about
Dysanapsis and the resistive work of breathing during exercise in healthy men and womenAdministration of intrapulmonary sodium polyacrylate to induce lung injury for the development of a porcine model of early acute respiratory distress syndrome.Cardiorespiratory and sensory responses to exercise in adults with mild cystic fibrosis.Effect of tidal volume and positive end-expiratory pressure on expiratory time constants in experimental lung injuryLung volume recruitment acutely increases respiratory system compliance in individuals with severe respiratory muscle weakness.Functional respiratory imaging, regional strain, and expiratory time constants at three levels of positive end expiratory pressure in an ex vivo pig model.Revisiting dysanapsis: sex-based differences in airways and the mechanics of breathing during exercise.Influence of inspiratory resistive loading on expiratory muscle fatigue in healthy humans.Physiological mechanisms of dyspnea relief following ivacaftor in cystic fibrosis: a case report.Gas density alters expiratory time constants before and after experimental lung injury.Do isolated leg exercises improve dyspnea during exercise in chronic obstructive pulmonary disease?Skin temperature over the carotid artery provides an accurate noninvasive estimation of core temperature in infants and young children during general anesthesia.The effects of age and sex on mechanical ventilatory constraint and dyspnea during exercise in healthy humans.Neurophysiological mechanisms of exertional dyspnoea in fibrotic interstitial lung disease.Exercise-induced quadriceps muscle fatigue in men and women: effects of arterial oxygen content and respiratory muscle work.Effects of respiratory muscle work on respiratory and locomotor blood flow during exercise.Assessing neonatal heat balance and physiological strain in newborn infants nursed under radiant warmers in intensive care with fentanyl sedation.Effects of inspiratory muscle training on respiratory muscle electromyography and dyspnea during exercise in healthy men.Oral contraceptives modulate the muscle metaboreflex in healthy young women.Diaphragm Recruitment Increases during a Bout of Targeted Inspiratory Muscle Training.Body temperature mapping in critically ill newborn infants nursed under radiant warmers during intensive care.Quantifying the shape of maximal expiratory flow-volume curves in healthy humans and asthmatic patients.Oxygen cost of exercise hyperpnoea is greater in women compared with men.Precise mimicking of exercise hyperpnea to investigate the oxygen cost of breathing.Supplemental oxygen and dypsnoea in interstitial lung disease: absence of evidence is not evidence of absence.Effects of hyperoxia on dyspnoea and exercise endurance in fibrotic interstitial lung disease.Do greater rates of body heat storage precede the accelerated reduction of self-paced exercise intensity in the heat?Effects of Age and Sex on Inspiratory Muscle Activation Patterns during ExerciseManipulation of mechanical ventilatory constraint during moderate intensity exercise does not influence dyspnoea in healthy older men and womenThe Mechanics of Breathing during SwimmingExercise Pathophysiology in Interstitial Lung DiseaseSex Differences in the Pulmonary System Influence the Integrative Response to ExerciseSupplemental oxygen for the management of dyspnea in interstitial lung diseaseModelling the effects of age and sex on the resistive and viscoelastic components of the work of breathing during exerciseAnalysis of maximal expiratory flow-volume curves in adult survivors of preterm birthQualitative dimensions of exertional dyspnea in fibrotic interstitial lung disease
P50
Q30369883-61AECC6D-AF7D-48A7-8A53-C12E52D207BAQ35883666-8EA484D3-1C51-4060-91AC-71B99BB7FA30Q36345895-EBBFCDE5-7F29-43C6-AEA3-D3145AEEA772Q36773702-382A8CED-3AA4-406A-A138-E2BD02075AADQ37698242-58B71231-A2DB-44C4-9076-B0332B1A5DBBQ37710667-0B7FEC8E-452C-4FD4-B7F6-60716F00649DQ38600227-A912C8CA-A853-4C0A-9408-3335876D8721Q38667289-ABAD2CFF-C122-4B85-AC68-494AD3C08F18Q39197884-F3B9989C-102F-4BD1-8219-4F40C4463071Q41469752-565246CD-35A1-451B-9443-E2F8EBEE3548Q44705304-3FD9C924-8AEA-45E8-8FF3-94C0FB5BECC0Q45736043-8D4BC8B5-1862-4476-8EEB-1AB764581DC7Q47650904-B6354657-1586-48C2-9F23-0168139E052DQ47653506-23FCA8FC-6844-4D8A-8209-1FBDFBF1C49FQ47758906-5E65F6A1-F7BC-4BB0-A07A-6ABC37A6E772Q47792521-2211CC17-84A4-4A1A-9382-8CA8B3CF8746Q47830839-C096C099-A013-48F1-9C7C-86E3BC06EA34Q47960791-609CEB48-4119-4928-B22D-4B7348C8CC49Q50065101-EA20DD21-CBA4-485A-8FDE-A87EA1D72736Q50889077-EC73B519-D69A-41FE-9A39-4960B7F4F3C0Q51495394-4E4741F4-585A-41D3-955D-7C50A46F83DAQ51593520-5BE06205-176E-43F7-9457-58CFA0479307Q51661514-E9B6FEB9-3153-4349-8B4B-F9D6222509FDQ51713356-583DBB5D-2C87-4B74-99C1-1B30967B5388Q53118391-917E51E1-D55A-4658-8226-AC350D9C3F04Q53265950-86909523-8B14-4BA7-B9E0-38112643C4EBQ87501467-BAB69D09-369F-40A9-8360-CBCE447E6DFCQ88440547-2447EB85-E4C1-46CF-B4E5-BD72D0FE1CE1Q90713530-819202F0-5030-4790-AD9B-5E6B96B0E50EQ91071054-BA42B07A-A52B-45E6-A498-DAAB74FFE122Q91945741-A0B666F9-88CD-4014-9170-226E68E0E0ABQ92004614-BF7F9C1C-3BA6-4127-AEE3-38BEA3AEE005Q92399751-39E5F0DE-B5D1-42C8-A724-C41E6102F84AQ92596238-95A6DF3B-C099-4C1D-A368-8FF2B859C7ABQ92749122-A29AA4F0-9471-44B7-995F-310055C4F38BQ93100600-7D22AB69-88EB-4B2A-93A3-5E4B23200668
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Yannick Molgat-Seon
@ast
Yannick Molgat-Seon
@en
Yannick Molgat-Seon
@es
Yannick Molgat-Seon
@nl
Yannick Molgat-Seon
@sl
type
label
Yannick Molgat-Seon
@ast
Yannick Molgat-Seon
@en
Yannick Molgat-Seon
@es
Yannick Molgat-Seon
@nl
Yannick Molgat-Seon
@sl
prefLabel
Yannick Molgat-Seon
@ast
Yannick Molgat-Seon
@en
Yannick Molgat-Seon
@es
Yannick Molgat-Seon
@nl
Yannick Molgat-Seon
@sl
P1053
L-8481-2017
P106
P1153
55810301300
P21
P31
P3829
P496
0000-0003-4021-4540