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COME VISIT US AT
KCR 2023

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September 20 - 23, 2023

COEX l Seoul, Korea

Booth

E52~53

See it for yourself

Imagine how your scanner could evolve.

* For investigational purpose only

Brain MRA - 3.0T Siemens MAGNETOM Skyra
Acquisition voxel size: 0.52×0.55×1.20 ㎜
Brain AX FLAIR - 3.0T Siemens MAGNETOM Skyra
Acquisition voxel size: 0.55×0.91×5.0 ㎜
Brain 3D T1WI AX Reformat - 3.0T Siemens MAGNETOM Skyra
Acquisition voxel size: 1 ㎜ isotropic Reformat thickness: 1 ㎜
L-Spine SAG T2WI - 1.5T Siemens MAGNETOM Essenza
TR/TE: 3200/100 ms Acquisition voxel size: 0.71×1.19×4.0 mm
Shoulder AX PDWI FS - 1.5T Siemens MAGNETOM Essenza
Acquisition voxel size: 0.63×0.78×3.0 ㎜
Ankle AX PDWI FS - 1.5T Siemens MAGNETOM Essenza
Acquisition voxel size: 0.53×0.66×3.0 ㎜
Knee COR PDWI FS - 3.0T Philips Ingenia CX
Acquisition voxel size: 0.40×0.51×3.0 ㎜
C-Spine AX T2WI - 1.5T Siemens MAGNETOM Essenza
Acquisition voxel size: 0.66×0.74×3.0 ㎜
Knee SAG T2WI - 1.5T Siemens MAGNETOM Essenza
Acquisition voxel size: 0.50×0.56×3.0 ㎜
Learn more

FDA 510(k)-cleared

KOREA MFDS approved

KGMP
iso_13485
mdsap
  • Class B approved by the Vietnam Ministry of Health
  • Class C approved by the Indonesia Ministry of Health
  • Approved by Hong Kong MDD as Class II
  • Approved by Malaysia MDA as Class B
  • Notified to Brazil ANVISA as Class II
  • Notified to Philippines FDA as Class B
  • Cleared by UAE MOHAP as Medical Device
  • Approved by Singapore HSA as Class B
  • Approved by Saudi Arabia SFDA as Class B
  • Approved by Thailand TFDA as Class 2
  • Included in the ARTG entry by Australian TGA as Class IIa
 
 
 
 

*SwiftMR’s future availability in other regions cannot be guaranteed. 
  Any updates in future regulatory status will be available on our website.

 

Scientific Program

AI Scientific Program (AI SS 02)
AI for practice optimization

Sep. 21 (Thu), 14:00-15:30
Grand Ballroom 103, 1F

 
14:30-14:40
 
Prospective Validation of Accelerated Brain MRI Using Deep Learning-Based Reconstruction: Simultaneous Application to Spin-Echo and Gradient-Echo Sequences
15:00-15:10
 
 
Deep Learning-based Intracranial TOF-MRA Reconstruction Reduces Scan Times and Improves Image Quality at 3T and 1.5T
15:10-15:20
 
 
 
High-Resolution Bone Image from shoulder MRI Using Deep Neural Network on 3-D Accelerated Dixon GRE (CAIPIRINHA Dixon)

Scientific Session (SS 19)
AI Stroke and vessels

Sep. 21 (Thu), 16:00-17:30
201, 2F

 
 
 
16:50-17:00
 
Application of deep-learning-based super-resolution image quality improvement on vessel wall imaging

Scientific Session (SS 23)
AI and image quality

Sep. 22 (Fri), 09:40-11:00
Grand Ballroom 102, 1F

 
09:40-09:50
 
Deep learning-based MR reconstruction improves robustness of brain volumetry in low-quality MR images
09:50-10:00
 
Deep learning-based intracranial TOF-MRA reconstruction reduces scan times and improves image quality at 3T and 1.5T
10:00-10:10
 
Prospective validation of accelerated brain MRI using deep learning-based reconstruction: simultaneous application to spin-echo and gradient-echo sequences
10:10-10:20
 
Accelerated cervical spine MRI with deep learning-based reconstruction algorithm: a prospective comparison with conventional MRI in the evaluation of degenerative diseases and myelopathy
10:20-10:30
 
Deep learning-based image reconstruction improves image quality and detection of hippocampal sclerosis in temporal lobe epilepsy

Scientific Session (SS 27)
AI in MSK imaging

 
 

Sep. 22 (Fri), 14:00-15:30
202, 2F

 
14:30-14:40
 
 
Prospective validation of accelerated brain MRI using deep learning-based reconstruction: simultaneous application to spin-echo and gradient-echo sequences
14:40-14:50
 
 

Enhancing radiomic feature correlations and reproducibility in knee MRI by deep learning-based MR reconstruction

 

Scientific Session (SS 39)
CSF analysis and others

 

Sep. 23 (Sat), 16:00-17:30
Grand Ballroom 103, 1F (Room 3)

 
17:10-17:20
 
 
Pitfalls of normative percentile analysis with different racial groups in MRI brain volumetry
Scientific Program
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