about
Harnessing Nutrigenomics: Development of web-based communication, databases, resources, and toolsInflammation and Nutritional Science for Programs/Policies and Interpretation of Research Evidence (INSPIRE).Atherosclerosis and liver inflammation induced by increased dietary cholesterol intake: a combined transcriptomics and metabolomics analysisInsight in modulation of inflammation in response to diclofenac intervention: a human intervention studyMetabolic profiling of the response to an oral glucose tolerance test detects subtle metabolic changesDifferential effects of drug interventions and dietary lifestyle in developing type 2 diabetes and complications: a systems biology analysis in LDLr-/- miceThe NuGO proof of principle study package: a collaborative research effort of the European Nutrigenomics OrganisationTranscriptome analysis provides new insights into liver changes induced in the rat upon dietary administration of the food additives butylated hydroxytoluene, curcumin, propyl gallate and thiabendazoleWhite adipose tissue reference network: a knowledge resource for exploring health-relevant relationsNetwork signatures link hepatic effects of anti-diabetic interventions with systemic disease parametersConsensus statement understanding health and malnutrition through a systems approach: the ENOUGH program for early lifeClustering by plasma lipoprotein profile reveals two distinct subgroups with positive lipid response to fenofibrate therapyOwner controlled data exchange in nutrigenomic collaborations: the NuGO information networkMass-spectrometry-based metabolomics: limitations and recommendations for future progress with particular focus on nutrition researchChallenges of molecular nutrition research 6: the nutritional phenotype database to store, share and evaluate nutritional systems biology studiesThe challenges for molecular nutrition research 2: quantification of the nutritional phenotype.Nutritional systems biology modeling: from molecular mechanisms to physiology.Metabolomics in human nutrition: opportunities and challenges.The case for strategic international alliances to harness nutritional genomics for public and personal health.Large-scale human metabolomics studies: a strategy for data (pre-) processing and validation.The challenges for molecular nutrition research 4: the "nutritional systems biology level".The challenges for molecular nutrition research 3: comparative nutrigenomics research as a basis for entering the systems levelImproving the analysis of designed studies by combining statistical modelling with study design informationGenome-wide mRNA expression analysis of hepatic adaptation to high-fat diets reveals switch from an inflammatory to steatotic transcriptional program.Developing computational model-based diagnostics to analyse clinical chemistry data.Time-resolved and tissue-specific systems analysis of the pathogenesis of insulin resistance.Assessment of inflammatory resilience in healthy subjects using dietary lipid and glucose challenges.A systems biology strategy for predicting similarities and differences of drug effects: evidence for drug-specific modulation of inflammation in atherosclerosis.Transcriptomic coordination in the human metabolic network reveals links between n-3 fat intake, adipose tissue gene expression and metabolic healthVisualization and identification of health space, based on personalized molecular phenotype and treatment response to relevant underlying biological processes.26th Hohenheim Consensus Conference, September 11, 2010 Scientific substantiation of health claims: evidence-based nutrition.The Micronutrient Genomics Project: a community-driven knowledge base for micronutrient research.Connecting the Human Variome Project to nutrigenomics.A dietary mixture containing fish oil, resveratrol, lycopene, catechins, and vitamins E and C reduces atherosclerosis in transgenic mice.Nutrigenomics: exploiting systems biology in the nutrition and health arena.Lipoprotein metabolism indicators improve cardiovascular risk prediction.A systems biology approach to understand the pathophysiological mechanisms of cardiac pathological hypertrophy associated with rosiglitazone.Phenotypic flexibility as key factor in the human nutrition and health relationship.Phenotypic flexibility as a measure of health: the optimal nutritional stress response testNutrigenomics: exploiting systems biology in the nutrition and health arenas.
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Ben van Ommen
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Ben van Ommen
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Ben van Ommen
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P106
P21
P2798
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P496
0000-0002-0124-9428