about
Humans running in place on water at simulated reduced gravityThe biomechanics of skipping gaits: a third locomotion paradigm?Biomechanics: Halteres used in ancient Olympic long jumpKeystroke dynamics and timing: accuracy, precision and difference between hands in pianist's performance.Anatomically asymmetrical runners move more asymmetrically at the same metabolic cost.The cost of transport of human running is not affected, as in walking, by wide acceleration/deceleration cycles.Human locomotion on ice: the evolution of ice-skating energetics through history.Pedaling rate is an important determinant of human oxygen uptake during exercise on the cycle ergometerThe impact of physical training on locomotor function in older people.Bioenergetics and biomechanics of cycling: the role of 'internal work'.Overuse in volleyball training/practice: A review on shoulder and spine-related injuries.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.Passive tools for enhancing muscle-driven motion and locomotion.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.Breaststroke swimmers moderate internal work increases toward the highest stroke frequencies.A model equation for the prediction of mechanical internal work of terrestrial locomotion.On the Estimation Accuracy of the 3D Body Center of Mass Trajectory during Human Locomotion: Inverse vs. Forward Dynamics.Magnetic resonance imaging of the rectum during distension.Skyscraper running: physiological and biomechanical profile of a novel sport activity.Physiology: efficiency of equine express postal systems.The optimal locomotion on gradients: walking, running or cycling?Biomechanics and energetics of basketball wheelchairs evolution.Measured and predicted mechanical internal work in human locomotion.The interplay of central and peripheral factors in limiting maximal O2 consumption in man after prolonged bed rest.The vertical excursion of the body visceral mass during vertical jumps is affected by specific respiratory maneuver.An energy balance of front crawl.On the mechanical power of joint extensions as affected by the change in muscle force (or cross-sectional area), ceteris paribus.From bipedalism to bicyclism: evolution in energetics and biomechanics of historic bicycles.Limitations imposed by wearing armour on Medieval soldiers' locomotor performance.A theory of metabolic costs for bipedal gaits.Shoulder 3D range of motion and humerus rotation in two volleyball spike techniques: injury prevention and performanceComments on Point:Counterpoint: Skeletal muscle mechanical efficiency does/does not increase with ageAssessment of human knee extensor muscles stress from in vivo physiological cross-sectional area and strength measurementsPygmy locomotionContraction dynamics in antagonist musclesInvariant aspects of human locomotion in different gravitational environmentsInterplay among the changes of muscle strength, cross-sectional area and maximal explosive power: theory and facts
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Q21560987-0074AB08-CDA6-4307-A20E-18C1B64B8ACFQ24672709-7CCA9DAC-3BC1-4E9A-9CD1-E1C4221FB68FQ29026691-7F426912-AFE5-46C6-9E71-8BDDEE7C313FQ30542696-E08CA2E7-4DEE-423E-B375-F0A19581B7F5Q34374810-4D376F04-E49A-479D-91FA-2D452FAC661AQ34504026-397150C2-015D-4D73-B0E0-EA87D4719A0DQ34626654-4CD0367E-FC66-420D-A720-BB0D190B3E7CQ36144502-127C3FB2-96CA-4B78-9260-2842D94FAC9EQ36888940-72338960-F390-40C8-AE82-45D814331A4EQ37721827-27FA63AD-2E97-4A21-A30C-A34157388960Q38164089-8D70AA9D-1BD3-4DB6-8C81-DD15962E7334Q38179522-E91B6F76-AA61-42E3-9550-10B3ADF7E605Q38419866-09FC74B4-0638-4F27-A38E-31326802B4FFQ38426484-5A4507B1-853B-4688-BCB3-CB515F63BDADQ39128010-0453340F-9CC2-4EB3-BC2D-FBF3D29FDB63Q39544510-E5BC4EEB-2F7F-481A-B7AA-A7D33A6C645FQ39831597-467AD99D-F10D-40DC-8895-504323C57421Q40638828-DA80FDAD-E298-4490-9B56-61299951BE6DQ40844230-3DBD229B-D26A-4A6C-80A2-61F292E56AF5Q42161919-EE85DA75-D798-4272-8EDA-C3F7AD96D4F8Q43320426-A1B23A5B-8248-454B-B616-3F8FD1464533Q44687957-A799A10F-11B3-483E-A6A3-D7FC296D0F4AQ47363722-B89F1BD5-86AE-422D-A69F-B31CD829DF05Q47715945-7075DFBD-E989-48C1-AB6D-5AE7157483ACQ47796230-9D5B6D96-1934-4C70-963C-0F98CEEA0C2FQ51639935-EDF77417-402E-4301-90D8-44E4AF8C8077Q51648206-CF7DCB1B-AD41-4497-827D-051080B67F32Q51768236-2FE1733E-0431-4823-8F71-0804C6FF389EQ51978237-A4A355A1-0DD1-433F-A6B5-826A6916493EQ52041204-FB9FD8CB-FB17-4DF9-B7CD-379DBB5886F0Q52059825-C391E08E-14E2-47BE-9A5A-9ED67199C588Q52845322-5CCBD0E4-59B8-44FA-8E7F-B19D2CDF2CE0Q52867920-24CDFAB7-5E56-4568-B8FB-22C5E434EE32Q56660746-F9BD3DC8-B296-463D-A561-AC814E1084B4Q57741675-4CA4A286-07AC-4CC8-B96B-0A47031E2C5AQ67575350-7D8EC359-AF0B-4580-BC30-A26FE7B6B207Q72118886-33C418F6-A0C7-4E77-84C5-731B9B1C4805Q72823351-B2E95C5E-2DE6-4A84-8135-3D59687B152AQ74828071-02FF3FC0-EA8A-44E9-A7A3-CD5D5BDD3E4DQ78591640-70788C21-E762-4A5C-B053-7F7F20DFCB01
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description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alberto E. Minetti
@ast
Alberto E. Minetti
@en
Alberto E. Minetti
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Alberto E. Minetti
@nl
Alberto E. Minetti
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type
label
Alberto E. Minetti
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Alberto E. Minetti
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Alberto E. Minetti
@es
Alberto E. Minetti
@nl
Alberto E. Minetti
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prefLabel
Alberto E. Minetti
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Alberto E. Minetti
@en
Alberto E. Minetti
@es
Alberto E. Minetti
@nl
Alberto E. Minetti
@sl
P106
P1153
7003888015
P21
P31
P496
0000-0002-0120-4406