about
A possible pharmacological explanation for quinacrine failure to treat prion diseases: pharmacokinetic investigations in a ovine model of scrapieContagious epididymitis due to Brucella ovis: relationship between sexual function, serology and bacterial shedding in semen.Environmental pollutants, a possible etiology for premature ovarian insufficiency: a narrative review of animal and human data.Variations in the vulvar temperature of sows during proestrus and estrus as determined by infrared thermography and its relation to ovulation.Evidence for bisphenol A-induced disruption of maternal thyroid homeostasis in the pregnant ewe at low level representative of human exposure.Does bovine besnoitiosis affect the sexual function of chronically infected bulls?Assessment of dietary exposure to bisphenol A in the French population with a special focus on risk characterisation for pregnant French women.Effect of gonadorelin, lecirelin, and buserelin on LH surge, ovulation, and progesterone in cattle.Conjugation and deconjugation reactions within the fetoplacental compartment in a sheep model: a key factor determining bisphenol A fetal exposure.Florfenicol concentrations in ovine tear fluid following intramuscular and subcutaneous administration and comparison with the minimum inhibitory concentrations against mycoplasmal strains potentially involved in infectious keratoconjunctivitis.Interpreting bisphenol a absorption in the canine oral cavity: Gayrard et al. Respond.Fetal protection against bovine viral diarrhoea type 1 virus infection after one administration of a live-attenuated vaccine.Comment on "In Vitro Effects of Bisphenol A β-D-Glucuronide (BPA-G) on Adipogenesis in Human and Murine Preadipocytes".Is the mechanisms of fipronil-induced thyroid disruption specific of the rat: Re-evaluation of fipronil thyroid toxicity in sheep?A nonlabeled method to evaluate cortisol production rate by modeling plasma CBG-free cortisol disposition.Discriminant value of blood and urinary corticoids for the diagnosis of scrapie in live sheep.Bisphenol A disposition in the sheep maternal-placental-fetal unit: mechanisms determining fetal internal exposure.Alterations of somatotropic function in prion disease in sheep.Increased GH secretion in scrapie, a prion-associated neurodegenerative disease, is not due to suppressed IGF-1 negative feedback.Fipronil-induced disruption of thyroid function in rats is mediated by increased total and free thyroxine clearances concomitantly to increased activity of hepatic enzymes.Allometric scaling for predicting human clearance of bisphenol A.Blood clearance of the prion protein introduced by intravenous route in sheep is influenced by host genetic and physiopathologic factors.Prediction of human prenatal exposure to bisphenol A and bisphenol A glucuronide from an ovine semi-physiological toxicokinetic model.Melatonin and prolactin secretion profile in naturally occurring scrapie in ewe.Bisphenol A in culture media and plastic consumables used for ART.Development of an on-line solid phase extraction ultra-high-performance liquid chromatography technique coupled to tandem mass spectrometry for quantification of bisphenol S and bisphenol S glucuronide: Applicability to toxicokinetic investigations.Bidirectional placental transfer of Bisphenol A and its main metabolite, Bisphenol A-Glucuronide, in the isolated perfused human placenta.Competitive binding to plasma thyroid hormone transport proteins and thyroid disruption by phenylbutazone used as a probe.Bisphenol A glucuronide deconjugation is a determining factor of fetal exposure to bisphenol A.No detection of Besnoitia besnoiti DNA in the semen of chronically infected bulls.Evaluation and validation of an analytical approach for high-throughput metabolomic fingerprinting using direct introduction-high-resolution mass spectrometry: Applicability to classification of urine of scrapie-infected ewesEffect of precocious collection on semen output and quality in young Holstein bullsGlucocorticoids enhance the cholesterol side-chain cleavage activity of ovine adrenocortical mitochondriaMajor hypercorticism is an endocrine feature of ewes with naturally occurring scrapieGlucocorticoids enhance corticotropin receptor mRNA levels in ovine adrenocortical cellsNaturally occurring scrapie is associated with a lower CBG binding capacity in ewesThe adrenocorticotropin stimulation test: contribution of a physiologically based model developed in horse for its interpretation in different pathophysiological situations encountered in manSimultaneous quantification of bisphenol A and its glucuronide metabolite (BPA-G) in plasma and urine: applicability to toxicokinetic investigationsComment on 'Pharmacokinetics of bisphenol S in humans after a single oral administration'Characterization of the contribution of buccal absorption to internal exposure to bisphenol A through the diet
P50
Q24670616-D595E90F-A0B5-4E8C-B90A-9A58E72CB0F9Q35646695-8F957DF6-972D-4C54-827D-053B93582368Q36340348-1655AC6D-8EDE-443F-8947-25E1E4684FC8Q38243586-E842EFAC-5CA9-44AC-9E12-9FE8C2D3A214Q38776861-50699A09-30E1-4CD3-A96F-92FBAFE24BB7Q40102670-269DF7A7-3B9F-4822-8426-FF510B162F8BQ40206860-558C9418-B626-4501-B7AC-844892A1247CQ41044329-A3B7BBDD-AB07-437A-98E1-3372786C8BFDQ41598703-262A7B34-324E-4098-95C6-8D891D4EC8D4Q42277046-5233C3CD-5AE4-4655-A79B-786A37F3902FQ42837024-63160678-EF60-432D-B7B0-BB701DE2C2C0Q43037855-9BE89909-0F41-436E-8E79-9CC31A2E8FDFQ43141847-102C3C6F-25A3-4DF0-AD50-AE3A41187477Q43179710-6F5FAAA1-BFEB-4998-A6EC-9707F383D2B7Q43762932-659A2C69-9F93-4A54-A722-BAC915B17B1AQ44034713-3D0A193D-A372-4712-97B0-31E13CA5B090Q44269349-81C38D9F-770B-46C9-A19F-8A0179FA74A8Q45143019-88CC9818-3FE5-421B-AFFA-F2D677307002Q46140930-EEB62168-0CF0-4FEB-9920-06F0A8DB7D4AQ46269864-31C9E65F-7DC7-4F33-B72B-FC6F295EA0E4Q46761538-5018839C-03C2-4D90-B205-122E2CA543ACQ46773044-7A725104-FF5C-4F04-85D7-D1084F66D586Q47168396-46E943BA-AF9A-44C3-9021-1FE556A39B4DQ48506243-DD90947B-B520-49F7-8EE7-C1E3C199EA14Q48550520-E68272D5-CCDE-441E-9467-18BEEAFC1C24Q50063811-CC29CB56-C13E-4BCD-9501-945BBBC74EA5Q50655299-9A39058A-6880-47AB-9DFC-2D7731E76397Q52616544-6BEDA896-F842-47EA-9B4A-9B9421F4F997Q53288013-ADF0CAC9-5F4D-4852-BFCB-7F2575FFAF8AQ54210030-B82C4361-2402-43A9-97F6-85A441200D39Q58595590-68B65882-1CD6-4663-AE8D-A5931EECF813Q62989168-640DC087-3196-44DA-A619-C806692977C6Q71785599-AECCA0C7-653F-467E-AF73-2E23350FA501Q73500675-978723EE-80C6-46AA-ABA0-34706F1C5464Q73649865-C61E236E-DC46-4EE3-9FC0-C8912B7ECA44Q73790673-FB5423AC-0BAE-43CC-8F80-1BC02358BDBDQ83954500-3FCE411F-A04F-441D-80CC-ADC135A659FFQ84839553-2A8F45EE-B5B2-49B0-97C0-3E6C73F8E4ADQ88318621-743BF16A-43AC-4665-AF30-AC761FB579A0Q89249142-F293864D-5BDF-4FD7-8573-E51E7998D579
P50
description
researcher
@en
wetenschapper
@nl
name
N Picard-Hagen
@en
N Picard-Hagen
@nl
type
label
N Picard-Hagen
@en
N Picard-Hagen
@nl
prefLabel
N Picard-Hagen
@en
N Picard-Hagen
@nl
P106
P31
P496
0000-0002-3050-5523