about
Effect of exercise training intensity on abdominal visceral fat and body composition.Activity-related energy expenditure in older adults: a call for more research.NIH ImageJ and Slice-O-Matic computed tomography imaging software to quantify soft tissueDoes oral glutamine improve insulin sensitivity in adolescents with type 1 diabetes?Comparison of the Effects of Stable and Dynamic Furniture on Physical Activity and Learning in Children.Endothelial function following glucose ingestion in adults with prediabetes: Role of exercise intensity.Exercise Intensity Modulates Glucose-Stimulated Insulin Secretion when Adjusted for Adipose, Liver and Skeletal Muscle Insulin Resistance.Exercise resistance across the prediabetes phenotypes: Impact on insulin sensitivity and substrate metabolism.The influence of friends and psychosocial factors on physical activity and screen time behavior in adolescents: a mixed-methods analysis.Walkable distances are bioenergetically scaled.Comparing Simple Insulin Sensitivity Indices to the Oral Minimal Model Postexercise.E2 supplementation selectively relieves GH's autonegative feedback on GH-releasing peptide-2-stimulated GH secretion.Single and combined effects of growth hormone and testosterone administration on measures of body composition, physical performance, mood, sexual function, bone turnover, and muscle gene expression in healthy older men.Persistent neuromuscular and corticomotor quadriceps asymmetry after anterior cruciate ligament reconstruction.Effects of n-3 fish oil on metabolic and histological parameters in NASH: a double-blind, randomized, placebo-controlled trial.Predictors of improvement in endothelial function after exercise training in a diverse sample of postmenopausal women.Effects of exercise intensity on postprandial improvement in glucose disposal and insulin sensitivity in prediabetic adults.Effect of an herbal/botanical supplement on recovery from delayed onset muscle soreness: a randomized placebo-controlled trial.Effect of an herbal/botanical supplement on strength, balance, and muscle function following 12-weeks of resistance training: a placebo controlled study.Metformin use in children with obesity and normal glucose tolerance--effects on cardiovascular markers and intrahepatic fat.Lifestyle intervention improves fitness independent of metformin in obese adolescents.Oxygen uptake and ratings of perceived exertion at the lactate threshold and maximal fat oxidation rate in untrained adults.The effect of exercise intensity on endothelial function in physically inactive lean and obese adults.Physical deconditioning as a cause of breathlessness among obese adolescents with a diagnosis of asthma.Reproducibility of rest and exercise stress contrast-enhanced calf perfusion magnetic resonance imaging in peripheral arterial diseaseEffects of antioxidant supplementation on insulin sensitivity, endothelial adhesion molecules, and oxidative stress in normal-weight and overweight young adults.Percutaneous intervention in peripheral artery disease improves calf muscle phosphocreatine recovery kinetics: a pilot studyWalking and running economy: inverse association with peak oxygen uptake.Low-density lipoprotein lowering does not improve calf muscle perfusion, energetics, or exercise performance in peripheral arterial disease.An experimental knee joint effusion does not affect plasma catecholamine concentration in humans.The effects of time following acute growth hormone administration on metabolic and power output measures during acute exercise.Delayed calf muscle phosphocreatine recovery after exercise identifies peripheral arterial diseaseCalf muscle perfusion at peak exercise in peripheral arterial disease: measurement by first-pass contrast-enhanced magnetic resonance imaging.Multifactorial determinants of functional capacity in peripheral arterial disease: uncoupling of calf muscle perfusion and metabolism.Effects of exercise training intensity on nocturnal growth hormone secretion in obese adults with the metabolic syndrome.Magnesium deficiency is associated with insulin resistance in obese children.Effects of continuous versus intermittent exercise, obesity, and gender on growth hormone secretion.Pubertal alterations in growth and body composition: IX. Altered spontaneous secretion and metabolic clearance of growth hormone in overweight youth.Growth hormone response to graded exercise intensities is attenuated and the gender difference abolished in older adults.Comparison of Borg- and OMNI-RPE as markers of the blood lactate response to exercise.
P50
Q24648289-E71F9D72-E0AF-4B72-B97B-3F06358A3BD1Q27005584-559D3305-E6FB-4344-81BA-28D2490D2984Q28364530-8DA01319-9925-422B-9AB9-0F49DABFF353Q30275067-95D6FF42-5EFF-4695-8A27-38244CC08827Q30275596-63DEF78B-57F4-46F4-9999-C56013718193Q30276741-C86AC652-E0CD-4756-A660-E384DB582FEDQ30276917-D64F7958-C11F-4217-AA6B-2004F73FB49DQ30276925-30EE8150-96C4-4B7F-B2CF-412245D74273Q30277015-D6D2EE98-7FF2-414C-8532-5EE92FBB0B5AQ30278820-63178881-0309-47B1-B618-7916AFF9CBBBQ30279051-9E1247E6-D201-4A82-B956-210D3EAB5D03Q30308357-C69A042A-064F-4FBD-B34B-AA2EB4D5525FQ30310297-9066A618-89C7-40F7-9DA6-8679BDAF9726Q30360482-A4A06512-A783-4EC1-BDD4-D7B68173162FQ30361789-014E780F-2FDA-459D-8437-AC540AB0F128Q30407785-7932F2BA-DEDD-44F5-B2FD-4DE36EFEAFD2Q30408824-3A36A5F4-8B97-4FC4-9132-E49C0175FBEAQ30412316-6EC72235-E84D-4F70-9DCC-8E244FD7C1D3Q30412587-354A6035-A457-41FE-8D68-1B04BBC7C2A6Q30413605-3DB665B4-A439-40DA-A743-7282F1509B8AQ30413710-D790F1CC-BF7A-4E41-8ADD-D7769FCDACB9Q30413734-7EEE7451-2CD9-437D-BCF2-4DDB7EF4F85DQ30415202-970BACF0-BD47-45D4-89D8-05F3DE488D94Q30419689-4A91BA5F-38E0-43C2-A2DF-8FBED330CCD9Q30422485-25D72F47-5CDE-4661-9182-E09484D8E33BQ30427399-6D04711D-F303-4385-876C-8A93FB7B6DFFQ30427822-5E3267FB-AE33-47F7-B027-B3357EF13771Q30430022-8662E161-A80E-4675-88EC-BD40BAD7C2A5Q30430614-DF0CBD19-516F-4FFD-8FAC-791F3CD4CBC0Q30434008-22B1EF01-02FB-4BC7-8DC3-3E9CE99DEB1EQ30434305-8CF9EC2A-110B-497C-A399-DA48B9A26095Q30434840-1346118A-5447-470A-8BE0-ED64E58CD324Q30434965-16AF2B0C-D711-4D11-8AB8-89E128DF9BD5Q30435144-0558F062-1AA7-41B7-AE02-676FB0F0BFE5Q30435986-B8B4C47B-2D9C-4A96-8BA3-91FB65608D56Q30436679-275F5A91-8069-4A7D-866C-230B3B69704FQ30437776-72C72FE8-FF40-4E98-B24C-4E2C9522814FQ30438002-2B144FD0-94C3-4F46-AB32-5C5C065BD218Q30439088-7864E379-2EDA-4E05-B857-8617984D3395Q30440922-6F874EE2-1926-4927-B416-BC2B090C2F5B
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
A Weltman
@ast
A Weltman
@en
A Weltman
@es
A Weltman
@nl
A Weltman
@sl
type
label
A Weltman
@ast
A Weltman
@en
A Weltman
@es
A Weltman
@nl
A Weltman
@sl
prefLabel
A Weltman
@ast
A Weltman
@en
A Weltman
@es
A Weltman
@nl
A Weltman
@sl
P1006
P214
P244
P1006
P106
P1153
56091806600
P214
P244
P31
P496
0000-0002-0125-3769
P735
P7859
lccn-n88050805