about
Xenobiotic metabolism in the zebrafish: a review of the spatiotemporal distribution, modulation and activity of Cytochrome P450 families 1 to 3Organ data from the developing Göttingen minipig: first steps towards a juvenile PBPK model.Supplementing formula-fed piglets with a low molecular weight fraction of bovine colostrum whey results in an improved intestinal barrier.In Vitro Biotransformation of Two Human CYP3A Probe Substrates and Their Inhibition during Early Zebrafish Development.Evaluating Complex Mixtures in the Zebrafish Embryo by Reconstituting Field Water Samples: A Metal Pollution Case StudyM cell specific markers in man and domestic animals: valuable tools in vaccine development.Nutritional interventions to prevent and rear low-birthweight piglets.In vitro Phase I- and Phase II-Drug Metabolism in The Liver of Juvenile and Adult Göttingen Minipigs.In Vitro Investigation of Six Antioxidants for Pig DietsIn vitro CYP1A activity in the zebrafish: temporal but low metabolite levels during organogenesis and lack of gender differences in the adult stage.Artificial rearing influences the morphology, permeability and redox state of the gastrointestinal tract of low and normal birth weight piglets.Apoptosis in the canine endometrium during the estrous cycle.Proliferation patterns in the canine endometrium during the estrous cycle.Endogenous occurrence of some anabolic steroids in swine matrices.Lymph drainage from the ovine tonsils: an anatomical study of the tonsillar lymph vessels.Scanning electron microscopic changes of the canine uterine luminal surface during oestrus and late metoestrus.Lymphangiogenesis in canine mammary tumours: a morphometric and prognostic study.Ontogeny of CYP3A and P-glycoprotein in the liver and the small intestine of the Göttingen minipig: an immunohistochemical evaluation.Perinatal growth restriction is not related to higher intestinal distribution and increased serum levels of 5-hydroxytryptamin in piglets.In vitro CYP-mediated drug metabolism in the zebrafish (embryo) using human reference compounds.Cell-specific localisation of apoptosis in the bovine ovary at different stages of the oestrous cycle.Enteric and serological distribution of serotonin and its precursor tryptophan in perinatal low and normal weight piglets.Ghrelin in the gastrointestinal tract and blood circulation of perinatal low and normal weight piglets.Age-related differences in mucosal barrier function and morphology of the small intestine in low and normal birth weight piglets.Cyclic changes of the canine endometrial surface: an electron-microscopic study.The ligaments of the canine hip joint revisited.Biological and chemical approaches for the detection and identification of illegal estrogens in water-based solutions.Angiogenesis in canine mammary tumours: a morphometric and prognostic study.Sperm distribution in the genital tract of the bitch following artificial insemination in relation to the time of ovulation.Age-related Differences in CYP3A Abundance and Activity in the Liver of the Göttingen Minipig.Incubation at 32.5°C and above causes malformations in the zebrafish embryo.From mRNA Expression of Drug Disposition Genes to In Vivo Assessment of CYP-Mediated Biotransformation during Zebrafish Embryonic and Larval DevelopmentInterferon-γ modulates the functional profile of in-vitro-cultured porcine microgliaIncreased intestinal barrier function in the small intestine of formula-fed neonatal pigletsAlternative models to study the intestinal barrier function of pigletsStereology: from astronomy to veterinary oncologyPre- and Postnatal Development of the Eye: A Species ComparisonUse of Zebrafish in Drug Discovery ToxicologyGlucose and glycogen levels in piglets that differ in birth weight and vitality
P50
Q28070068-52CA1D86-92B7-4946-8FE9-D3B421F2B1E8Q31033069-199489A5-4C23-4A0D-B620-7F6391438794Q35205074-0BEEE093-B088-4583-B951-912146956327Q37631717-40C56397-DF6D-4FF1-A312-3E13713EF2A9Q37729111-15FE6FE0-AD00-4A8B-BDD6-06758ADA7028Q38101758-8CE6A96A-4F92-4D1C-8E34-27BA3BBFB3BDQ38151883-9777844E-E2D5-499D-87C5-96CDB2307DA8Q39015614-0675AD68-F5E6-4373-916D-F048874007EBQ39186896-E25B71A8-4DDD-4320-A440-252F2AFDB0B7Q39861918-B62F2817-D16D-446D-A3D0-D6DB7CB0A1FFQ42292496-CDD5AE80-9637-490C-8C92-06BAEA82238EQ42451888-0683492E-172E-4F5B-AD37-0405646B95D3Q42463974-0D3533AC-73BE-4350-A924-4D53710A933BQ43219259-0D26B629-A3D4-4144-A323-30B8FAC7EF7FQ43449777-3851C892-E719-4995-A274-675DAE3D4844Q44033056-7EB4F7B1-2CAC-4D50-B446-1C55E12B170DQ44816698-4423ED9A-136E-4DAB-8EED-1FBC8339B124Q45400881-42FD4BE3-D817-4688-8720-80C6EE8CF8EDQ46275815-A3C8FD28-A456-4E03-B5F2-D6338332F206Q46365495-D64BD365-F2AB-4CFF-8844-7C7163B92D3CQ46660974-70C247FB-94BD-43C0-9A73-B0EB8104273EQ47180336-32EC8FA8-6EE9-4AE2-BB58-F8691D340731Q47199814-95E71950-DBB3-498B-BC55-1335E274C949Q47450052-E8E27F9D-3F1D-4A25-B25B-7EF7F8948ABBQ49034387-74ACDB72-B82D-496E-AC6E-7CD6D6EB58B4Q49040985-004D9140-036B-421E-BDA6-6A0049F26C6AQ49079673-2AA4B02C-9655-4BED-AA4E-D3BC4A8372F6Q49105849-1B180AA5-D0C0-4500-A65F-D82C51EF1992Q49126695-B8C821DD-2115-48E9-9558-32FD978EAC66Q49145213-45D2C484-69CA-4485-9597-87688F4433D2Q50585552-874A5539-9D13-4676-AA9D-3C2C34D2D514Q60961365-FE2425F2-DB53-4252-8DED-0C2B8A7112D6Q84119516-9D4E6F0C-CD21-4171-AF36-CA7AA3420819Q86018936-5F74D128-54C3-4FED-BC8E-8D1510CEF1CDQ86092166-F7278DE0-7412-4C84-9331-07B7CE79CC0BQ88171731-CE7C1CA5-8FEE-403B-8D63-E84E270E46BBQ89057886-B4E249BD-D475-481E-A794-4A9092C5A7D3Q90790324-86BED39E-2D5F-44EB-B0F4-237E84B5A60DQ91115918-051054E6-48DD-4734-BFAB-77B986ED218A
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Steven Van Cruchten
@ast
Steven Van Cruchten
@en
Steven Van Cruchten
@es
Steven Van Cruchten
@nl
Steven Van Cruchten
@sl
type
label
Steven Van Cruchten
@ast
Steven Van Cruchten
@en
Steven Van Cruchten
@es
Steven Van Cruchten
@nl
Steven Van Cruchten
@sl
prefLabel
Steven Van Cruchten
@ast
Steven Van Cruchten
@en
Steven Van Cruchten
@es
Steven Van Cruchten
@nl
Steven Van Cruchten
@sl
P1053
C-7566-2015
P106
P21
P31
P3829
P496
0000-0002-3144-1840