Pontificia Universidad Católica de Chile Pontificia Universidad Católica de Chile
Milovic C., Acosta-Cabronero J., Pinto J.M., Mattern H., Andia M., Uribe S. and Tejos C. (2018)

A new discrete dipole kernel for quantitative susceptibility mapping

Revista : Magnetic Resonance Imaging
Volumen : 51
Páginas : 7-13
Tipo de publicación : ISI Ir a publicación


PurposeMost approaches for quantitative susceptibility mapping (QSM) are based on a forward model approximation that employs a continuous Fourier transform operator to solve a differential equation system. Such formulation, however, is prone to high-frequency aliasing. The aim of this study was to reduce such errors using an alternative dipole kernel formulation based on the discrete Fourier transform and discrete operators.MethodsThe impact of such an approach on forward model calculation and susceptibility inversion was evaluated in contrast to the continuous formulation both with synthetic phantoms and in vivo MRI data.ResultsThe discrete kernel demonstrated systematically better fits to analytic field solutions, and showed less over-oscillations and aliasing artifacts while preserving low- and medium-frequency responses relative to those obtained with the continuous kernel. In the context of QSM estimation, the use of the proposed discrete kernel resulted in error reduction and increased sharpness.ConclusionThis proof-of-concept study demonstrated that discretizing the dipole kernel is advantageous for QSM. The impact on small or narrow structures such as the venous vasculature might by particularly relevant to high-resolution QSM applications with ultra-high field MRI – a topic for future investigations. The proposed dipole kernel has a straightforward implementation to existing QSM routines.