Obesity and insulin resistance (IR) are multifactorial pathologies, characterized by a complex etiology. In addition to genetics, age and sex, environmental factors such as dietary composition and... Show moreObesity and insulin resistance (IR) are multifactorial pathologies, characterized by a complex etiology. In addition to genetics, age and sex, environmental factors such as dietary composition and lifestyle have profound effects on the development of both pathologies. Excess dietary energy intake (EI) per se has effects on energy homeostasis through physiological systems involved in maintenance of substrate balances. Moreover, the composition of the diet itself may contribute and aggravate the phenotype in time by acting as a second hit. In particular, high levels of saturated long chain fatty acids have been associated with the development of obesity and IR. In this thesis, we have addressed a number of important aspects that play a role in the development of diet-induced obesity and insulin resistance. Show less
Assessing metabolic risk in dialysis patients, three main aspects are important: a) the pathophysiologic effects of metabolic disturbances as known from the general population are unlikely to... Show moreAssessing metabolic risk in dialysis patients, three main aspects are important: a) the pathophysiologic effects of metabolic disturbances as known from the general population are unlikely to completely reverse once patients reach dialysis. b) Specific additional problems related to chronic kidney disease, in particular protein-energy wasting, may act as “competing risk”, overshadow effects and interfere in various hormonal regulations. c) In advanced chronic kidney disease, the pattern and composition of risk is changing. The aim of this thesis is to 1) Detect specific effects of metabolic alterations in dialysis patients 2) Provide explanations for conflicting results in the literature 3) Provide a rationale for novel interventions. In this thesis, the metabolic status of dialysis patients is adressed and its consequences for the decline in residual kidney function, cardiovascular events and survival. The metabolic status includes alterations in nutritional and hormonal status, focussing on: lipid metabolism, diabetes mellitus type 2, obesity, the role of adipokines, specific effects of protein-energy wasting, and Vitamin D status with the clinical consequences. The investigations are performed in two large cohorts of dialysis patients, the 4D and NECOSAD studies (The German Diabetes and Dialysis Study and The Netherlands Cooperative Study on the Adequacy of Dialysis). Show less
The nuclear symptoms and signs of Huntington__s disease (HD) consist of motor, cognitive and behavioural disturbances. Other less well-known, but prevalent and debilitating features of HD include... Show moreThe nuclear symptoms and signs of Huntington__s disease (HD) consist of motor, cognitive and behavioural disturbances. Other less well-known, but prevalent and debilitating features of HD include unintended weight loss, sleep and circadian rhythm disturbances, as well as autonomic nervous system dysfunction. However, the pathogenesis of these less well-known features of HD is poorly understood and currently no effective treatment options are available. It is thus of paramount importance to elucidate the pathological basis of these symptoms and signs in order to design and apply more effective therapeutic interventions. Recently, substantial dysfunction of the hypothalamus was reported in both human studies and various knock-in and transgenic animal models of HD. The hypothalamus consists of groups of interconnected neuronal nuclei located at the base of the brain that regulate a broad array of physiologic, homeostatic and behavioural activities. Therefore, in this thesis we attempt to substantiate the premise that hypothalamic dysfunction per se, as well as secondary (neuro)endocrine and metabolic alterations could contribute to the pathogenesis of several non-motor symptoms and signs of HD. Show less
