about
SPE-NMR metabolite sub-profiling of urine.Biomolecular NMR: recent advances in liquids, solids and screening.NMR-based metabonomic studies on the biochemical effects of epicatechin in the rat.NMR nanoparticle diffusometry in hydrogels: enhancing sensitivity and selectivity.Magnetic resonance imaging of single rice kernels during cooking.Correlation of porous and functional properties of food materials by NMR relaxometry and multivariate analysis.Microstructural investigation of monoglyceride-water coagel systems by NMR and CryoSEM.(1)H NMR metabolite profiling of feces as a tool to assess the impact of nutrition on the human microbiome.Identification and quantification of polycarboxylates in detergent products using off-line size exclusion chromatography-nuclear magnetic resonance.Assessment of inflammatory resilience in healthy subjects using dietary lipid and glucose challenges.Interactions of black tea polyphenols with human gut microbiota: implications for gut and cardiovascular health.Rapid and sustained systemic circulation of conjugated gut microbial catabolites after single-dose black tea extract consumption.A lipidomic analysis approach to evaluate the response to cholesterol-lowering food intakeExpression of protocadherin gamma in skeletal muscle tissue is associated with age and muscle weakness.Non-digestible food ingredients, colonic microbiota and the impact on gut health and immunity: a role for metabolomics.MRI of plants and foods.Exploration of the single-stranded DNA-binding domains of the gene V proteins encoded by the filamentous bacteriophages IKe and M13 by means of spin-labeled oligonucleotide and lanthanide-chelate complexes.Assessment of dietary exposure and effect in humans: The role of NMR.A systematic approach to obtain validated partial least square models for predicting lipoprotein subclasses from serum NMR spectra.Nutrimetabolomics: development of a bio-identification toolbox to determine the bioactive compounds in grape juice.The Muscle Metabolome Differs between Healthy and Frail Older Adults.Effect of Theobromine Consumption on Serum Lipoprotein Profiles in Apparently Healthy Humans with Low HDL-Cholesterol Concentrations.Quantitative profiling of oxylipins through comprehensive LC-MS/MS analysis: application in cardiac surgery.Nutrikinetic modeling reveals order of genistein phase II metabolites appearance in human plasma.Nuclear magnetic resonance spectroscopic based studies of the metabolism of black tea polyphenols in humans.Phenotyping tea consumers by nutrikinetic analysis of polyphenolic end-metabolites.Postprandial fatty acid specific changes in circulating oxylipins in lean and obese men after high-fat challenge tests.GC-MS methods for metabolic profiling of microbial fermentation products of dietary polyphenols in human and in vitro intervention studies.Measurement of ischaemia-reperfusion in patients with intermittent claudication using NMR-based metabonomics.Dynamic volume change measurements of cereal materials by environmental scanning electron microscopy and videomicroscopy.Quantification of food polysaccharide mixtures by 1H NMR.Complex Coacervate Core Micelles with Spectroscopic Labels for Diffusometric Probing of Biopolymer Networks.In vitro bioconversion of polyphenols from black tea and red wine/grape juice by human intestinal microbiota displays strong interindividual variability.The use of multivariate modelling of near infra-red spectra to predict the butter fat content of spreads.Weight loss moderately affects the mixed meal challenge response of the plasma metabolome and transcriptome of peripheral blood mononuclear cells in abdominally obese subjects.The effect of plant sterols and different low doses of omega-3 fatty acids from fish oil on lipoprotein subclasses.Rapid phase-compositional assessment of lipid-based food products by time domain NMR.Networks of micronized fat crystals grown under static conditions.Yielding and flow of cellulose microfibril dispersions in the presence of a charged polymer.Difftrain: a novel approach to a true spectroscopic single-scan diffusion measurement.
P50
Q30559827-5F7CE591-61AC-4DA8-ACCB-765EF1A718BCQ30784657-516C3B8F-C950-4DB2-B2B9-59466FC602A0Q30806189-E5D52869-D06F-4521-AB6E-B6309E3157D7Q30843786-E7A49455-E273-42EB-84C9-9147981CC31BQ30972702-A8D3790A-7408-4AF4-B962-089995FDDD69Q30987299-D5D20CFC-12B0-4F70-A3F0-4AE9370C1934Q30987484-DCCB7F87-A08A-4BEA-9F2D-89FE72C464BBQ31140257-B551D20A-ED89-415A-9287-35ABB4557834Q33511886-5E49291F-D4B9-4FF6-A9D1-4AD224C5A92EQ33590134-264F38DF-2E8A-4253-90CB-9B586CCF3D7EQ35028993-41EDB2FD-EAA0-4B4E-B9AD-0BE1FB246E51Q35132740-84FA4794-A92E-432A-835E-81EDB3FE9C7FQ36301541-16038550-C70E-4C0D-B049-69CA877AFC06Q36892042-C5AB6767-A645-4911-9BAB-5E0A307F5FCFQ37370231-6C386EEA-7728-41BD-990A-72FD8F5B3BF1Q38078096-9C3053C9-06B9-4D23-AD4E-425375006F68Q38316339-52FFD03D-9FB7-4770-93CB-EE1D25251298Q38940214-E5058291-CC83-4C4F-975D-A6815AAA7D2AQ39298761-7C2D4C3C-1CAB-4760-95DE-2B849AF22AD9Q39630813-EB400501-D134-4AF4-B3F0-03147A94486BQ40143604-A53F96F4-0E0F-4C81-A44F-C1FFC79C3B09Q41948376-0B41B11A-9A02-41A3-9B6A-20BD358655E7Q42321054-4270CD49-3067-4BB4-8278-0634B7F9B52DQ44816736-7CFD5177-B579-42AD-93D2-5D5FA5D05D1BQ45288954-60E100B2-998E-4AC1-9AF6-0EF5516742FFQ45975618-FD2C3272-9FFF-4522-9D52-AC322C9F831EQ45995976-76FC546C-F88F-4EDD-82F1-E1ED89E7A16BQ46125469-AF288EEA-B97B-4F30-B370-ADA9C891677FQ46774491-14F39617-1613-4A77-8249-BFF9AE95364FQ47796224-233CFAAB-1808-4666-AEE6-AF51AEF83F77Q48547507-0C1F11DF-ED5C-4FD4-B363-27167981CFD0Q48643794-48B9630B-C9F4-45C0-B662-464C6FE20B90Q49092102-4B1DA3E9-5746-4165-A745-E4E1FD8F169EQ50689412-39D0BF43-CF63-4441-99AB-8D6244A89E52Q51245555-4B783002-49E7-47BF-803C-B1A135B6045DQ51302240-0E4145BB-3EB0-4589-BD47-716922C02CCEQ51934001-1CEF7404-29CC-42EC-8A54-770D6F1C157DQ52596760-34479C34-B848-4593-A701-86CFD1890CCFQ53085904-1EE7FB8F-DFC5-4937-B1D0-A981006AAFCBQ53889386-B9441E4A-6575-4F68-AA2C-1FCDCC4B622F
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
John van Duynhoven
@ast
John van Duynhoven
@en
John van Duynhoven
@es
John van Duynhoven
@nl
type
label
John van Duynhoven
@ast
John van Duynhoven
@en
John van Duynhoven
@es
John van Duynhoven
@nl
prefLabel
John van Duynhoven
@ast
John van Duynhoven
@en
John van Duynhoven
@es
John van Duynhoven
@nl
P1006
P214
P1006
P106
P1153
7004462346
P214
P31
P496
0000-0001-9769-0113
P735
P7859
lccn-no2013051661