about
High-intensity interval exercise and glycemic control in adolescents with type one diabetes mellitus: a case studyEffect of a program of short bouts of exercise on bone health in adolescents involved in different sports: the PRO-BONE study protocol.Exercise intensity and the protection from postprandial vascular dysfunction in adolescents.The Acute Effect of Exercise Intensity on Vascular Function in Adolescents.The reliability of a single protocol to determine endothelial, microvascular and autonomic functions in adolescents.Soft tissues, areal bone mineral density and hip geometry estimates in active young boys: the PRO-BONE study.Exercise capacity following a percutaneous endoscopic gastrostomy in a young female with cystic fibrosis: a case report.Oxygen uptake kinetics in children and adolescents: a review.Insights into developmental muscle metabolism through the use of 31P-magnetic resonance spectroscopy: a review.Endurance training and elite young athletes.Exercise testing elite young athletes.Cystic fibrosis and physiological responses to exercise.Muscle metabolism changes with age and maturation: How do they relate to youth sport performance?Agreement and Reliability of Fasted and Oral Glucose Tolerance Test-Derived Indices of Insulin Sensitivity and Beta Cell Function in Boys.Is cardiac autonomic function associated with cardiorespiratory fitness and physical activity in children and adolescents? A systematic review of cross-sectional studies.Confirming the Value of Adolescent Swimming Performance Models.The reliability of (31)P-MRS and NIRS measurements of spinal muscle function.Reliability of 31P-magnetic resonance spectroscopy during an exhaustive incremental exercise test in children.Commentaries on Viewpoint: Do oxidative and anaerobic energy production in exercising muscle change throughout growth and maturation? The importance of exercise intensity when studying developmental energy metabolism.Age- and sex-related differences in muscle phosphocreatine and oxygenation kinetics during high-intensity exercise in adolescents and adults.The effect of priming exercise on O2 uptake kinetics, muscle O2 delivery and utilization, muscle activity, and exercise tolerance in boys.A protocol to determine valid V˙O2max in young cystic fibrosis patients.Reproducibility of maximal cardiopulmonary exercise testing for young cystic fibrosis patients.Muscle phosphocreatine kinetics in children and adults at the onset and offset of moderate-intensity exercise.Muscle metabolism during fatiguing isometric quadriceps exercise in adolescents and adults.Muscle phosphocreatine and pulmonary oxygen uptake kinetics in children at the onset and offset of moderate intensity exercise.Scaling the Oxygen Uptake Efficiency Slope for Body Size in Cystic Fibrosis.Muscle function and size in the lumbar spine before and after a four week exercise intervention.Acute cardiorespiratory, perceptual and enjoyment responses to high-intensity interval exercise in adolescents.The oxygen uptake efficiency slope is not a valid surrogate of aerobic fitness in cystic fibrosis.High intensity interval exercise is an effective alternative to moderate intensity exercise for improving glucose tolerance and insulin sensitivity in adolescent boys.Determinants of Bone Outcomes in Adolescent Athletes at Baseline: The PRO-BONE Study.A single bout of high-intensity interval exercise and work-matched moderate-intensity exercise has minimal effect on glucose tolerance and insulin sensitivity in 7- to 10-year-old boys.Assessment of Physical Activity by Accelerometer and IPAQ-Short Version in Patients with Chronic Kidney Disease Undergoing Hemodialysis.Cardiac Autonomic Function, Cardiovascular Risk and Physical Activity in Adolescents.Physical activity, sedentary time, TV viewing, physical fitness and cardiovascular disease risk in adolescents: The HELENA study.Measurement of V̇o2max in clinical groups is feasible and necessary.The effect of 12-month participation in osteogenic and non-osteogenic sports on bone development in adolescent male athletes. The PRO-BONE study.Acute Exercise and Insulin Sensitivity in Boys: A Time-Course Study.Impaired Pulmonary V˙O2 Kinetics in Cystic Fibrosis Depend on Exercise Intensity.
P50
Q33896119-FCE5121B-7DEB-4122-9D64-DD881BAA800DQ35584035-8E6D789D-6FAC-40CF-B06F-3246DD22903DQ35589527-3A8FC189-F476-440C-942D-2E7163F3993BQ35658450-0627D74B-81DB-439A-A984-265DE3CE0B6DQ35966765-519F0146-A251-4E12-8A5A-BFC69E3F80FBQ36300352-E1D9A619-2DA5-486A-929C-1E6BBA6FF301Q37212845-FC899EB0-F825-4510-93E6-5A40D613C830Q37531632-1CEDBE2B-5633-4CDF-A971-5F0537175F4CQ37784946-FF49FCFA-AC5D-429C-BFAF-73F7BF459FD8Q37823085-4A853645-27F3-4C5C-AF87-CB4908EE6E6CQ37823088-6F81CCBE-D85D-4B00-B4B4-108FCAC50EA9Q38268014-A08AB28C-26F6-45B6-9F34-33EBBEA7F778Q38458633-DB808F85-E99F-4597-B228-BA98FD7F805DQ38686436-49B88423-D3E0-4D38-B22A-22018760B507Q38941461-1846021E-099F-442C-9DA2-D21586396B4AQ38969724-DF3C1EDE-C07C-40FE-B696-981ED80514A9Q39167576-34275094-2B05-4817-8688-14B321C02945Q40284281-BCEDF455-EB02-4EBC-A016-782535AAC32DQ42775662-5BFB0903-162E-4D02-9EEE-0A0E6CC5A54DQ42956860-AEEB10C5-5370-4DA6-9F81-25AE1B0950C8Q44998708-6E53D550-B5A8-4451-9CB9-A147B4F6FCD5Q45803287-108449F0-0C33-4CD8-9D90-FAF8BE518E3CQ46305805-34BA0F16-E560-4ADF-9108-0D7DFE8AF56DQ46578723-BBFE24D2-7140-498F-9B5E-11B272962C4AQ46613481-9C038C9D-FF0B-464C-B0F2-A1FC8D523634Q46825213-EBC8716B-D460-486D-A386-863094F6311BQ47214334-63CAD87D-2577-48D2-BC56-86CF35842F03Q47217217-CCDA2E36-AF39-496C-9F77-385B72741546Q47717092-BE5B5524-A8F7-4653-B363-45E944779E24Q47731324-1C0C2DD1-7928-4B08-A55D-CBC63A64963DQ47779677-3ECC2B70-53EC-43AF-8CC0-7EE3DB76BD12Q47983301-FAC64404-E4D6-4A6E-A548-37618D368C00Q48138881-2DEE8020-94DD-4C09-927A-3AEC4D1C0605Q48942745-A9109CB5-069D-47DF-B666-4D29940C72F8Q49712637-24CAC23D-6265-419E-A2BE-C9A4961C35B7Q49991785-414445A3-DC64-4BBB-BA69-94C08C8AF2C7Q50091977-ECF53AB9-0F5A-44E0-A1F8-EB87122A0840Q50195772-320A08B8-321C-4E30-90E9-C3CD45023339Q50267084-0EFA7F37-87F6-4FE3-A48E-5A2C4EB79ABAQ50569589-8045E794-2D37-44DA-999C-E259461FE4D2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Alan R Barker
@nl
Alan R Barker
@sl
Alan R. Barker
@en
Alan R. Barker
@es
type
label
Alan R Barker
@nl
Alan R Barker
@sl
Alan R. Barker
@en
Alan R. Barker
@es
prefLabel
Alan R Barker
@nl
Alan R Barker
@sl
Alan R. Barker
@en
Alan R. Barker
@es
P244
P106
P1153
14008425100
P21
P214
8120154441759235460005
P244
nb2018024898
P31
P496
0000-0001-8610-5417
P734
P735
P7859
lccn-nb2018024898