BackgroundMRI relaxometry mapping and proton density fat fraction (PDFF) have been proposed for the evaluation of hepatic fibrosis. However, sex-specific relationships of age and body fat with... Show moreBackgroundMRI relaxometry mapping and proton density fat fraction (PDFF) have been proposed for the evaluation of hepatic fibrosis. However, sex-specific relationships of age and body fat with these MRI parameters have not been studied in detail among adults without clinically manifest hepatic disease. We aimed to determine the sex-specific correlation of multiparametric MRI parameters with age and body fat and to evaluate their interplay associations.Methods147 study participants (84 women, mean age 48±14 years, range 19-85 years) were prospectively enrolled. 3 T MRI including T1, T2 and T1ρ mapping and PDFF and R2* map were acquired. Visceral and subcutaneous fat were measured on the fat images from Dixon water-fat separation sequence.ResultsAll MRI parameters demonstrated sex difference except for T1ρ. PDFF was more related to visceral than subcutaneous fat. Per 100 ml gain of visceral or subcutaneous fat is associated with 1 or 0.4% accretion of liver fat, respectively. PDFF and R2* were higher in men (both P = 0.01) while T1 and T2 were higher in women (both P < 0.01). R2* was positively but T1 and T2 were negatively associated with age in women (all P < 0.01), while T1ρ was positively related to age in men (P < 0.05). In all studies, R2* was positively and T1ρ was negatively associated with PDFF (both P <0.0001).ConclusionVisceral fat plays an essential role in the elevated liver fat. When using MRI parametric measures for liver disease evaluation, the interplay between these parameters should be considered. Show less
In this thesis we evaluated several MRI/S methods as outcome parameters to assess muscle pathology in DMD and BMD patients. We applied 3-point Dixon MRI to compare levels of fatty infiltration in... Show moreIn this thesis we evaluated several MRI/S methods as outcome parameters to assess muscle pathology in DMD and BMD patients. We applied 3-point Dixon MRI to compare levels of fatty infiltration in muscle of DMD patients with a semi-quantitative method. Dixon MRI showed to be more sensitive to subtle changes. Implementation of a multipeak model to account for multiple lipid spectrum peaks in this method allowed even more sensitive measurements. We evaluated non-contractile and contractile cross-sectional areas in leg muscles of DMD patients. Combined with strength measurements we could measure muscle quality and showed muscle hypertrophy and fatty infiltration to be two distinct processes. We explored the relation between dystrophin levels and fat in BMD patients and found no such relation, but did find a relation between strength and age in a subgroup, demonstrating the location of the mutation to be a major determinant of disease severity. Using T2 MRI as inflammatory marker in DMD/BMD patients and healthy controls we showed an increased T2 in DMD patients. Finally we investigated the muscle energy metabolism in BMD patients with MRS and showed increased PDE/ATP ratios prior to onset of fatty infiltration, consequently 31P MRS could be another potential outcome parameter. Show less
The thesis describes the application of several different magnetic resonance (MR) techniques to study the effects of the progression of disease in a transgenic mouse model of Alzheimer's. Using MR... Show moreThe thesis describes the application of several different magnetic resonance (MR) techniques to study the effects of the progression of disease in a transgenic mouse model of Alzheimer's. Using MR imaging, the amyloid plaque deposition was visualized and the plaque load quantified in the same mice as they aged. Concurrently the transverse relaxation time (T2) was measured in affected brain regions and shown to decrease over time as plaque-load increased. To study the neurochemical profile in the mouse brain brain both one- (1D) and two-dimensional (2D) MR spectroscopic techniques were employed. 1D MRS is widely used in similar research, but has limited spectral resolution. To overcome this limitation, a 2D MRS technique was implemented and optimized for use in mouse brain. This technique, L-COSY, allowed the detection of several metabolites which were not visible using standard 1D MRS techniques. This technique was subsequently used to study the effects of Alzheimer's on the neurochemical profile. Observed changes were correlated with plaque deposition. Show less