about
Relationship between sarcopenia and physical activity in older people: a systematic review and meta-analysisUsing relative handgrip strength to identify children at risk of sarcopenic obesity.Physical determinants of interval sprint times in youth soccer playersGreater Strength Gains after Training with Accentuated Eccentric than Traditional Isoinertial Loads in Already Strength-Trained Men.Strengthening the Gluteus Medius Using Various Bodyweight and Resistance Exercises.Effects of Cluster Sets and Rest-Redistribution on Mechanical Responses to Back Squats in Trained Men.Are sex differences in fundamental motor skills uniform throughout the entire preschool period?Different Cluster Sets Result In Similar Metabolic, Endocrine, And Perceptual Responses In Trained Men.Cluster Sets: Permitting Greater Mechanical Stress Without Decreasing Relative Velocity.Influence of rest intervals after assisted jumping on bodyweight vertical jump performance.Effects of different footwear on vertical jump and landing parameters.Effect of aerobic recovery intensity on delayed-onset muscle soreness and strength.Relationships between maximal strength, muscle size, and myosin heavy chain isoform composition and postactivation potentiation.Periodization Strategies in Older Adults: Impact on Physical Function and Health.The efficacy of periodised resistance training on neuromuscular adaptation in older adults.Peak vertical jump power estimations in youths and young adults.Application of Session Rating of Perceived Exertion Among Different Models of Resistance Training in Older Adults.Effects of Pre-exhaustion on the Patterns of Muscular Activity in the Flat Bench Press.Maintenance of Velocity and Power With Cluster Sets During High-Volume Back Squats.The Role of Peroxisome Proliferator-Activated Receptors and Their Transcriptional Coactivators Gene Variations in Human Trainability: A Systematic Review.The Role of Visual Feedback on Power Output During Intermittent Wingate Testing in Ice Hockey Players.The intraday reliability of the Reactive Strength Index calculated from a drop jump in professional men's basketballThe Efficacy and Safety of Lower-Limb Plyometric Training in Older Adults: A Systematic ReviewCluster sets vs. traditional sets: Levelling out the playing field using a power-based thresholdAcute fatigue affects reaction times and reaction consistency in Mixed Martial Arts fightersThe interplay between internal and external load parameters during different strength training sessions in resistance-trained menCluster vs. traditional training programmes: changes in the force-velocity relationshipCan Post-Activation Performance Enhancement (PAPE) Improve Resistance Training Volume during the Bench Press Exercise?The Importance of Fundamental Motor Skills in Identifying Differences in Performance Levels of U10 Soccer PlayersPerfectionism, Body Satisfaction and Dieting in Athletes: The Role of Gender and Sport TypeAcute effects of shorter but more frequent rest periods on mechanical and perceptual fatigue during a weightlifting derivative at different loads in strength-trained menEffect of different interset rest intervals on mean velocity during the squat and bench press exercises
P50
Q33718752-4F60FA0A-DC17-4C30-9B7F-DB86C82D9070Q33719092-59823BCA-618D-4C86-9A0C-A6E52A2E2D67Q33894204-2CBAAD0B-3BC3-4EC5-8613-15C93FDEA9DEQ36842188-30DAD114-6A79-4755-A280-50F91A748733Q36961825-039B4F17-43AA-41A3-ADC9-2E6BB5B1AC2FQ38615036-8EE95363-3DB2-4098-BD98-7E769A463A45Q38817048-93909D5B-81B0-4040-A2BC-16AFEBC0488DQ38903285-84FF8A6D-1E54-422E-8183-B819E2B64275Q39401747-28549BEE-D6B1-40F6-8040-98CB6DABB7A3Q45760861-429AF47B-89F4-4AAA-BB6B-DFC861ADD3E0Q46022139-5B22A88F-29BF-4E13-86F9-77941EF0D53BQ46905633-448F4D1E-DC14-435D-9806-CC172351E393Q47317546-EE97B3FF-909C-46AB-BDFD-E99ABD4399C7Q47694910-CD2C7E43-707E-43E5-BCF7-63108DDEB5DFQ47796251-15582EE8-4948-43D4-BAB0-8FC5716EA5BEQ47903023-2E9FFB95-05B4-460C-828B-1CA9C94C846EQ50957753-0F3CE2EF-5E9B-419E-9BF6-F8997605AA0CQ53757287-28DAA5B7-B2C5-4B99-A7C3-8E9773025A5AQ53800752-95673C0B-0BFD-45E3-A61C-3500CC03ADEBQ55047274-C11ABEDD-1E0F-4A8F-BE35-4E94436768DDQ55645511-867FE4A4-DD93-4C47-9467-D847BD842A4BQ56647847-D93FB718-49F3-4860-ABCB-3188FBAFF998Q58618351-D826B39D-A16F-41C0-9940-89DDC638CBF8Q59811671-69E395E8-7D0D-4EE8-8E4D-5ED8668A8BE4Q89467288-B4EA9CAC-7D3A-4FB8-8E2B-9A84F0D4BCFCQ89487685-5B6F207C-DB87-4182-8850-C36E19D4114CQ90076113-C1C17D01-58CA-4AAC-9410-5E0D7ABF1994Q91811475-6840DB9F-05E8-43A7-A363-D9A58D9AF646Q92126879-1477EB5B-5753-4F3B-8DFF-41880EDA02B0Q92178451-7EDEB13A-ACF7-4722-8860-CD504A43B64AQ93235380-B4A65B8E-C9E0-4D69-A27B-6E8764F25F01Q96611986-43C11BE5-108B-4F07-ADA5-61330D3B2BCD
P50
description
antropomotorik, sportovní vědec
@cs
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
James J. Tufano
@ast
James J. Tufano
@cs
James J. Tufano
@en
James J. Tufano
@es
James J. Tufano
@nl
James J. Tufano
@sl
type
label
James J. Tufano
@ast
James J. Tufano
@cs
James J. Tufano
@en
James J. Tufano
@es
James J. Tufano
@nl
James J. Tufano
@sl
prefLabel
James J. Tufano
@ast
James J. Tufano
@cs
James J. Tufano
@en
James J. Tufano
@es
James J. Tufano
@nl
James J. Tufano
@sl
P108
P1053
O-7363-2017
P1153
55308862500
P21
P214
14154921327463591837
P31
P3829
P496
0000-0001-8325-0344
P569
1988-03-14T00:00:00Z