The aims of this thesis were to gain insight into specific disease processes in Huntington__s Disease (HD) and to identify biomarkers. To achieve these aims, cognitive functioning, structural brain... Show moreThe aims of this thesis were to gain insight into specific disease processes in Huntington__s Disease (HD) and to identify biomarkers. To achieve these aims, cognitive functioning, structural brain characteristics and intrinstic functional brain connectivity of premanifest and early HD subjects were examined. Cortical, subcortical and the intermediate white matter brain tissue shows evidence of structural and functional decline. We found evidence that disease processes, such as altered metabolism, excessive iron accumulation and cell loss, play a role in the changes. We conclude that changes occur throughout the brain from the earliest disease phase onwards. Hence, both premanifest and manifest HD should not be regarded as a disorder of the basal ganglia, but as a disease affecting the whole brain. Candidate biomarkers that have the potential to objectively reflect the early changes and the progressive nature of the disease are measures of subcortical atrophy, integrity of white matter pathways and of intrinsic functional brain connectivity. Iron, creatine, and N-acetylaspartate concentrations in the caudate nucleus and putamen may prove to be useful as markers of disease state for objectifying transitional disease processes from premanifest to manifest HD. Visuospatial working memory could be applied as a state marker for stage two HD. Show less
The aim of this thesis was to find potential MRI biomarkers for Huntington__s disease (HD). Therefore, after an overview of the current literature on MRI biomarkers, followed by examinations of... Show moreThe aim of this thesis was to find potential MRI biomarkers for Huntington__s disease (HD). Therefore, after an overview of the current literature on MRI biomarkers, followed by examinations of volumetric MRI, magnetization transfer imaging (MTI), diffusion tensor imaging (DTI) and magnetic resonance spectroscopy (MRS) were applied in patients in different disease stages of HD. The main conclusions demonstrate that choosing the optimal biomarker for evaluating therapeutic effects is dependent on the disease stage and therapeutic compound. To evaluate the premanifest stages of the disease volumetric MRI and DTI are most suitable. When the transition period is the desired timeframe for evaluation, also MRS can be very useful, especially if the compound in question has a direct potential influence on certain pathogenic pathways which in turn have an impact on specific metabolites. Future research should focus on combining multiple imaging techniques; __multimodal imaging__. A composite MRI biomarker has the potential to distinguish between disease groups more accurately than a single biomarker and in this way improve the evaluation of therapeutic compounds. Show less
The general objective of this thesis was to investigate whether early clinical alterations and structural and functional brain markers could be detected in carriers of the Huntington__s disease... Show moreThe general objective of this thesis was to investigate whether early clinical alterations and structural and functional brain markers could be detected in carriers of the Huntington__s disease gene (referred to as carriers) who are still without manifest motor signs. We aimed to detect brain deficits using MRI and found smaller basal ganglia volumes in carriers compared to non carriers. Also, we demonstrated an increased amount of hypointensities in basal ganglia of carriers and suggested this may reflect excessive iron deposition. Furthermore, we showed strong associations between MRI characteristics and clinical variables suggesting that a combination of these measures may shed more light on the contribution of different kinds of pathological processes to the changing phenotype. When using memory activation during EEG registration early funcional brain changes, reflected in reduced alpha power, could be demonstrated in carriers. Furthermore, remarkably strong associations were found between the P3 Event-Related Potential and basal ganglia volumes. Subtle clinical abnormalities in motor function, executive function and memory could be demonstrated in carriers, especially over time. This study showed that several biomarkers provide new and important information on premanifest HD. The mulitfactorial approach offers new insights into the relation between clinical phenomena and abnormalities in the neural substrate Show less