about
Circulating angiogenic biomolecules at rest and in response to upper-limb exercise in individuals with spinal cord injuryBlood Pressure Control at Rest and during Exercise in Obese Children and AdultsLow-frequency fatigue as an indicator of eccentric exercise-induced muscle injury: the role of vitamin E.Reductive stress after exercise: The issue of redox individuality.Blood reflects tissue oxidative stress: a systematic review.Experimental verification of regression to the mean in redox biology: differential responses to exercise.Plasma from exercised rats administered to sedentary rats induces systemic and tissue inflammation.The rat adequately reflects human responses to exercise in blood biochemical profile: a comparative study.The effects of heavy continuous versus long and short intermittent aerobic exercise protocols on oxygen consumption, heart rate, and lactate responses in adolescents.Muscle fatigue during intermittent exercise in individuals with mental retardation.Recovery during high-intensity intermittent anaerobic exercise in boys, teens, and men.Determinants of muscle metaboreflex and involvement of baroreflex in boys and young men.Adaptations to endurance training depend on exercise-induced oxidative stress: exploiting redox interindividual variability.The rat closely mimics oxidative stress and inflammation in humans after exercise but not after exercise combined with vitamin C administration.Impaired Muscle Oxygenation and Elevated Exercise Blood Pressure in Hypertensive Patients: Links With Vascular Stiffness.Impairments in microvascular function and skeletal muscle oxygenation in women with gestational diabetes mellitus: links to cardiovascular disease risk factors.Asymmetric dimethylarginine levels are associated with augmentation index across naïve untreated patients with different hypertension phenotypes.Beetroot Increases Muscle Performance and Oxygenation During Sustained Isometric Exercise, but Does Not Alter Muscle Oxidative Efficiency and Microvascular Reactivity at Rest.Blunted cerebral oxygenation during exercise in women with gestational diabetes mellitus: associations with macrovascular function and cardiovascular risk factors.Aging is not a barrier to muscle and redox adaptations: applying the repeated eccentric exercise model.Meeting Reports: Exercise is Medicine Israel 5th Annual Conference - Endocrine Aspects Tel Aviv, Israel, May 10th, 2017.The effects of chronic exercise on anesthesia induced hepatotoxicity.Effects of low- and high-volume resistance exercise on postprandial lipaemia.Prediction of peak oxygen uptake from a maximal treadmill test in 12- to 18-year-old active male adolescents.Global Metabolic Stress of Isoeffort Continuous and High Intensity Interval Aerobic Exercise: A Comparative 1H NMR Metabonomic Study.Smoking before isometric exercise amplifies myocardial stress and dysregulates baroreceptor sensitivity and cerebral oxygenation.Exaggerated haemodynamic and neural responses to involuntary contractions induced by whole-body vibration in normotensive obese versus lean women.Oxygen Delivery and Muscle Deoxygenation during Continuous, Long- and Short-Interval Exercise.Effect of a hippotherapy intervention program on static balance and strength in adolescents with intellectual disabilities.The contribution of stretch-shortening cycle and arm-swing to vertical jumping performance in children, adolescents, and adult basketball playersCellular basis of contractile derangements of hypertrophied feline ventricular myocytesVoltage-dependent Ca2+ release from the SR of feline ventricular myocytes is explained by Ca2+-induced Ca2+ releasePreserved contractile function despite atrophic remodeling in unloaded rat heartsThe sarcoplasmic reticulum and the Na+/Ca2+ exchanger both contribute to the Ca2+ transient of failing human ventricular myocytesMyocyte recovery after mechanical circulatory support in humans with end-stage heart failureSodium/calcium exchange contributes to contraction and relaxation in failed human ventricular myocytesGender differences in post-infarction hypertrophy in end-stage failing heartsThe effects of a twenty-four-week aquatic training program on muscular strength performance in healthy elderly womenThe effects of resisted sled-pulling sprint training on acceleration and maximum speed performanceExercise as a model to study redox homeostasis in blood: the effect of protocol and sampling point
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Q33789722-DB19857A-DE20-4900-8D78-08A843B312EDQ35991051-84179AA0-E966-47BA-B15A-90F4C645BED1Q36104666-FE6CEE8E-6FCE-43D9-B198-66E413A21860Q38271831-79493B42-C317-42A3-B0FC-8C95EA32E55AQ38315996-C6E96114-1741-47CC-9537-D3BD5460C2B0Q38824146-6CF65138-6077-4346-A6E9-B04536CFE1BEQ39076662-F7CBCAB0-F894-4019-833F-62D627A0C3ADQ39509471-DC34D2D3-030B-43B5-9731-7A22C8AFB250Q43103382-4283C27C-3130-4F41-B062-1E17215BAE23Q43243276-4F172E66-C2AD-467A-81B6-53351AD4BB54Q45292672-052E42D9-1B19-480E-AC1C-C359D986C0F4Q46254051-209C5F5C-B77C-43C7-94F3-70A1908A56B6Q46360740-B272FAA9-9A49-4F9B-BD7D-C3F27421F0DAQ46598911-6A16E7E4-5731-4FAD-90F8-5C58FA952095Q47805250-EC3E9436-A12E-4FC2-BB36-0635349A034AQ48310500-2E7D40C3-58CC-47C6-879E-39662A9E2DA0Q49976999-8C4EFEF4-27BA-41E4-A9D0-FD6C3F2A0208Q50051242-1E16851A-F714-49A2-BD1B-8B710AF88D47Q50150222-ED0A2284-7200-46B9-A047-29F7685A43A7Q51031867-ACDE1736-732D-4728-88D0-2052FAF19C33Q51350791-14C170A8-3C5E-4171-8E55-537C8BBE38B8Q51370035-6EF9EAA3-7A9F-4DA2-8EC1-C3FD375371B5Q51477413-F3303B5E-FAC7-41AD-B91A-D60367E92DD0Q51612335-AFEE9C86-6711-4194-8D94-DE9EA9F5D816Q51807819-02CEDE32-382D-49C5-B781-7FD1DAD07588Q52096900-1442280A-1CC3-4542-8773-F71AFDBE9E1AQ53790580-9966FEF7-33AE-4214-9D37-2172AD28ABB1Q53834156-851FC52A-B9E0-4EAA-9511-5E7320450A2EQ55056524-C42C27FB-9D5F-4A6A-A952-AAF698E5955FQ56649414-353AAAB3-29F6-4198-A3EB-A0B1D409BA3DQ73542314-9182941C-F4B9-49DF-8F39-326AB113F496Q73552241-25CE0303-24CB-49D6-89AF-335FD0C87329Q74403653-568989B5-28EB-4898-95D9-F0083310B824Q74583485-8C1A3898-B84F-4B45-87B5-CC6657CE7A37Q74696316-2CDA8182-1AFA-403C-8905-A0CC3CA0742AQ78117508-CDDA360D-CC15-44F2-B025-C95EEE40F452Q78818609-621403EC-9112-40F7-BA56-8ABE7A1CC34BQ79459229-58976D1B-03C9-40F7-B492-8381B5376FB6Q81363594-31556760-620B-4D2D-93AB-8F3A2A626B6CQ83358259-9D2383DA-0600-4E23-A39E-6D74F6AA5D88
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
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name
Konstantina Dipla
@ast
Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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type
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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Konstantina Dipla
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P106
P31
P496
0000-0001-5902-3467