about
Androgenic anabolic steroid use and severe hypothalamic-pituitary dysfunction: a case studyOvertrained horses alter their resting pulsatile growth hormone secretion.Immunohistochemical identification and fiber type specific localization of protein kinase C isoforms in equine skeletal muscle.Physical Activity during Cancer Treatment (PACT) Study: design of a randomised clinical trialA nonnatural head-neck position (Rollkur) during training results in less acute stress in elite, trained, dressage horses.Effect of testosterone and endurance training on glycogen metabolism in skeletal muscle of chronic hyperglycaemic female rats.Long-term follow-up after cancer rehabilitation using high-intensity resistance training: persistent improvement of physical performance and quality of life.Hormonal responses to acute exercise, training and overtraining. A review with emphasis on the horse.Structural and functional analysis of the canine histamine H2 receptor by site-directed mutagenesis: N-glycosylation is not vital for its action.Vibrotactile feedback as a tool to improve motor learning and sports performance: a systematic review.Physiological, biochemical and psychological markers of strenuous training-induced fatigue.Little soldiers in their cardboard cells.Tympanic measurement of body temperature in stroke patients "turned on its ear".Novel markers for tying-up in horses by proteomics analysis of equine muscle biopsies.Timing of the effect of acetaminophen on body temperature in patients with acute ischemic stroke.Investigation of the expression and localization of glucose transporter 4 and fatty acid translocase/CD36 in equine skeletal muscle.Skeletal muscle transcriptome profiles related to different training intensities and detraining in Standardbred horses: a search for overtraining biomarkers.Plasma acylcarnitine and fatty acid profiles during exercise and training in Standardbreds.Four weeks' corticosteroid inhalation does not augment maximal power output in endurance athletes.Effects of short- and long-term recombinant equine growth hormone and short-term hydrocortisone administration on tissue sensitivity to insulin in horses.Effects of increasing insulin secretion on acute postexercise blood glucose disposal.Clinical V̇o2peak is "part of the deal".Effect of different head and neck positions on behaviour, heart rate variability and cortisol levels in lunged Royal Dutch Sport horses.Insulin resistance, physical fitness, body composition and leptin concentration in 7-8 year-old children.Assessment of endogenous growth hormone pulsatility in gelded yearling horses using deconvolution analysis.The effect of training interventions on physical performance, quality of life, and fatigue in patients receiving breast cancer treatment: a systematic reviewTest-retest variability of VO2max using total-capture indirect calorimetry reveals linear relationship of VO and PowerModulation of fatty-acid-binding protein content of rat heart and skeletal muscle by endurance training and testosterone treatmentModulation of glycogen metabolism of rat skeletal muscles by endurance training and testosterone treatmentSteroid drug delivery systems in endocrine and metabolic research: evaluation of three modelsFatty acid transfer across the myocardial capillary wall: no evidence of a substantial role for cytoplasmic fatty acid-binding proteinRat heart fatty acid-binding protein content is increased in experimental diabetesUse of an intact mouse skeletal muscle preparation for endocrine vascular studies: evaluation of the modelEffects of oral bovine colostrum supplementation on serum insulin-like growth factor-I levelsThe role of mast cells and histamine in leukocyte-endothelium interactions in four rat strainsThe effect of long-term exercise on glucose metabolism and peripheral insulin sensitivity in standardbred horsesExercise testing and training in a cancer rehabilitation program: the advantage of the steep ramp testHigh-intensity strength training improves quality of life in cancer survivorsEffect of exercise on activation of the p38 mitogen-activated protein kinase pathway, c-Jun NH2 terminal kinase, and heat shock protein 27 in equine skeletal muscleDifferential expression of equine muscle biopsy proteins during normal training and intensified training in young standardbred horses using proteomics technology
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Q28203621-0253F906-511F-4B48-A794-E18DA94A4A43Q30412377-545EE2F0-54B5-49AC-B493-99A5DCC73E04Q33196758-02990D0B-0CCD-4A6D-A728-7FFDD5F6656CQ33599364-FCA20443-1A52-4381-8250-FAE8765E97D6Q33995494-83CDC612-2AA8-4EF2-930F-1265E6FE4CF1Q35326635-0D801331-94F1-4084-8102-2083BE9FFBF1Q36755169-DF1B51B1-4E50-4C21-B5F6-89827929BB3CQ36985687-1E817393-B890-4CBE-B4FD-CEF0E7721975Q38292302-586B6324-1788-4602-81D6-E4B86D835B7AQ41144623-4C17836D-CA6D-4013-8626-DBF83980D46BQ42472710-926E9786-3486-4A2F-85F0-276A5F833070Q42880054-50122BAB-A1EB-4229-9F19-C8FFB59C05B0Q43067654-A10AFA2F-A4FF-471D-BF97-7078504C28B2Q43069641-59BF3461-E94E-460D-8EB5-55B6F1D4F926Q44578342-537504CC-CC8A-40D6-9A4B-477F9DD48382Q44998647-98EBE244-D414-4A0F-9660-82B69011443EQ45809386-D67F6814-FC1C-47D6-B24E-71DE37C0A008Q46267473-5C39EDCD-2C84-47D5-8E8B-0ECB8681D215Q46698832-4A8362BC-924C-4068-B067-78BE37C15116Q46840588-FD1C3A74-DFCE-46B9-A996-F00C0AD202AAQ46987084-531B1DEA-FEF2-46F7-A396-38F52A10D588Q48124368-F31B9864-BADB-43DC-B121-504C8673F7E2Q49052146-026C368B-6A7C-4AB7-9A24-614DE52EB214Q51481256-A6EEA470-28F7-43DA-83E3-127715627522Q51510336-D41D2981-C72E-4F59-87E1-FCA160F941A7Q57292624-C6B00CF1-6BD1-40EA-A19C-31CBEF4E0F15Q57808906-AEAE748A-EAF7-4093-8269-BB2D3130BE2CQ67503937-C7B1D420-7AC1-4AE6-91B0-DE1890CDF9A0Q70517001-8C7A03BD-EF37-4387-BF51-17054D3FA3D3Q70888836-669086A4-BF29-4FD4-980B-121F5357AED2Q72192699-7C5A5E6F-2153-40F7-B8F5-FC3BDCD89147Q72310312-C203250A-F38C-4AD0-A9DB-C96822E7051EQ73028135-74292F9E-0725-4839-BBB7-27EF7FA4E072Q74396711-B5223235-8F2C-4EE8-87F5-04C43F1847D5Q74567941-499F3493-ADE9-4AA1-909B-914C1B1125C2Q80083006-9F4CA416-DD8B-48FE-B805-BEF73B9CE1C2Q80233511-3175E7A4-7900-40B7-B904-0B00352E9F43Q81242271-F5DD47F9-E169-4FB5-86F0-A5A3699E1394Q83225571-59B2ADC8-6B30-4581-8171-22619C913A8AQ84018551-54E635C6-8C88-4AB1-8071-5267B040BDFE
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description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Eric van Breda
@ast
Eric van Breda
@en
Eric van Breda
@es
Eric van Breda
@nl
Eric van Breda
@sl
type
label
Eric van Breda
@ast
Eric van Breda
@en
Eric van Breda
@es
Eric van Breda
@nl
Eric van Breda
@sl
prefLabel
Eric van Breda
@ast
Eric van Breda
@en
Eric van Breda
@es
Eric van Breda
@nl
Eric van Breda
@sl
P1053
B-5672-2017
P106
P21
P31
P3829
P496
0000-0002-4350-5856