Spirit
Application Guide
Page
Overview
Syngo 3D
Page
Contents
Access to Computer Based Training or
Contents
Contents
Contents
Syngo 3D
Contents
Contents
Syngo CT Operator Manual Volume
Syngo Volume
User Documentation
User Documentation
Scan and Reconstruction
Concept of Scan Protocols
Scan Set Up
Spiral Scanning
Scan Modes
Sequential Scanning
Dynamic Serioscan
Slice Collimation Slice Width
Mm1, 1.25, 2, 3, 5 mm Mm 2, 3, 5, 6 mm Mm 3, 5, 6, 8, 10 mm
Increment
Pitch
Window values
Hounsfield Units Gray scale
CT-window values
Kernels
Image Filters
Scan and Reconstruction
Improved Head Imaging
Head image without correction Head image with cor- rections
Dose Information
Ctdiw and CTDIVol
CTDIVol = CTDIW/Pitch Factor
2 3 mSv per year in Germany
Effective mAs
Dose Information
Care Dose
How does Care Dose work?
High attenuation, high mA
Example of scanning the shoulder region
Principle of Care Dose tube current adaption
Dose Information
Dose Information
Workflow Information
Recon Jobs
Examination Job Status
Auto Load in 3D and Post- processing Presets
How to Create your own Scan Protocols
Edit/Save Scan Protocol
Hints
Scan Protocol Manager
Change one or more parameters for all Customer protocols
Select Replace All
Workflow Information
Hints
Additional Information
Contrast Medium
Basics
Longer scan time
Radiology 1998 207647
CM = start delay time + scan time x flow rate
IV Injection
Bolus Tracking
General Hints
Workflow Information
Test Bolus using Care Bolus
How to do it
Test Bolus
Workflow Information
Workflow Information
Application Information
Somatom life
General Information
Key Features
Description
Access to Computer Based Training or Manuals on
CD ROM
SRS Based Services
Download of Files
Contact incl. Dicom Images
Application Information
Trial Order and Installation
Application Information
Image Converter
Application Information
File Browser
Transfer files to floppy
Burn on CD
Review reports and movies
Hint
Patient Protocol
Application Information
Head
Overview
Hints in General
Head Kernels
HeadRoutine
Indications
Volume 50 60 ml Flow rate Ml/sec Start delay 50 60 sec
Base Cerebrum
Contrast medium IV injection
HeadSeq
Start delay 60 sec Flow rate Ml/sec Volume 50 60 ml
BaseSeq CerebrumSeq
InnerEarHR
InnerEar 2nd reconstr
Head
InnerEarSeq
Start delay 60 sec Flow rate Ml/sec Total amount 50 60 ml
InnerEarHRSeq
130
Head
Sinus
Sinus 2nd reconstr
Head
SinusSeq
SinusSeq
Head
Orbita
Orbita 2nd reconstr
Contrast medium IV injection
Head
Dental
Dental
Head
Neck
Neck
Hints in General
Body Kernels
Neck
Start delay 45 sec Flow rate Ml/sec Total amount 120 ml
Neck
Neck
Hints
Shoulder
Shoulder
Hints in General
Shoulder
Shoulder 2nd reconstruction
ThoraxHRSeq
Thorax
ThoraxFast
LungLowDose
Hints in General
Thorax
Body Kernels
ThoraxRoutine ThoraxRoutine08s
Start delay 25 30 sec Flow rate Ml/sec Total amount 80 ml
ThorRoutine
Reconstruction
ThoraxFast
ThorFast 2nd reconstr
ThoraxHRSeq
ThorHRSeq
LungLowDose
Start delay 30 sec Flow rate Ml/sec Total amount 50 70 ml
LungLowDose
Abdomen
AbdomenFast
AbdomenSeq
Upper abdomen
Abdomen Pelvis
Abdomen
Body Kernels
AbdomenRoutine AbdomenRoutine08s
AbdRoutine
AbdomenFast
AbdFast
AbdMultiPhase AbdMultiPhase08s
Non Arterial Venous Contrast Phase
Hints
121
Start delay 50 60 sec Flow rate Ml/sec Total amount 100 ml
AbdomenSeq
AbdSeq
Hints
Hip
Pelvis
Pelvis
SIJoints
Hints in General
Pelvis
Pelvis
Hip
Hip 2nd reconstr
SIJoints
SIJoints 2nd reconstruction
131
SpineSeq
Spine
Spine
Osteo
For image reconstruction of bone studies, use kernel B60 133
Spine
Body Kernels
Spine
Spine 2nd reconstr
SpineSeq
C2-3 C3-4 C4-5
C5-6 C6-7
Dental artifacts can be reduced by tilting the gantry
Spine
Spine
SpineSeq
L3-4 L4-5 L5-S1
Osteo
Osteo
145
Upper Extremities
WristHR
ExtrRoutineHR
Hints in General
Body Kernels
149
WristHR
WristHR 2nd reconstruction
ExtrRoutineHR
ExtrHR 2nd reconstruction
153
Lower Extremities
KneeHR
FootHR
Hints in General
Body Kernels
157
KneeHR
KneeHR 2nd reconstruction
FootHR
FootHR 2nd reconstruction
For image reconstruction of soft tissue, use kernel B31s 161
Vascular
Hints in General
HeadAngio/HeadAngio08s
HeadAngio 2nd reconstruction
Start delay 18 sec Flow rate Ml/sec Total amount 75 ml
CarotidAngio/CarotidAngio08s
CarotidAngio 2nd reconstruction
Start delay 15 sec Flow rate Ml/sec Total amount 90 ml
ThorAngio/ThorAngio08s
ThorAngio 2nd reconstruction
Start delay 10 25 sec Flow rate Ml/sec Total amount 80 ml
Embolism
Embolism 2nd reconstruction
Start delay 10 sec Flow rate Ml/sec Total amount 80 100 ml
BodyAngioRoutine BodyAngioRoutine08s
BodyAngio 2nd reconstruction
Vascular
BodyAngioFast
BodyAngio
Start delay 20 sec Flow rate Ml/sec Total amount 120 ml
Specials
Trauma
Interventional CT
Trauma
PolyTrauma
Head Neck
Thorax AbdPelvis
HeadTrauma
Interventional CT
Biopsy
Biopsy
TestBolus
TestBolus
Children
Thorax
Head
Neck
Abdomen
Vascular
Spine
Extremities
Specials
Hints in General
Children
Needle Size gauge Flow Rate ml/sec
Head Kernels
Body Kernels
HeadRoutineBaby
Head
Hints
HeadRoutineChild
Children
HeadSeqBaby
HeadSeq
Children
HeadSeqChild
Children
InnerEar
InnerEar
Children
SinusOrbi
SinusOrbi
Contrast medium IV injection
Neck
Children
ThoraxRoutineBaby
ThorRoutine
ThoraxRoutineChild
Children
ThoraxHRSeqBaby
Children
ThoraxHRSeqChild
Children
AbdomenBaby
Abdomen
Children
AbdomenChild
Children
SpineBaby
Children
SpineChild
Hint
ExtrHRBaby
ExtrHR
Hints
ExtrHRChild
Hint
HeadAngio
Hints
HeadAngio08s
HeadAngio
Children
CarotidAngio
CarotidAngio 2nd reconstr
Children
CarotidAngio08s
Children
BodyAngio
BodyAngio 2nd reconstr
Children
BodyAngio08s
Children
NeonateBody
NeonateBody
239
Multi Planar Reconstruction MPR
Maximum Intensity Projection MIP
Volume Rendering Technique VRT
Shaded Surface Display SSD
Workflow
Prerequisites
Loading the Images
Image Representation on the 3D Card
Defining Output Types
Creating Series
Parallel Ranges
Radial Ranges
Expanded Ranges
Curved Ranges
Editing
Syngo 3D
Region Growing
Object Punching
Morphological Operations
Documentation of Results
Using MPR/MPR Thick
Workflow for a CT Extremity Examination
Using SSD
Using VRT
Using MIP/MIP Thin
Workflow for a CT Angiography
Using VRT/VRT Thin/Clip
Setting Views in the Volume Data Set
Rotating around one axes oblique cut planes
Changing /Creating VRT Presets
Syngo 3D
Auto Load in 3D and Post-processing Presets
Blow-up Mode
Key Features
Syngo Fly Through
SSD and VRT Presets for Endoscopic Renderings
Prerequisites
Basics for CT Virtual Endoscopy
Endoscopic Viewing Parameters/Fly Cone Settings
Cone setting for flying through the airways
Cone Graphic and Definition
Syngo Fly Through
Patient Preparation
Workflow
Syngo Fly Through
Navigation of the Endoscopic Volume
Fly Path Planning
Syngo Fly Through
Syngo Dental CT
Basics
What can syngo Dental CT do?
Scan Protocols
Panoramic view Paraxial view
User interface of syngo Dental CT
Additional Important Information
TOP-cranial view Caudal view
Syngo Dental CT
Paraxial lines using Cluster
Syngo Osteo CT
Siemens Reference Data
Scanning Procedure
Scan Protocols
Syngo Osteo CT
Topographic Phantom inside the FoV
Configuration
Syngo Osteo CT
Example for one patient with three Osteo tomo- grams
Data structure of the result file
Abbreviations
Evaluation Workflow
Water Bone equivalent equivalent Correcting contour lines
Syngo Osteo CT
Score
285
Syngo Osteo CT
Filming layout
Syngo Volume Evaluation
Syngo Volume Evaluation
Prerequisites
Workflow
Preparing Volume Calculation
Planning a Volume
Planning a Volume with Automatic Volume Detec Tion
Restricting Automatic Volume Detection
Planning a Volume with the Interactive Volume Definition
295
Syngo Volume Evaluation
Overlap and Mark&Link Method
Syngo Volume Evaluation
Evaluation Results
General Hints
Loading Images
ROI and Volume Definition
Restrictions for Linking and Unlinking
Configuration
Syngo Volume Evaluation
305
Syngo Dynamic Evaluation
Syngo Dynamic Evaluation
Prerequisites
Workflow
Inspecting the Input Images
Generation of Parameter Images
Syngo Dynamic Evaluation
Syngo Dynamic Evaluation
Creating a Baseline Image
Click on the button Generate baseline image with the mouse
Evaluation of Region of Interests
Display of the Pixel Lens curve
Enhancement Curve
Absolute/Relative Enhancement curve
Documentation of Results
Defining the Tissue Range
Slice Position with Multi-Row Scanners
Help to Interpret the Enhancement
Delay of Injection
Filtering
Moving the Sampling Line
Enhancement Axis Y
Relative Enhancement Curve
Time Axis
Absolute Enhancement Curve
Configuring Dynamic Evaluation
Manufacturer
