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SOMATOM Definition EdgeExceeding expectations VS. Accepting the average
Second best is not an option.
Improve your institution’s process efficiency and patient outcome by exceeding expectations in all clinical capabilities – from contrast media-efficient TAVI planning to precise therapy response management, and optimized emergency care workflow.
Cardiology
What do you expect from a new CT scanner to improve your institution’s clinical capabilities in Cardiology?
Expand your institution’s clinical capabilities by improving contrast media efficiency in low kV TAVI planning, introducing absolutely precise plaque differentiation, and reliable, high-speed triple rule-out scanning.
Clinical Cases
Courtesy of CIMOP
Bizet, Paris, France
Coronary CTA
Cardiac imaging with high heart rates > 80
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 3.7 s
Scan length: 137 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 98 mAs
CTDIIvol: 11.39 mGy
DLP: 179 mGycm
Eff. Dose: 2.5 mSv
HR: 81 bpm
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Myocardial bridge in the LAD
Higher temporal and spatial resolution result in excellent image quality at lower dose, even with arrhythmia at 59 – 104 bpm.
Collimation: 128 x 0.6 mm
Scan time: 5.0 s
Scan length: 156 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 129 eff. mAs
CTDIvol: 8.55 mGy
DLP: 149 mGycm
Eff. Dose: 2.08 mSv
HR: 59 – 104 bpm
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Calcified plaque and stent in the RCA
High rotation speed of 0.28 s enables visualization and stent evaluation even in the fastest moving part of the heart. In this case a small stent in the RCA shows no signs of occlusion.
Collimation: 128 x 0.6 mm
Scan time: 5.0 s
Scan length: 154 mm
Rotation time: 0.28 s
Tube settings: 100kV, 100 eff. mAs
CTDlvol: 13.12 mGy
DLP: 228 mGycm
Eff. Dose: 3.19 mSv
HR: 70 bpm
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Stenosis in the RCA
High temporal resoluiton (142 ms) in combination with Stellar detector delivers diagnostic image quality comparible to an angiographic image.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7.6 s
Scan length: 161 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 86 eff. mAs
CTDlvol: 7.37 mGy
DLP: 133 mGycm
Eff. Dose: 1.86 mSv
HR: 61-70 bpm
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Aortic CTA on female (31y)
CARE kV automatically sets the right kV for reproducible image quality and enhanced contrast with low kV imaging and reduced dose. In this case using 70kV.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 9.0 s
Scan length: 640 mm
Rotation time: 0.5 s
Tube settings: 70 kV, 192 eff. mAs
CTDIvol: 2.22 mGy
DLP: 147 mGycm
Eff. Dose: 2.2 mSv
Courtesy of CIMOP Bizet,
Paris, France
Comparison between 0.5 and 0.6 mm slices
Higher diagnostic confidence with 0.5 mm slices even at a heartrate > 80 bpm
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7.6 s
Scan length: 161 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 86 eff. mAs
CTDIvol: 7.37 mGy
DLP: 133 mGycm
Eff. Dose: 1.86 mSv
HR: 61-70 bpm
0.5 mm slices reveal fibro-calcified plaque
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
TAVI planning
An acquisition speed of up to 23 cm/s (pitch 1.7) boosts contrast media efficiency and shortens scan times substantially in pre-procedural TAVI/TAVR planning.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 2.5 s
Scan length: 580 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 70 mAs
CTDIvol: 2.77 mGy
DLP: 172 mGycm
Eff. Dose: 2.49 mSv
Courtesy of CIMOP
Bizet, Paris, France
Coronary CTA
Cardiac imaging with high heart rates > 80
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 3.7 s
Scan length: 137 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 98 mAs
CTDIIvol: 11.39 mGy
DLP: 179 mGycm
Eff. Dose: 2.5 mSv
HR: 81 bpm
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Myocardial bridge in the LAD
Higher temporal and spatial resolution result in excellent image quality at lower dose, even with arrhythmia at 59 – 104 bpm.
Collimation: 128 x 0.6 mm
Scan time: 5.0 s
Scan length: 156 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 129 eff. mAs
CTDIvol: 8.55 mGy
DLP: 149 mGycm
Eff. Dose: 2.08 mSv
HR: 59 – 104 bpm
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Calcified plaque and stent in the RCA
High rotation speed of 0.28 s enables visualization and stent evaluation even in the fastest moving part of the heart. In this case a small stent in the RCA shows no signs of occlusion.
Collimation: 128 x 0.6 mm
Scan time: 5.0 s
Scan length: 154 mm
Rotation time: 0.28 s
Tube settings: 100kV, 100 eff. mAs
CTDlvol: 13.12 mGy
DLP: 228 mGycm
Eff. Dose: 3.19 mSv
HR: 70 bpm
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Courtesy of CIMOP Bizet,
Paris, France
Stenosis in the RCA
High temporal resoluiton (142 ms) in combination with Stellar detector delivers diagnostic image quality comparible to an angiographic image.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7.6 s
Scan length: 161 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 86 eff. mAs
CTDlvol: 7.37 mGy
DLP: 133 mGycm
Eff. Dose: 1.86 mSv
HR: 61-70 bpm
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Courtesy of Linköping University Hospital
Linköping, Sweden
Aortic CTA on female (31y)
CARE kV automatically sets the right kV for reproducible image quality and enhanced contrast with low kV imaging and reduced dose. In this case using 70kV.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 9.0 s
Scan length: 640 mm
Rotation time: 0.5 s
Tube settings: 70 kV, 192 eff. mAs
CTDIvol: 2.22 mGy
DLP: 147 mGycm
Eff. Dose: 2.2 mSv
Courtesy of CIMOP Bizet,
Paris, France
Comparison between 0.5 and 0.6 mm slices
Higher diagnostic confidence with 0.5 mm slices even at a heartrate > 80 bpm
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7.6 s
Scan length: 161 mm
Rotation time: 0.28 s
Tube settings: 80 kV, 86 eff. mAs
CTDIvol: 7.37 mGy
DLP: 133 mGycm
Eff. Dose: 1.86 mSv
HR: 61-70 bpm
0.5 mm slices reveal fibro-calcified plaque
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
Courtesy of Radiologie LMU Grosshadern,
Munich, Germany
TAVI planning
An acquisition speed of up to 23 cm/s (pitch 1.7) boosts contrast media efficiency and shortens scan times substantially in pre-procedural TAVI/TAVR planning.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 2.5 s
Scan length: 580 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 70 mAs
CTDIvol: 2.77 mGy
DLP: 172 mGycm
Eff. Dose: 2.49 mSv
Courtesy of CIMOP
Bizet, Paris, France
Coronary CTA
Cardiac imaging with high heart rates > 80
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 3.7 s
Scan length: 137 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 98 mAs
CTDIIvol: 11.39 mGy
DLP: 179 mGycm
Eff. Dose: 2.5 mSv
HR: 81 bpm
What do you expect from a new CT scanner to improve your institution’s clinical capabilities in Emergency Medicine?
You will be able to optimize process efficiency with solutions that let you not only improve emergency workflow but also substantially reduce door-to-image time, from pediatric to obese patients.
Clinical Cases
Courtesy of Linköping University
Hospital, Linköping, Sweden
Obese patients in emergency medicine
Up to 23 cm/s in clinical routine with a pitch of 1.7
Collimation: 128 x 0.6 mm
Pitch: 1.7
Spatial resolution: 0.30 mm
Scan time: 1.1 s
Scan length: 252 mm
Rotation time: 0.28 s
Tube settings: 120 kV, 130 eff. mAs
DLP: 260 mGycm
CTDIvol: 8.83mGy
Eff. Dose: 3.64 mSv
Fast pitch of 1.7 and high rotation speed in clinical routine with obese patients!
w/o iMAR*/**, w/o ADMIRE***
with iMAR*/**, with ADMIRE***Courtesy of Luzerner Kantonsspital,
Luzern, Switzerland
Metal artifact reduction with iMAR and ADMIRE
Removes or mitigates artifacts
Courtesy of Luzerner Kantonsspital
Luzern, Switzerland
Follow up on spinal fixation
iMAR*/** applies iterative corrections to reduce metal artifacts effectively. It can be routinely applied in follow up imaging, such as spinal fixation, to visualize the location of the screws and the structures of the spine.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7 s
Scan length: 260 mm
Rotation time: 1.0 s
Tube settings: 120 kV, 206 mAs
DLP: 392.2 mGycm
CTDIvol: 13.90 mGy
Eff. Dose: 5.9 mSv
w/o iMAR*/**
with iMAR*/**Courtesy of Luzerner Kantonsspital
Luzern, Switzerland
Metal artifact reduction with iMAR
Bilateral Hip Implant
Collimation: 128 x 0.6 mm
Scan time: 9.5 s
Scan length: 448.5 mm
Rotation time: 0.5 s
Tube settings: 100 kV, 372 eff.mAs
DLP: 682.4 mGycm
Eff. Dose: 10.2 mSv
CTDIvol: 14.7 mGy
w/o iMAR*/**
with iMAR*/**Courtesy of University Hospital
Erlangen-Nuremberg, Erlangen,
Germany
Metal artifact reduction with iMAR*/** – Dental fillings
Metal artifacts from dental fillings can dilute image quality and mislead diagnosis – iMAR now tackles this challenge
Collimation: 128 x 0.6 mm
Scan time: 11.0 s
Scan length: 264 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 83 eff.mAs
DLP: 240 mGycm
Eff. Dose: 0.5 mSv
CTDIvol: 8.6 mGy
w/o iMAR*/**, w/o ADMIRE***
with iMAR*/**, w/o ADMIRE***Courtesy of University Hospital of Basel,
Basel, Switzerland
Metal artifact reduction with iMAR*/** – Pre-biopsy imaging of a small tumor adjacent to a tibial metal implant –
iMAR*/** technology can even be applied in very difficult cases, such as a small tumor adjacent to a tibial metal fixation, to provide clear guidance for biopsy.
Collimation: 128 x 0.6 mm
Scan time: 4.4 s
Scan length: 147 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 157 eff.mAs
DLP: 173.3 mGycm
Eff. Dose: 2.6 mSv
CTDIvol: 10.61 mGy
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Comparison between previous scanner and SOMATOM Definition Edge
TwinBeam Dual Energy*** scan with iMAR*/** reveals smallest details.
Collimation: 64 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 8 s
Scan length: 356 mm
Rotation time: 0.33 s
Tube settings: AuSN 120 kV, 283 mAs
DLP: 228 mGycm
CTDIvol: 10.61 mGy
Eff. Dose: 3.4 mSv
iMAR*/** removes metal artifacts for advanced diagnostic image quality
Courtesy of Clinique CIMOP Bizet
Paris, France
Inner Ear imaging
Higher spatial resolution enables z‑UHR like image quality in less time and with less dose.
Collimation: 16 x 0.3 mm
Spatial resolution: 0.30 mm
Scan time: 12 s
Scan length: 49 mm
Rotation time: 1.0 s
Tube settings: AuSN 120 kV, 121 mAs
DLP: 1480mGycm
CTDIvol: 27.08 mGy
Eff. Dose: 0.46 mSv
Lateral ankle joint fracture
In trauma cases higher spatial resolution shows even very fine structures like on this fibula bone splintering.
Collimation: 16 x 0.3 mm
Spatial resolution: 0.30 mm
Scan time: 52.0 s
Scan length: 209 mm
Rotation time: 1.0 s
Tube settings: 120 kV, 232 eff. mAs
DLP: 454 mGycm
CTDIvol: 21.89 mGy
Eff. Dose: 0.36 mSv
Courtesy of University Hospital
Erlangen-Nuremberg,
Erlangen, Germany
TwinBeam Dual Energy* – Bone removal
Infra-renal abdominal aortic aneurysm (AAA)
TwinBeam Dual Energy acquires a whole body CTA at two different enegry levels in a single scan. Such a large dataset can be converted into three dimensional visualizations very conveniently and easily using automatic bone removal.
Collimation: 64 x 0.6 mm
Scan time: 44 s
Scan length: 1,534 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 301 eff. mAs
DLP: 1,007.8 mGycm
CTDIvol: 6.44 mGy
Eff. Dose: 8 mSv
Rule out of oesophagus stenosis due to asperation in 9m old baby
Fast pitch enables scan without sedation
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 0.6 s
Scan length: 133 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 4 eff. mAs
DLP: 2 mGycm
CTDIvol: 0.14 mGy
Eff. Dose: 0.17 mSv
Fast pitch of 1.7 and high rotation speed offer fast outcome at very low dose with DLP of 2!
Courtesy of LMU Grosshadern
Munich, Germany
Comprehensive stroke assessment
Stroke workflow with Adaptive 4D Spiral
VPCT:
Collimation: 32 x 1.2 mm
Spatial resolution: 0.30 mm
Scan time: 44.0 s
Scan length: 90 mm
Rotation time: 0.5 s
Tube settings: 80 kV, 200 mAs
CTDIvol: 237.49 mGy
DLP: 2,800 mGycm
Eff. Dose: 5.88 mSv
CTA:
Collimation: 128 x 0.6 mm
Scan time: 6 s
Scan length: 370 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 211 mAs
CTDIvol: 18.47 mGy
DLP: 724 mGycm
Eff. Dose: 3.04 mSv
Courtesy of Erasmus Medical Center,
Rotterdam, Netherlands
FAST Spine for automated spine reconstruction
13y old boy with scoliosis
Collimation: 128 x 0.6 mm
Scan time: 18 s
Scan length: 541 mm
Rotation time: 1.0 s
Tube settings: 100 kV, 52 eff. mAs
CTDIvol: 237.49 mGy
Eff. Dose: 1.44 mSv
Automated spine reconstruction in less time and with higher diagnostic quality
Courtesy of Linköping University
Hospital, Linköping, Sweden
Obese patients in emergency medicine
Up to 23 cm/s in clinical routine with a pitch of 1.7
Collimation: 128 x 0.6 mm
Pitch: 1.7
Spatial resolution: 0.30 mm
Scan time: 1.1 s
Scan length: 252 mm
Rotation time: 0.28 s
Tube settings: 120 kV, 130 eff. mAs
DLP: 260 mGycm
CTDIvol: 8.83mGy
Eff. Dose: 3.64 mSv
Fast pitch of 1.7 and high rotation speed in clinical routine with obese patients!
w/o iMAR*/**, w/o ADMIRE***with iMAR*/**, with ADMIRE***Courtesy of Luzerner Kantonsspital,
Luzern, Switzerland
Metal artifact reduction with iMAR and ADMIRE
Removes or mitigates artifacts
Courtesy of Luzerner Kantonsspital
Luzern, Switzerland
Follow up on spinal fixation
iMAR*/** applies iterative corrections to reduce metal artifacts effectively. It can be routinely applied in follow up imaging, such as spinal fixation, to visualize the location of the screws and the structures of the spine.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 7 s
Scan length: 260 mm
Rotation time: 1.0 s
Tube settings: 120 kV, 206 mAs
DLP: 392.2 mGycm
CTDIvol: 13.90 mGy
Eff. Dose: 5.9 mSv
w/o iMAR*/**with iMAR*/**Courtesy of Luzerner Kantonsspital
Luzern, Switzerland
Metal artifact reduction with iMAR
Bilateral Hip Implant
Collimation: 128 x 0.6 mm
Scan time: 9.5 s
Scan length: 448.5 mm
Rotation time: 0.5 s
Tube settings: 100 kV, 372 eff.mAs
DLP: 682.4 mGycm
Eff. Dose: 10.2 mSv
CTDIvol: 14.7 mGy
w/o iMAR*/**with iMAR*/**Courtesy of University Hospital
Erlangen-Nuremberg, Erlangen,
Germany
Metal artifact reduction with iMAR*/** – Dental fillings
Metal artifacts from dental fillings can dilute image quality and mislead diagnosis – iMAR now tackles this challenge
Collimation: 128 x 0.6 mm
Scan time: 11.0 s
Scan length: 264 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 83 eff.mAs
DLP: 240 mGycm
Eff. Dose: 0.5 mSv
CTDIvol: 8.6 mGy
w/o iMAR*/**, w/o ADMIRE***with iMAR*/**, w/o ADMIRE***Courtesy of University Hospital of Basel,
Basel, Switzerland
Metal artifact reduction with iMAR*/** – Pre-biopsy imaging of a small tumor adjacent to a tibial metal implant –
iMAR*/** technology can even be applied in very difficult cases, such as a small tumor adjacent to a tibial metal fixation, to provide clear guidance for biopsy.
Collimation: 128 x 0.6 mm
Scan time: 4.4 s
Scan length: 147 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 157 eff.mAs
DLP: 173.3 mGycm
Eff. Dose: 2.6 mSv
CTDIvol: 10.61 mGy
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Comparison between previous scanner and SOMATOM Definition Edge
TwinBeam Dual Energy*** scan with iMAR*/** reveals smallest details.
Collimation: 64 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 8 s
Scan length: 356 mm
Rotation time: 0.33 s
Tube settings: AuSN 120 kV, 283 mAs
DLP: 228 mGycm
CTDIvol: 10.61 mGy
Eff. Dose: 3.4 mSv
iMAR*/** removes metal artifacts for advanced diagnostic image quality
Courtesy of Clinique CIMOP Bizet
Paris, France
Inner Ear imaging
Higher spatial resolution enables z‑UHR like image quality in less time and with less dose.
Collimation: 16 x 0.3 mm
Spatial resolution: 0.30 mm
Scan time: 12 s
Scan length: 49 mm
Rotation time: 1.0 s
Tube settings: AuSN 120 kV, 121 mAs
DLP: 1480mGycm
CTDIvol: 27.08 mGy
Eff. Dose: 0.46 mSv
Lateral ankle joint fracture
In trauma cases higher spatial resolution shows even very fine structures like on this fibula bone splintering.
Collimation: 16 x 0.3 mm
Spatial resolution: 0.30 mm
Scan time: 52.0 s
Scan length: 209 mm
Rotation time: 1.0 s
Tube settings: 120 kV, 232 eff. mAs
DLP: 454 mGycm
CTDIvol: 21.89 mGy
Eff. Dose: 0.36 mSv
Courtesy of University Hospital
Erlangen-Nuremberg,
Erlangen, Germany
TwinBeam Dual Energy* – Bone removal
Infra-renal abdominal aortic aneurysm (AAA)
TwinBeam Dual Energy acquires a whole body CTA at two different enegry levels in a single scan. Such a large dataset can be converted into three dimensional visualizations very conveniently and easily using automatic bone removal.
Collimation: 64 x 0.6 mm
Scan time: 44 s
Scan length: 1,534 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 301 eff. mAs
DLP: 1,007.8 mGycm
CTDIvol: 6.44 mGy
Eff. Dose: 8 mSv
Rule out of oesophagus stenosis due to asperation in 9m old baby
Fast pitch enables scan without sedation
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 0.6 s
Scan length: 133 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 4 eff. mAs
DLP: 2 mGycm
CTDIvol: 0.14 mGy
Eff. Dose: 0.17 mSv
Fast pitch of 1.7 and high rotation speed offer fast outcome at very low dose with DLP of 2!
Courtesy of LMU Grosshadern
Munich, Germany
Comprehensive stroke assessment
Stroke workflow with Adaptive 4D Spiral
VPCT:
Collimation: 32 x 1.2 mm
Spatial resolution: 0.30 mm
Scan time: 44.0 s
Scan length: 90 mm
Rotation time: 0.5 s
Tube settings: 80 kV, 200 mAs
CTDIvol: 237.49 mGy
DLP: 2,800 mGycm
Eff. Dose: 5.88 mSv
CTA:
Collimation: 128 x 0.6 mm
Scan time: 6 s
Scan length: 370 mm
Rotation time: 0.5 s
Tube settings: 120 kV, 211 mAs
CTDIvol: 18.47 mGy
DLP: 724 mGycm
Eff. Dose: 3.04 mSv
Courtesy of Erasmus Medical Center,
Rotterdam, Netherlands
FAST Spine for automated spine reconstruction
13y old boy with scoliosis
Collimation: 128 x 0.6 mm
Scan time: 18 s
Scan length: 541 mm
Rotation time: 1.0 s
Tube settings: 100 kV, 52 eff. mAs
CTDIvol: 237.49 mGy
Eff. Dose: 1.44 mSv
Automated spine reconstruction in less time and with higher diagnostic quality
Courtesy of Linköping University
Hospital, Linköping, Sweden
Obese patients in emergency medicine
Up to 23 cm/s in clinical routine with a pitch of 1.7
Collimation: 128 x 0.6 mm
Pitch: 1.7
Spatial resolution: 0.30 mm
Scan time: 1.1 s
Scan length: 252 mm
Rotation time: 0.28 s
Tube settings: 120 kV, 130 eff. mAs
DLP: 260 mGycm
CTDIvol: 8.83mGy
Eff. Dose: 3.64 mSv
Fast pitch of 1.7 and high rotation speed in clinical routine with obese patients!
w/o iMAR*/**, w/o ADMIRE***with iMAR*/**, with ADMIRE***w/o iMAR*/**with iMAR*/**w/o iMAR*/**with iMAR*/**w/o iMAR*/**, w/o ADMIRE***with iMAR*/**, w/o ADMIRE***What do you expect from a new CT scanner to improve your institution’s clinical capabilities in Oncology?
Optimize your patient outcome by introducing early tumor identification, fast, easy and reliable therapy response assessment, and improved, low dose therapy control.
Clinical Cases
Courtesy of University Hospital
Erlangen-Nuremberg, Erlangen,
Germany
TwinBeam Dual Energy* for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv
CTDIvol: 8.8 mGy
w/o Admire***
with Admire***Courtesy of Luzerner Kantonsspital,
Luzern, Switzerland
ADMIRE* - Pediatric Cerebrum
Collimation: 128 x 0.6 mm
Scan time: 5.7 s
Scan length: 140 mm
Rotation time: 1 s
Tube settings: 120 kV, 146 eff. mAs
CTDIvol: 21.1 mGy
DLP: 329.9 mGycm
Eff. Dose: 1.3 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Kidney cyst
TwinBeam Dual Energy* with monoenergetic imaging enhances the image contrast at lower keV settings, thus provide confidence in differential diagnosis.
Collimation: 64 x 0.6 mm
Scan time: 13.2 s
Scan length: 468 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 467 eff. mAs
CTDIvol: 10.00 mGy
DLP: 486.3 mGycm
Eff. Dose: 7.3 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Differential diagnosis of multiple hepatic lesions
TwinBeam Dual Energy* acquires body imaging at two different energy levels in a single scan. The characters of the multiple hepatic lesions can be clearly differentiated using Liver VNC.
Collimation: 64 x 0.6 mm
Scan length: 650 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 355 mAs
CTDIvol: 7.6 mGy
DLP: 508 mGycm
Eff. Dose: 7.6 mSv
Courtesy of Radiologie LMU Grosshadern
Munich, Germany
Intervention of Hepatic metastasis
Adaptive 3D Intervention Suite enables high end interventional procedures with near to real-time coronal, sagittal and oblique image guidance. In this case with a tumor ablation.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 3.0 s
Scan length: 179 mm
Rotation time: 0.5 s
Tube settings: 80 kV, 150 eff. mAs
Interstitial lung disease
Higher spatial resolution showing detailed structures
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 4.0 s
Scan length: 361 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 72 eff. mAs
CTDIvol: 2.85 mGy
DLP: 93 mGycm
Eff. Dose: 1.3 mSv
High resolution lung imaging with excellent details
Courtesy of CIMOP Bizet
Paris, France
Stellar detector in combination with interative reconstruction
offers rule out of pulmonary disease with ultra low dose scan
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 1.9 s
Scan length: 300 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 10 eff. mAs
DLP: 15 mGycm
Eff. Dose: 0.21 mSv
CTDIvol: 0.39 mGy
Low dose lung scan with excellent diagnostic details
Courtesy of University Hospital
Erlangen-Nuremberg, Erlangen,
Germany
TwinBeam Dual Energy* for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv
CTDIvol: 8.8 mGy
w/o Admire***with Admire***Courtesy of Luzerner Kantonsspital,
Luzern, Switzerland
ADMIRE* - Pediatric Cerebrum
Collimation: 128 x 0.6 mm
Scan time: 5.7 s
Scan length: 140 mm
Rotation time: 1 s
Tube settings: 120 kV, 146 eff. mAs
CTDIvol: 21.1 mGy
DLP: 329.9 mGycm
Eff. Dose: 1.3 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Kidney cyst
TwinBeam Dual Energy* with monoenergetic imaging enhances the image contrast at lower keV settings, thus provide confidence in differential diagnosis.
Collimation: 64 x 0.6 mm
Scan time: 13.2 s
Scan length: 468 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 467 eff. mAs
CTDIvol: 10.00 mGy
DLP: 486.3 mGycm
Eff. Dose: 7.3 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Differential diagnosis of multiple hepatic lesions
TwinBeam Dual Energy* acquires body imaging at two different energy levels in a single scan. The characters of the multiple hepatic lesions can be clearly differentiated using Liver VNC.
Collimation: 64 x 0.6 mm
Scan length: 650 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 355 mAs
CTDIvol: 7.6 mGy
DLP: 508 mGycm
Eff. Dose: 7.6 mSv
Courtesy of Radiologie LMU Grosshadern
Munich, Germany
Intervention of Hepatic metastasis
Adaptive 3D Intervention Suite enables high end interventional procedures with near to real-time coronal, sagittal and oblique image guidance. In this case with a tumor ablation.
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 3.0 s
Scan length: 179 mm
Rotation time: 0.5 s
Tube settings: 80 kV, 150 eff. mAs
Interstitial lung disease
Higher spatial resolution showing detailed structures
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 4.0 s
Scan length: 361 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 72 eff. mAs
CTDIvol: 2.85 mGy
DLP: 93 mGycm
Eff. Dose: 1.3 mSv
High resolution lung imaging with excellent details
Courtesy of CIMOP Bizet
Paris, France
Stellar detector in combination with interative reconstruction
offers rule out of pulmonary disease with ultra low dose scan
Collimation: 128 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 1.9 s
Scan length: 300 mm
Rotation time: 0.28 s
Tube settings: 100 kV, 10 eff. mAs
DLP: 15 mGycm
Eff. Dose: 0.21 mSv
CTDIvol: 0.39 mGy
Low dose lung scan with excellent diagnostic details
Courtesy of University Hospital
Erlangen-Nuremberg, Erlangen,
Germany
TwinBeam Dual Energy* for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv
CTDIvol: 8.8 mGy
w/o Admire***with Admire***TwinBeam Dual Energy
Expand your clinical capabilities and improve patient outcome with TwinBeam Dual Energy*.
TwinBeam Dual Energy* combines latest dose reduction techniques with crisp image quality for the characterization, quantification, and differentiation of material – rich diagnostic possibilities for virtually all patients and a wide range of clinical questions.
- Simultaneous acquisition of high and low energy spectra
- Enables high contrast dynamic applications
- All dose reduction technologies applicable, such as CARE Dose4D, ADMIRE*, SAFIRE*, etc.
Clinical Cases
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
TwinBeam Dual Energy for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv CTDIvol: 8.8 mGy
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Differential diagnosis of multiple hepatic lesions
TwinBeam Dual Energy acquires* body imaging at two different energy levels in a single scan. The characters of the multiple hepatic lesions can be clearly differentiated using Liver VNC.
Collimation: 64 x 0.6 mm
Scan length: 650 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 355 mAs
CTDIvol: 7.6 mGy
DLP: 508 mGycm
Eff. Dose: 7.6 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Comparison between previous scanner and SOMATOM Definition Edge
TwinBeam Dual Energy scan with iMAR reveals smallest details.
Collimation: 64 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 8 s
Scan length: 356 mm
Rotation time: 0.33 s
Tube settings: AuSN 120 kV, 283 mAs
DLP: 228 mGycm
CTDIvol: 6.08 mGy
Eff. Dose: 3.4 mSv
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
TwinBeam Dual Energy - Bone removal
Infra-renal abdominal aortic aneurysm (AAA) TwinBeam Dual Energy acquires a whole body CTA at two different energy levels in a single scan. Such a large dataset can be converted into three dimensional visualizations very conveniently and easily using automatic bone removal.
Collimation: 64 x 0.6 mm
Scan time: 44 s
Scan length: 1,534 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV 301 eff. mAs
DLP: 1,007.8 mGycm
CTDIvol: 6.44 mGy
Eff. Dose: 8 mSv
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
TwinBeam Dual Energy for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv CTDIvol: 8.8 mGy
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Differential diagnosis of multiple hepatic lesions
TwinBeam Dual Energy acquires* body imaging at two different energy levels in a single scan. The characters of the multiple hepatic lesions can be clearly differentiated using Liver VNC.
Collimation: 64 x 0.6 mm
Scan length: 650 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV, 355 mAs
CTDIvol: 7.6 mGy
DLP: 508 mGycm
Eff. Dose: 7.6 mSv
Courtesy of Universitätsspital Basel,
Basel, Switzerland
Comparison between previous scanner and SOMATOM Definition Edge
TwinBeam Dual Energy scan with iMAR reveals smallest details.
Collimation: 64 x 0.6 mm
Spatial resolution: 0.30 mm
Scan time: 8 s
Scan length: 356 mm
Rotation time: 0.33 s
Tube settings: AuSN 120 kV, 283 mAs
DLP: 228 mGycm
CTDIvol: 6.08 mGy
Eff. Dose: 3.4 mSv
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
TwinBeam Dual Energy - Bone removal
Infra-renal abdominal aortic aneurysm (AAA) TwinBeam Dual Energy acquires a whole body CTA at two different energy levels in a single scan. Such a large dataset can be converted into three dimensional visualizations very conveniently and easily using automatic bone removal.
Collimation: 64 x 0.6 mm
Scan time: 44 s
Scan length: 1,534 mm
Rotation time: 0.33 s
Tube settings: AuSn 120 kV 301 eff. mAs
DLP: 1,007.8 mGycm
CTDIvol: 6.44 mGy
Eff. Dose: 8 mSv
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
Courtesy of University Hospital,
Erlangen-Nuremberg, Erlangen, Germany
TwinBeam Dual Energy for advanced diagnostic image quality -
showing a hypodense lesion in the liver and the right kidney
Collimation: 64 x 0.6 mm
Scan time: 19.6 s
Scan length: 634 mm
Rotation time: 0.3 s
Tube settings: AuSn 120 kV, 410 eff. mAs
DLP: 582.1 mGycm
Eff. Dose: 8.7 mSv CTDIvol: 8.8 mGy
worldwide
Technology
teamplay 1
teamplay 2
TwinBeam Dual Energy
Stellar detector
ADMIRE
Adaptive Dose Shield
SAFIRE
CARE kV
iMAR