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3D UTE Cones Double Echo Steady State Imaging – a New Approach for High Resolution Morphological and Quantitative Evaluation of Short T2 Tissues

AcidoCEST-UTE MRI is a Reproducible Method to Measure Cartilage and Meniscus pH

Author:Rachel High  Yang Ji  Ya-Jun Ma  Qingbo Tang  Mark Murphy  Jiang Du  Eric Chang  

Institution:University of California San Diego  VA San Diego Healthcare System  

Session Type:Digital Poster  

Session Live Q&A Date:Digital Poster (All Week)  

Topic:Clinical Applications in MSK and Others  

Session Name:Meniscus/Tendon  

Program Number:2798  

Room Live Q&A Session:

The Angular Dependence of 3D Ultrashort Echo Time Cones Adiabatic T1? (3D UTE Cones-AdiabT1?) Imaging of the Achilles Tendon

Improved Volumetric Myelin Imaging in Human Brain Utilizing Inversion Recovery Prepared Ultrashort Echo Time with Complex Echo Subtraction

Knee MR Image Translation from Multi Contrast Images for Fat Suppression via Deep Learning with Perceptual Loss

Osteochondral Junction (OCJ) Imaging Using a Fast T1-weighted 3D Ultrashort Echo Time Cones Sequence at 3T

Osteochondral Junction Imaging Using Adiabatic Inversion Recovery Prepared Fat-Saturated Zero Echo Time MR Imaging: A Feasibility Study

Predicting cortical bone microstructural properties by water proton density obtained from ultrashort echo time (UTE) MRI

Author:Saeed Jerban  Yajun Ma  Hyungseok Jang  behnam namiranian  Nicole Le  Hoda Shirazian  Mark Murphy  Jiang Du  Eric Chang  

Institution:University of California, San Diego  VA San Diego Healthcare System  

Session Type:Digital Poster  

Session Live Q&A Date:Digital Poster (All Week)  

Topic:Bone, Cartilage, and Muscle  

Session Name:Bone 2  

Program Number:2774  

Room Live Q&A Session:

Quantitative 3D ultrashort echo time Cones magnetization transfer (3D UTE-Cones-MT) magnetic resonance imaging of knee cartilage degeneration

Quantitative Assessment of Articular Cartilage Degeneration Using 3D Ultrashort Echo Time Cones Adiabatic T1? (3D UTE Cones AdiabT1?) Imaging

Ultrashort echo time adiabatic T1? (UTE-Ad-T1?) can predict the mechanical property differences in human anterior cruciate ligament (ACL)

Ultrashort Echo Time Quantitative Susceptibility Mapping (UTE-QSM) as a Highly Sensitive Biomarker for Hemophilic Arthropathy

UTE-based biomarkers are selectively sensitive to enzymatic proteoglycan and collagen degradation in human articular cartilage

Whole Knee Cartilage Segmentation using Deep Convolutional Neural Networks for Quantitative 3D UTE Cones Magnetization Transfer  Modeling