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Multi-pathway multi-echo acquisition and contrast translation to generate a variety of quantitative and qualitative image contrasts

Author:Cheng-Chieh Cheng  Frank Preiswerk  Bruno Madore  

Institution:Harvard Medical School  National Sun Yat-Sen University  

Session Type:Oral  

Session Live Q&A Date:Monday, 10 August 2020  

Topic:Young Investigator Awards  

Session Name:Young Investigator Awards  

Program Number:0004  

Room Live Q&A Session:Monday YIA  

Multi-pathway multi-echo acquisition and contrast translation to generate a variety of quantitative and qualitative image contrasts

Author:Cheng-Chieh Cheng  Frank Preiswerk  Bruno Madore  

Institution:Harvard Medical School  National Sun Yat-Sen University  

Session Type:Power Pitch Poster  

Session Live Q&A Date:Monday, 10 August 2020  

Topic:Young Investigator Awards  

Session Name:Young Investigator Awards  

Program Number:0004  

Room Live Q&A Session:Room C4.5  

Multiphoton Magnetic Resonance Imaging

Author:Victor Han  Chunlei Liu  

Institution:University of California Berkeley  

Session Type:Oral  

Session Live Q&A Date:Monday, 10 August 2020  

Topic:Young Investigator Awards  

Session Name:Young Investigator Awards  

Program Number:0005  

Room Live Q&A Session:Monday YIA  

Multiphoton Magnetic Resonance Imaging

Author:Victor Han  Chunlei Liu  

Institution:University of California Berkeley  

Session Type:Power Pitch Poster  

Session Live Q&A Date:Monday, 10 August 2020  

Topic:Young Investigator Awards  

Session Name:Young Investigator Awards  

Program Number:0005  

Room Live Q&A Session:Room C4.5  

Standardized Evaluation of Cerebral Arteriovenous Malformations using Flow Distribution Network Graphs and Dual-venc 4D Flow MRI

Standardized Evaluation of Cerebral Arteriovenous Malformations using Flow Distribution Network Graphs and Dual-venc 4D Flow MRI

Toward “plug and play” prospective motion correction for MRI by combining observations of the time varying gradient and static vector fields.

Toward “plug and play” prospective motion correction for MRI by combining observations of the time varying gradient and static vector fields.