about
High intensity aerobic exercise training improves chronic intermittent hypoxia-induced insulin resistance without basal autophagy modulationHIF-1-driven skeletal muscle adaptations to chronic hypoxia: molecular insights into muscle physiology.Effect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression.Effects of moderate hyperoxia on oxygen consumption during submaximal and maximal exercise.Effects of training frequency on the dynamics of performance response to a single training bout.Accuracy of pulse oximetry during intense exercise under severe hypoxic conditionsDecrease in peak heart rate with acute hypoxia in relation to sea level VO(2max)Validity of oxygen uptake measurements during exercise under moderate hyperoxiaAngiogenic growth factor mRNA responses to passive and contraction-induced hyperperfusion in skeletal muscleA system to simulate gas exchange in humans to control quality of metabolic measurementsEvidence of decrease in peak heart rate in acute hypoxia: effect of exercise-induced arterial hypoxemiaEffect of acute hypoxia on central fatigue during repeated isometric leg contractionsEffect of hyperoxia on maximal O2 uptake in exercise-induced arterial hypoxaemic subjects
P50
Q37678352-C3EB9901-9757-4FD5-A039-72F36D90B54BQ38571761-583D5AE9-90AC-45D6-B77C-052676C280E3Q41650568-1927450D-83A6-40E8-863B-0072B329617FQ51695808-248F8E35-9E4F-4A93-AFF7-5BF26836E305Q53810440-CD618CC7-3EB5-4DEB-AB08-2EAE19368CBEQ73672876-4DC0CAD6-DB29-41E2-B8AD-89261FDEC89DQ73749009-C01D17AA-9EBE-484C-975F-1A8BB7272B74Q74641068-0E58649A-DDC6-4F0C-97A9-9C099AA7DF88Q77209391-F1170EF4-C5AC-4056-B711-B31C312DE3A2Q77638869-0BFB994E-FB38-4EF9-9F78-EE8EF658E463Q79366551-52719796-CDD6-4A49-9D58-EBA4C57C4733Q81642309-1F479B4B-1E34-4019-8B79-E5B8DD4320E1Q81824732-4E219284-3333-4EBD-A752-28B1C25F8DF1
P50
description
researcher
@en
name
H Benoit
@en
H Benoit
@nl
type
label
H Benoit
@en
H Benoit
@nl
prefLabel
H Benoit
@en
H Benoit
@nl
P106
P31
P496
0000-0003-2972-2798