about
The impact of a rigorous multiple work shift schedule and day versus night shift work on reaction time and balance performance in female nurses: a repeated measures studyCross-correlation analysis of mechanomyographic signals detected in two axes.Effects of barbell deadlift training on submaximal motor unit firing rates for the vastus lateralis and rectus femoris.Effects of age and muscle action type on acute strength and power recovery following fatigue of the leg flexors.The time course of short-term hypertrophy in the absence of eccentric muscle damage.Mechanical scale and load cell underwater weighing: a comparison of simultaneous measurements and the reliability of methods.Reproducibility and validity of bioimpedance spectroscopy for tracking changes in total body water: implications for repeated measurements.Vastus lateralis and rectus femoris echo intensity fail to reflect knee extensor specific tension in middle-school boys.Comparison of methods for removing electromagnetic noise from electromyographic signals.Muscle group specific changes in the electromechanical delay following short-term resistance training.Peak torque and electromyographic responses during fatiguing concentric muscle actions with eyes-open versus eyes-closed.Consistency of peak and mean concentric and eccentric force using a novel squat testing device.The effects of diverting activities on recovery from fatiguing concentric isokinetic muscle actions.Test-retest reliability of barbell velocity during the free-weight bench-press exercise.Echo intensity and muscle thickness as predictors Of athleticism and isometric strength in middle-school boys.Effects of Accumulating Work Shifts on Performance-Based Fatigue Using Multiple Strength Measurements in Day and Night Shift Nurses and Aides.Shifts in EMG spectral power during fatiguing dynamic contractions.Effects of Age, Joint Angle, and Test Modality on Strength Production and Functional Outcomes.Shifts in the relationship between motor unit recruitment thresholds versus derecruitment thresholds during fatigue.Rectus Femoris Echo Intensity Correlates with Muscle Strength, but Not Endurance, in Younger and Older Men.Motor Unit Interpulse Intervals During High Force Contractions.Effects of fatigue on motor unit firing rate versus recruitment threshold relationships.An examination of the time course of training-induced skeletal muscle hypertrophy.An examination of the linearity and reliability of the electromyographic amplitude versus dynamic constant external resistance relationships using monopolar and bipolar recording methods.Adipose tissue thickness does not affect the electromechanical delay.The findings of Damas et al. have not influenced the previously proposed time course of skeletal muscle hypertrophy.Influence of Hamstring Fatigue on the Estimated Percentage of Fast-Twitch Muscle Fibers for the Vastus Lateralis.Eccentric exercise does not affect common drive in the biceps brachii.Sex comparisons for relative peak torque and electromyographic mean frequency during fatigue.Linearity and reliability of the mechanomyographic amplitude versus concentric dynamic constant external resistance relationships for the bench press exerciseNeural contributions to concentric vs. eccentric exercise-induced strength lossAn examination of cross-talk among surface mechanomyographic signals from the superficial quadriceps femoris muscles during isometric muscle actionsEffects of fatigue on intermuscular common drive to the quadriceps femorisEffects of strength training on mechanomyographic amplitudeLinearity and reliability of the mechanomyographic amplitude versus dynamic torque relationships for the superficial quadriceps femoris musclesAccuracy of three different techniques for automatically estimating innervation zone locationTime-frequency analysis of surface electromyographic signals during fatiguing isokinetic muscle actionsLinearity and reliability of the mechanomyographic amplitude versus dynamic constant external resistance relationships for the biceps brachiiThe minimum number of contractions required to examine the EMG amplitude versus isometric force relationship for the vastus lateralis and vastus medialisMechanomyographic responses for the biceps brachii are unable to track the declines in peak torque during 25, 50, 75, and 100 fatiguing isokinetic muscle actions
P50
Q27908550-563B7140-F755-4632-8F4A-5F579577687CQ30900553-1715A901-B0EA-48A1-BAB5-30B748A4FC33Q34757803-04FD7AD9-BFB3-46FA-847F-1A3C189CF5FBQ37219360-6E159085-631F-4C22-BD71-1100CB458B7AQ38404709-995773BB-FFAD-43B3-96EF-2A999323529AQ38477668-1F46AE19-BB98-4EC6-A4C8-87A80D75CF29Q38483592-1BB56F29-A52C-4857-8EBF-9A1BCD2584C7Q38728903-1954DDFB-0124-4D06-BDDA-63AE077F61D5Q40015221-3FDCFA3E-6CAF-415E-AE4D-352218C1512BQ40253412-AC3D55FC-56B0-4F10-9B94-256858ADC899Q42617997-BA446853-6C09-4491-92D3-FB0E05F942D4Q44295030-F87D7B81-AD21-4BE3-9B42-1F9A6AED5DB0Q45007570-BC3C9363-C63C-4437-996B-BD263AC41AECQ47400945-F155430E-5A4D-4BCB-A04B-5DA108BEC3E9Q47695652-DE9884D4-43DB-4E3E-AD72-6DBDCB43DFCCQ47920482-D5ED2D97-5D6D-4B0C-9D76-CBC16EE0E3C3Q48707705-90AFE564-F180-461F-ADDB-22AF26EA2544Q49807470-4B985BB6-BEA7-4848-8510-D4194E5C269AQ50054193-844FB0FF-87CB-405B-A27A-EE09E9CD186FQ50630606-D522805B-5FF5-44D1-A232-3B74FE752532Q50881376-539688BB-930D-4CE4-AF3E-AA5F618B2698Q51466894-B30F0FA6-5191-4100-B7FE-CDC3B532AB86Q51591278-2CCEB825-B314-477E-8158-CBC7035CDB8CQ51651936-388336FE-0F5C-453E-BDA3-F7B70DCF6C9BQ53168342-764C251C-B727-4AFE-AB98-BBA1376750F1Q53301643-33D6A85E-3722-4BDC-A2BF-1CF8F46154FAQ53404422-39C4C556-4D01-423F-95E6-FCC70A9509A0Q54289077-50134BE7-C61E-464C-BF12-4815661B1D5CQ54558529-5AD337E4-6909-46B6-9C42-B9A0450A5088Q82609950-2AF0AD00-4CA1-49F3-AE4D-DD23B27E0A60Q83153997-A328754C-6DEA-40CB-81CB-C04057EC6699Q83898924-3A563270-B76D-4416-BF9B-98539F444A14Q84146223-D97F6562-E81A-4857-A696-D17E68A60AB6Q84589681-0B801C2F-5F85-4957-B95B-DFC24E7C0F8FQ84669771-20190A1F-0D80-4985-9C59-6C703A3645FDQ84692251-81EED42D-A881-42E4-ADD4-BABEB1C6F5EAQ85071232-34DC247C-C726-4CB4-9076-59B139F2557AQ85094481-BB8EAEB1-DB12-47D5-BE0A-F4A65F78723FQ86125795-62AD0629-027C-4F8B-B7B8-F14886E2C83CQ86524642-0C9ADC52-135E-459C-926E-623731EC70FA
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Matt S Stock
@en
Matt S Stock
@nl
type
label
Matt S Stock
@en
Matt S Stock
@nl
prefLabel
Matt S Stock
@en
Matt S Stock
@nl
P31
P496
0000-0003-1156-1084