This phantom simulates a contrast medium enhanced head in arterial phase (CT angiography). The neck and upper thorax are included up to the aortic arch and the fifth thoracic vertebra. The vertex is included until approximately 0.5 cm below skin level. The thoracic phantom section excludes shoulder and back parts that are typically not part of CTA examinations.
The interncal carotid artery has calcifications on both sides with moderate stenosis on the right side. Otherwise, the phantom has no significant vascular pathologies.
The phantom can be used in CT (including CBCT) to evaluate and optimize CTA imaging performance and post-processing applications such as vessel segmentation, including AI-enabled applications. It is also nicely suited for training purposes.
The phantom provides a detailed and realistic simulation of vascular structures, soft and bone tissue, including small details such as lymph nodes. Air voids are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of head and neck vessels up to the aortic arch, bone and soft tissues.
Calcifications of the internal carotid artery at the carotid bifurcation on both sides with mild stenosis on the right side.
Specifications
Size: Approx. Approx. 185 x 215 x 322 mm
Weight: Approx. Approx. 5630 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a contrast medium enhanced head in arterial phase (CT angiography). The neck and upper thorax are included up to the aortic arch and the fifth thoracic vertebra. The vertex is included until approximately 0.5 cm below skin level. The thoracic phantom section excludes shoulder and back parts that are typically not part of CTA examinations.
The interncal carotid artery has calcifications on both sides with moderate stenosis on the right side. Otherwise, the phantom has no significant vascular pathologies.
The phantom can be used in CT (including CBCT) to evaluate and optimize CTA imaging performance and post-processing applications such as vessel segmentation, including AI-enabled applications. It is also nicely suited for training purposes.
The phantom provides a detailed and realistic simulation of vascular structures, soft and bone tissue, including small details such as lymph nodes. Air voids are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of head and neck vessels up to the aortic arch, bone and soft tissues.
Calcifications of the internal carotid artery at the carotid bifurcation on both sides with mild stenosis on the right side.
Specifications
Size: Approx. Approx. 185 x 215 x 322 mm
Weight: Approx. Approx. 5630 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a contrast medium enhanced head in arterial phase (CT angiography). It covers the vertex to the fifth cervical vertebra.
The right hemisphere has an arteriovenous malformation.
The phantom can be used in CT (including CBCT) to evaluate and optimize imaging performance and AI-enabled diagnosis. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of vascular structures, soft and bone tissue, including small details such as lymph nodes. Air voids are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of head and neck vessels up to the aortic arch, bone and soft tissues.
Calcifications of the internal carotid artery at the carotid bifurcation on both sides with mild stenosis on the right side.
Specifications
Size: Approx. Approx. 186 x 224 x 269 mm
Weight: Approx. Approx. 5120 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
This phantom simulates a contrast medium enhanced head in arterial phase (CT angiography). It covers the vertex to the fifth cervical vertebra.
The phantom has 10 low-contrast lesions in the centrum semiovale and the right hemisphere has an arteriovenous malformation.
The phantom can be used in CT (including CBCT) to evaluate and optimize imaging performance and AI-enabled diagnosis. It is also suited for training purposes.
The phantom provides a detailed and realistic simulation of vascular structures, soft and bone tissue. Air voids are filled with a cellulose-polymer composite of approx. -160 HU.
Diagnostic features
Realistic simulation of head vessels, bone and soft tissues.
Arteriovenous malformation of the right hemisphere.
5 rod-shaped lesions on each side in the centrum semiovale at the periventricular and supraventricular level.
Lesion diameter: 10 mm
Lesion height: 10.5 mm
Lesion contrast: Approx. -60 to -20 and 20 to 60 HU at 120 kVp
Specifications
Size: Approx. Approx. 186 x 224 x 269 mm
Weight: Approx. Approx. 5120 g
Base material: Cellulose-polymer composite
Optimal tube voltage: 120 kVp (adaptable upon request)
