This thesis aimed to explore biochemical processes related to migraine outside (interictal) and during upcoming attacks. Chapter 2 describes the biochemical profiling of plasma samples from... Show moreThis thesis aimed to explore biochemical processes related to migraine outside (interictal) and during upcoming attacks. Chapter 2 describes the biochemical profiling of plasma samples from interictal migraine patients and healthy controls from eight Dutch cohorts with a proton nuclear magnetic resonance based metabolomics platform. In Chapter 3 cerebrospinal fluid (CSF) and plasma samples from interictal migraine with and without aura patients and healthy volunteers, were profiled using an ultra-performance liquid chromatography mass spectrometry (UPLC-MS) platform for amine measurements, as multiple amines have been implicated in migraine pathophysiology. Alcoholic beverages are frequently reported migraine triggers. Chapter 4 assessed the potential of various alcohol beverages as a migraine attack trigger using a questionnaire study in a large cohort of migraine patients. In Chapter 5, the frequently used pharmacological migraine trigger glyceryl trinitrate (GTN) was studied in migraine patients and healthy controls to investigate whether previously reported premonitory symptoms are indeed specific to migraine patients. In Chapter 6 glutamate, glutamine, and GABA were assed in the visual cortex of migraine patients before and over the course of a GTN-provoked attack to detect possible involvement of the glutamatergic system in the onset of attacks using proton magnetic resonance spectroscopy. Show less
Copper(I) hydridotrispyrazolylborate complexes were synthesized and analyzed as potential candidates for highly sensitive ethene detection. The best complexes were selected and used as sensitizers... Show moreCopper(I) hydridotrispyrazolylborate complexes were synthesized and analyzed as potential candidates for highly sensitive ethene detection. The best complexes were selected and used as sensitizers for extremely sensitive graphene-based ethene gas sensors. Show less
Schoot, R.A.; Ommen, C.H. van; Stijnen, T.; Tissing, W.J.E.; Michiels, E.; Abbink, F.C.H.; ... ; Wetering, M.D. van de 2015
Technological innovation has helped the zebrafish embryo gain ground as a disease model and an assay system for drug screening. Here, we review the use of zebrafish embryos and early larvae in... Show moreTechnological innovation has helped the zebrafish embryo gain ground as a disease model and an assay system for drug screening. Here, we review the use of zebrafish embryos and early larvae in applied biomedical research, using selected cases. We look at the use of zebrafish embryos as disease models, taking fetal alcohol syndrome and tuberculosis as examples. We discuss advances in imaging, in culture techniques (including microfluidics), and in drug delivery (including new techniques for the robotic injection of compounds into the egg). The use of zebrafish embryos in early stages of drug safety-screening is discussed. So too are the new behavioral assays that are being adapted from rodent research for use in zebrafish embryos, and which may become relevant in validating the effects of neuroactive compounds such as anxiolytics and antidepressants. Readouts, such as morphological screening and cardiac function, are examined. There are several drawbacks in the zebrafish model. One is its very rapid development, which means that screening with zebrafish is analogous to __screening on a run-away train.__ Therefore, we argue that zebrafish embryos need to be precisely staged when used in acute assays, so as to ensure a consistent window of developmental exposure. We believe that zebrafish embryo screens can be used in the pre-regulatory phases of drug development, although more validation studies are needed to overcome industry scepticism. Finally, the zebrafish poses no challenge to the position of rodent models: it is complementary to them, especially in early stages of drug research. Show less
This thesis describes the results of the fundamental research on the electro-oxidation of ethanol. In addition, the oxidation of intermediates in the ethanol electro-oxidation reaction, such as... Show moreThis thesis describes the results of the fundamental research on the electro-oxidation of ethanol. In addition, the oxidation of intermediates in the ethanol electro-oxidation reaction, such as acetaldehyde and adsorbed CO, has also been studied. The goal of this research is to provide deeper insight into the molecular level understanding of the mechanism, and how various operational parameters affect this mechanism. With these insights, the development of low temperature direct ethanol fuel cells (DEFC) can be advanced, since, ultimately, the goal of fundamental catalysis research is the rational design of new catalysts, for which the understanding of molecular mechanisms is of essential importance. The mechanism of the electro-oxidation reaction is investigated using electrochemical techniques, such as cyclic voltammetry and chronoamperometry, as well as in situ characterization techniques, such as surface enhanced Raman spectroscopy (SERS), Fourier transform infrared spectroscopy (FTIR) and online electrochemical mass spectrometry (OLEMS). Show less