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3D visualization of the cranial bone using fully automated segmentation based on ultra-short echo-time (UTE) imaging

Author:Martin Krämer  Benedikt Herzau  Jürgen Reichenbach  

Institution:Jena University Hospital - Friedrich Schiller University Jena  Friedrich Schiller University Jena  , Friedrich Schiller University Jena  

Session Type:Digital Poster  

Session Date:Monday, 13 May 2019  

Session Time:08:15  

Session Name:Bone 1  

Program Number:1300  

Presentation Time:08:15   

Room Number:Exhibition Hall  

Computer Number:Computer 42  

Automatic Dentate Nuclei Segmentation based on Quantitative Susceptibility Maps using a Convolutional Neural Network: Application to Healthy Controls and Cerebellar Ataxia Patients

Can Intensity Augmentation Improve Generalizability of CNN-based Image Segmentation?

Feasibility study on automated white matter tract segmentation in neurosurgical pre-operative planning

Author:Daniel Güllmar  Rotraud Neumann  Jakob Wasserthal  Jan Walter  Ulf Teichgräber  Thomas Mayer  Jürgen Reichenbach  

Institution:German Cancer Research Center (DKFZ)  Jena University Hospital  Friedrich-Schiller-University Jena  

Session Type:Power Pitch  

Session Date:Wednesday, 15 May 2019  

Session Time:15:45  

Session Name:Pitch: Brain Tumor  

Program Number:0895  

Presentation Time:15:45   

Room Number:Power Pitch Theater A - Exhibition Hall  

Computer Number:

Feasibility study on automated white matter tract segmentation in neurosurgical pre-operative planning

Author:Daniel Güllmar  Rotraud Neumann  Jakob Wasserthal  Jan Walter  Ulf Teichgräber  Thomas Mayer  Jürgen Reichenbach  

Institution:German Cancer Research Center (DKFZ)  Jena University Hospital  Friedrich-Schiller-University Jena  

Session Type:Power Pitch Poster  

Session Date:Wednesday, 15 May 2019  

Session Time:16:45  

Session Name:Poster: Brain Tumor  

Program Number:0895  

Presentation Time:16:45   

Room Number:Power Pitch Theater A - Exhibition Hall  

Computer Number:Plasma 5  

High-resolution ultra-short echo-time (UTE) ex-vivo imaging of Achilles tendons at 9.4T by water content alteration

In vivo assessment of the anisotropy of R2* maps in white matter

Longitudinal relaxation times of macromolecules and their suppression in MEGA-PRESS 1H-MR-brain spectra at 3 T

Optimal flip angle for imaging and T2* mapping of the human skull using ultra-short echo-time (UTE) imaging

Author:Martin Krämer  Benedikt Herzau  Jürgen Reichenbach  

Institution:Jena University Hospital - Friedrich Schiller University Jena  Friedrich Schiller University Jena  , Friedrich Schiller University Jena  

Session Type:Digital Poster  

Session Date:Monday, 13 May 2019  

Session Time:08:15  

Session Name:Bone 1  

Program Number:1299  

Presentation Time:08:15   

Room Number:Exhibition Hall  

Computer Number:Computer 41  

T1 and T2* relaxation parameter mapping of the patellar and quadriceps tendon by using ultra-short echo-time (UTE) imaging at 3T

Author:Marta Maggioni  Martin Krämer  Jürgen Reichenbach  

Institution:Friedrich Schiller University  

Session Type:Digital Poster  

Session Date:Monday, 13 May 2019  

Session Time:08:15  

Session Name:Cartilage 2, Meniscus, Tendon & Ligament  

Program Number:1396  

Presentation Time:08:15   

Room Number:Exhibition Hall  

Computer Number:Computer 138  

T2* quantification of the cranial bone using ultra-short echo-time (UTE) imaging

Author:Benedikt Herzau  Martin Krämer  Jürgen Reichenbach  

Institution:Jena University Hospital - Friedrich Schiller University Jena  Friedrich Schiller University Jena  , Friedrich Schiller University Jena  

Session Type:Digital Poster  

Session Date:Monday, 13 May 2019  

Session Time:08:15  

Session Name:Bone 2 & MSK Tumors  

Program Number:1369  

Presentation Time:08:15   

Room Number:Exhibition Hall  

Computer Number:Computer 111  

Time-resolved mapping of T2* in the patellar tendon during active knee flexion using multi-echo ultra-short echo-time (UTE) imaging

Toward in vivo quantification of microparticles of iron oxide targeting cerebrovascular inflammation