Ultra Helical CTA combined with AiCE Deep Learning Reconstruction, demonstrating good deployment of the thoracic aortic stent. The low-noise high-resolution properties of AiCE DLR enable excellent visualization of anatomical detail.
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5 mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.5 s |
Scan Range | 624.0 mm |
Dose Reduction | AiCE |
CTDIvol | 2.9 mGy |
DLP | 194.4 mGy·cm |
Effective Dose | 2.8 mSv |
k-factor | 0.0145 (AAPM Report 96) |
High-resolution characteristics of AiCE Deep Learning Reconstruction revealing extensive emphysematous changes of both lung fields.
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5 mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.5 s |
Scan Range | 375.0 mm |
Dose Reduction | AiCE |
CTDIvol | 1.4 mGy |
DLP | 47.4 mGy·cm |
Effective Dose | 0.66 mSv |
k-factor | 0.014 (AAPM Report 96) |
Sub-mSv Ultra Helical CT of the chest revealing tracheal stent in situ with bilateral pleural thickening and pleural effusion with draining tube. Despite the extremely low effective dose, AiCE was able to produce excellent HRCT images in all planes.
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5 mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.275 s |
Scan Range | 340.0 mm |
Dose Reduction | AiCE |
CTDIvol | 1.4 mGy |
DLP | 53.0 mGy·cm |
Effective Dose | 0.7 mSv |
k-factor | 0.014 (AAPM Report 96) |
Scan Mode | Ultra Helical |
Collimation | 0.5mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.275s |
Scan Range | 320.0mm |
Reconstruction | AiCE Lung |
CTDlvol | 0.4mGy |
DLP | 15.7mGy·cm |
Effective Dose | 0.2mSv |
k-factor | 0.014 (AAPM Report 96) |
Scan Mode | Ultra Helical |
Collimation | 0.5mm x 80 |
kVp | 135 |
mAs | SUREExposure |
Rotation Time | 0.5s |
Scan Range | 628.0mm |
Reconstruction | AiCE Body |
CTDlvol | 14.0mGy |
DLP | 942.4mGy·cm |
Effective Dose | 13.6mSv |
k-factor | 0.0145 (AAPM Report 96) |
Ultra Helical CTA of the thoracic aorta revealing with high accuracy the extent of the thrombus. AiCE Deep Learning Reconstruction demonstrates excellent thrombus visualization through low-noise and high-spatial resolution, compared to hybrid IR approaches
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.5s |
Scan Range | 634.0mm |
Reconstruction | AiCE Body |
CTDlvol | 2.3mGy |
DLP | 153.7mGy·cm |
Effective Dose | 2.2mSv |
k-factor | 0.0145 (AAPM Report 96) |
Diagnostic chest imaging at sub-mSv with AiCE Deep Learning Reconstruction. Use AiCE for Global Illumination to help appreciate the extent of the metastatic disease
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.275s |
Scan Range | 300mm |
Reconstruction | AiCE Body |
CTDlvol | 1.5mGy |
DLP | 58.6mGy·cm |
Effective Dose | 0.82mSv |
k-factor | 0.014 (AAPM Report 96) |
Ultra helical non-contrast CT of chest/abdoment/pelvis revealing extensive bone metastasis in dorsolumbosacral spine with an expansile bony mets of the right iliac bone. AiCE Deep Learning Reconstruction demonstrates excellent detail through low-noise and high-spatial resolution characteristics
View Scan ParametersScan Mode | Ultra Helical |
Collimation | 0.5mm x 80 |
kVp | 100 |
mAs | SUREExposure |
Rotation Time | 0.275s |
Scan Range | 700.5mm |
Reconstruction | AiCE |
CTDlvol | 1.7mGy |
DLP | 125.9mGy·cm |
Effective Dose | 1.8mSv |
k-factor | 0.0145 (AAPM Report 96) |
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© CANON MEDICAL SYSTEMS CORPORATION
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