Markus Kraiger1, Florian Knoll1,
Christian Clason2, Rudolf Stollberger1
1Institute of Medical Engineering,
Nonlinear
parallel imaging reconstruction using an iterative regularized Gauss Newton
method has shown its potential in several applications. This technique
determines both the coil sensitivities and the image from undersampled
multi-coil data. It enables high acceleration factors without pronounced
local enhancement of noise. The numerical implementation of this
sophisticated method requires data normalization steps which are usually
performed individually for each slice and echo. In this study it was
investigated if this type of reconstruction is applicable for quantitative
imaging despite the complex reconstruction including image individual
normalization. For that purpose high resolution multi-echo imaging with
different acceleration factors was used for the quantification of the
transverse relaxation time (T2).