about
A pilot study of brisk walking in sedentary combination antiretroviral treatement (cART)- treated patients: benefit on soluble and cell inflammatory markers.Effects of a Short-Term High-Nitrate Diet on Exercise Performance.The biomechanics of race walking: literature overview and new insights.Hopping locomotion at different gravity: metabolism and mechanics in humans.Skipping vs. running as the bipedal gait of choice in hypogravity.Training effects on ROS production determined by electron paramagnetic resonance in master swimmersEstimates of Running Ground Reaction Force Parameters from Motion Analysis.Mechanical work and efficiency of 5 + 5 m shuttle running.Recumbent vs. upright bicycles: 3D trajectory of body centre of mass, limb mechanical work, and operative range of propulsive muscles.On the Estimation Accuracy of the 3D Body Center of Mass Trajectory during Human Locomotion: Inverse vs. Forward Dynamics.Aerobic Fitness Affects the Exercise Performance Responses to Nitrate Supplementation.A "Wearable" Test for Maximum Aerobic Power: Real-Time Analysis of a 60-m Sprint Performance and Heart Rate Off-Kinetics.Physiological and Perceptual Responses to Nordic Walking in a Natural Mountain Environment.Different Training Modalities Improve Energy Cost and Performance in Master Runners.Commentaries on Viewpoint: Can elite athletes benefit from dietary nitrate supplementation?Effects of Manipulating Volume and Intensity Training in Masters SwimmersCommentaries on Viewpoint: Use aerobic energy expenditure instead of oxygen uptake to quantify exercise intensity and predict endurance performanceCardiovascular and metabolic responses at rest and to exercise during 48 hours of head-out immersion: a case reportUpdate and extension of the 'equivalent slope' of speed-changing level locomotion in humans: a computational model for shuttle runningComprehensive mechanical power analysis in sprint running accelerationCan coordination variability identify performance factors and skill level in competitive sport? The case of race walkingMechanical work in shuttle running as a function of speed and distance: Implications for power and efficiency
P50
Q30365593-C43CC8E6-3848-454A-80E0-96094ABA5CB8Q37285772-06F9852B-CC90-4614-A737-FE80DE1D8959Q38179522-28B1EE62-D5F1-4301-BF4A-162A7EAE7B65Q38419866-88E2ED8D-7EA9-4EB0-B763-C5CC511E15E8Q38426484-94D2E176-90A7-41A1-BB09-96D6F51CCF4FQ39243499-439F1BCD-AB4A-4C97-A15F-04F6F1D7239BQ39321432-6BFEF653-E88F-42A8-81CE-BF05FADFF380Q39544510-20E5DF52-EDFE-4F7C-8294-F8C207AB2149Q39831597-4ACDA23A-DAD9-469C-AFC0-59A328F7ECA5Q42161919-9CE661C0-FAEB-4D59-B8FA-E5A378749C25Q43418595-F7C09762-D294-423E-8882-2452FF66528CQ44676555-F868C4B1-5815-4915-95A6-8E06E4B3ECFAQ47411249-B584F7F7-363B-434A-82B3-82ED730A5D87Q49227997-F41A4FBC-B064-45C3-9E67-17E28039EEDBQ50245411-4C01B6D5-6621-4958-8DE2-9009C4FA29BDQ56983618-968C1832-6D85-4D64-B1A5-A128E0D36857Q59263601-B9928AAA-D4EE-473A-AD7C-B58A144971E2Q59310108-120A6EBC-73BA-47C3-BF5E-01A7215AE1D7Q89081247-7041F011-2EEE-4BED-B903-B875D3C83BB9Q92147500-ED866A23-E6EF-4B32-A9A5-0F9AC6DA4BCCQ92536798-31B6662E-E2E6-42E3-B6E0-BC7BFE1D14F6Q92772715-49D60DEC-41EF-4D05-B98E-48855F0D3689
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Gaspare Pavei
@ast
Gaspare Pavei
@en
Gaspare Pavei
@es
Gaspare Pavei
@nl
Gaspare Pavei
@sl
type
label
Gaspare Pavei
@ast
Gaspare Pavei
@en
Gaspare Pavei
@es
Gaspare Pavei
@nl
Gaspare Pavei
@sl
prefLabel
Gaspare Pavei
@ast
Gaspare Pavei
@en
Gaspare Pavei
@es
Gaspare Pavei
@nl
Gaspare Pavei
@sl
P1053
B-5067-2018
P106
P1153
55257696500
P2798
P31
P496
0000-0002-0109-4964