart, liver, gallbladder, pancreas, spleen, adrenals, kidneys, stomach, small intestine, colon and bladder.
Specifications
Size: Approx. Approx. 235 x 144 x 398 mm
Weight: Approx. Approx. 6300 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
