Optimal Diffusion-weighting Gradient Waveform Design (ODGD): Formulation and Experimental Validation

Peña Nogales, Óscar; Zhang, Yuxin; Luis García, Rodrigo de; Aja Fernández, Santiago; H. Holmes, James; Hernando, Diego

Aviso: Si va a participar en la campaña de sexenios 2024, le recomendamos que deposite en UVaDoc de forma preferente las aportaciones que vaya a presentar a dicha convocatoria (opción Autoarchivo). El resto de sus publicaciones podrá subirlas al repositorio en cualquier otro momento. Gracias.

Por favor, use este identificador para citar o enlazar este ítem:http://uvadoc.uva.es/handle/10324/31375

Título

Optimal Diffusion-weighting Gradient Waveform Design (ODGD): Formulation and Experimental Validation

Autor

Peña Nogales, Óscar

Zhang, Yuxin

Luis García, Rodrigo de

Aja Fernández, Santiago

H. Holmes, James

Hernando, Diego

Congreso

26TH INTERNATIONAL SOCIETY OF MAGNETIC RESONANCE IN MEDICINE ANNUAL MEETING AND EXHIBITION

Año del Documento

2018

Documento Fuente

International Society of Magnetic Resonance in Medicine 26th Annual, Paris,2018

Resumen

Diffusion-Weighted MRI often suffers from signal attenuation due to long TE, sensitivity to physiological motion, and dephasing due to concomitant gradients (CGs). These challenges complicate image interpretation and may introduce bias in quantitative diffusion measurements. Motion moment-nulled diffusion-weighting gradients have been proposed to compensate motion, however, they frequently result in high TE and suffer from CG effects. In this work, the Optimal Diffusion-weighting Gradient waveform Design method that overcomes limitations of state-of-the-art waveforms is revisited and validated in phantom and in-vivo experiments. These diffusion-weighting gradient waveforms reduce the TE and increase the SNR of state-of-the-art waveforms without and with CG-nulling.

Patrocinador

TEC2013-44194-P
VA069U16

Version del Editor

http://archive.ismrm.org/2018/1615.html