about
Effects of prior exercise on oxygen uptake and phosphocreatine kinetics during high-intensity knee-extension exercise in humansProfessor Brian J. Whipp: an obituary.Biological quality control for cardiopulmonary exercise testing in multicenter clinical trials.Use of exercise testing in the evaluation of interventional efficacy: an official ERS statement.Regional skeletal muscle remodeling and mitochondrial dysfunction in right ventricular heart failure.MRS Evidence of Adequate O₂ Supply in Human Skeletal Muscle at the Onset of Exercise.Pulmonary O2 uptake during exercise: conflating muscular and cardiovascular responses.Data collection, handling, and fitting strategies to optimize accuracy and precision of oxygen uptake kinetics estimation from breath-by-breath measurements.Heavy and moderate interval exercise training alters low-flow-mediated constriction but does not increase circulating progenitor cells in healthy humans.The effects of neoadjuvant chemoradiotherapy and an in-hospital exercise training programme on physical fitness and quality of life in locally advanced rectal cancer patients (The EMPOWER Trial): study protocol for a randomised controlled trial.Influence of muscle metabolic heterogeneity in determining the V̇o2p kinetic response to ramp-incremental exercise.Impaired Lung Mitochondrial Respiration Following Perinatal Nicotine Exposure in RatsAssociation between Functional Small Airway Disease and FEV1 Decline in Chronic Obstructive Pulmonary DiseaseGreater V˙O2peak is correlated with greater skeletal muscle deoxygenation amplitude and hemoglobin concentration within individual muscles during ramp-incremental cycle exercise.Exercise: Kinetic considerations for gas exchange.Dynamic heterogeneity of exercising muscle blood flow and O2 utilization.Altered breathing syndrome in heart failure: newer insights and treatment options.Skeletal muscle fatigue and decreased efficiency: two sides of the same coin?Exercise, ageing and the lung.A novel cardiopulmonary exercise test protocol and criterion to determine maximal oxygen uptake in chronic heart failure.A Novel Spirometric Measure Identifies Mild COPD Unidentified by Standard Criteria.Each-step activation of oxidative phosphorylation is necessary to explain muscle metabolic kinetic responses to exercise and recovery in humans.Exercise-Induced Systemic Venous Hypertension in the Fontan Circulation.Validation of a high-power, time-resolved, near-infrared spectroscopy system for measurement of superficial and deep muscle deoxygenation during exercise.Promoting Drp1-mediated mitochondrial fission in midlife prolongs healthy lifespan of Drosophila melanogaster.The intramuscular contribution to the slow oxygen uptake kinetics during exercise in chronic heart failure is related to the severity of the condition.Muscle metabolism and activation heterogeneity by combined 31P chemical shift and T2 imaging, and pulmonary O2 uptake during incremental knee-extensor exercise.Critical Power: An Important Fatigue Threshold in Exercise Physiology.Clarifying the equation for modeling of VO2 kinetics above the lactate threshold.Human exercise-induced circulating progenitor cell mobilization is nitric oxide-dependent and is blunted in South Asian men.Effect of recovery duration from prior exhaustive exercise on the parameters of the power-duration relationship.Effect of prior metabolic rate on the kinetics of oxygen uptake during moderate-intensity exercise.Dynamic asymmetry of phosphocreatine concentration and O(2) uptake between the on- and off-transients of moderate- and high-intensity exercise in humans.The effect of resistive breathing on leg muscle oxygenation using near-infrared spectroscopy during exercise in men.Negative accumulated oxygen deficit during heavy and very heavy intensity cycle ergometry in humans.Effects of priming exercise intensity on the dynamic linearity of the pulmonary VO(2) response during heavy exercise.Prior heavy exercise eliminates VO2 slow component and reduces efficiency during submaximal exercise in humans.Sinusoidal high-intensity exercise does not elicit ventilatory limitation in chronic obstructive pulmonary disease.Slowed muscle oxygen uptake kinetics with raised metabolism are not dependent on blood flow or recruitment dynamics.Skeletal muscle power and fatigue at the tolerable limit of ramp-incremental exercise in COPD.
P50
Q28364384-D49A31F9-19F9-4178-BDB9-67BA338D976EQ30426837-0955D1E1-7FA4-4AB3-BD3E-D4B51735905BQ35896091-A80F501B-D77D-4471-8F84-2CC6127920FDQ35900616-81FDF06F-65ED-4FFD-B357-AE8CF49EE4EEQ35921234-6F44A376-1349-4D4F-9A09-5F710B9767FFQ36113116-228E011B-6883-4AF9-A19E-8EDEBF3293EDQ36264097-FB3F6397-C03F-45C1-80C3-5564D7F09D08Q36357120-6F3198EA-8C8E-411E-9324-27775695973FQ36420477-7A8DA0F8-AA2A-4E93-9A55-9CCC0A80E692Q36457414-BF71C0D2-D4FE-4C86-B68A-6534FE577FD5Q36637863-C2214AC6-85BF-49B7-AD28-E342038E09BBQ36706129-465758AD-21D1-4FE5-B695-1393E13EB9F5Q37213599-CFD8B283-167D-4C81-A730-AB1D8C9D06CBQ37602695-09B32AE7-E1BC-46B4-8762-167AC325F64AQ38112034-5200DBB6-DDA9-4F44-9A96-A6A75E1EF049Q38148999-599B95D1-76C0-4033-8021-0E54B7817D36Q38313459-5E20620A-5E22-4826-A49F-2994451A5070Q38358288-F8DAD138-E04D-43F1-850D-B54F9EE42E4FQ38995572-D3DF7038-C3A8-40C5-A670-9B105564F2AEQ39203087-0518E736-EACB-4D96-A6B4-B2FC51765E3AQ39565310-0C779BC2-29E8-48DB-AB19-6A3CB21522E8Q40390777-562B00B6-268F-41B0-A278-566634B153BCQ40824177-6AB2A704-F81C-43EC-A880-7860F7DF9829Q41117886-E2DA0EC3-69EF-44CE-814D-43B2C533224AQ41634002-F141A34A-FDF3-4D12-BB9A-F2D68535B85DQ41896297-48E64B1B-4274-4B57-9C03-9A8DB505C8D3Q42587363-6A220C91-0511-49C5-9CE2-03B111CACA41Q42709220-0F42ABB6-90BB-401F-BF7A-0E1790225E30Q42861009-008AAEF2-8C54-43E1-B939-D3A625901E1CQ43181462-24AF25F2-0C55-43D1-9397-3C73255B5559Q43186533-5E0C8C08-CEF0-4807-BDC7-0E594812BCC1Q43873380-6BABD62A-669B-47A9-A89A-1F64D1F39728Q44030430-939A9394-6287-4A92-91A9-CF618CDA4D80Q44248935-0CD60DCF-DB03-4ECF-B26C-2377BBCF5604Q44593233-0891CB13-B62D-45CC-8662-C070E17A39A2Q44675455-3507D85D-6855-42BD-B3B0-17A5750FC491Q45299389-B6572004-9E50-4C9B-B065-D53790E5BF47Q45376603-67B57DE7-6844-42F3-81B2-5641246C40B7Q45786844-BB891806-7C4F-4CBF-8FEB-C747EE9070B5Q45941316-3162B708-F9E4-49FD-81B0-FD8F273899F9
P50
description
academic
@cy
academic
@en
academic
@en-gb
onderzoeker
@nl
name
Harry Rossiter
@ast
Harry Rossiter
@cy
Harry Rossiter
@en
Harry Rossiter
@en-gb
Harry Rossiter
@es
Harry Rossiter
@la
Harry Rossiter
@nl
Harry Rossiter
@sl
type
label
Harry Rossiter
@ast
Harry Rossiter
@cy
Harry Rossiter
@en
Harry Rossiter
@en-gb
Harry Rossiter
@es
Harry Rossiter
@la
Harry Rossiter
@nl
Harry Rossiter
@sl
altLabel
Harry B. Rossiter
@cy
Harry B. Rossiter
@en
Harry B. Rossiter
@en-gb
Harry B. Rossiter
@la
prefLabel
Harry Rossiter
@ast
Harry Rossiter
@cy
Harry Rossiter
@en
Harry Rossiter
@en-gb
Harry Rossiter
@es
Harry Rossiter
@la
Harry Rossiter
@nl
Harry Rossiter
@sl
P106
P1153
57175387100
7004182772
P2031
1996-01-01T00:00:00Z
P21
P2381
P2798
P31
P496
0000-0002-7884-0726