Brief submaximal actions are important for wide range of functional movements. Until now, rate of force development and relaxation scaling factor (RFD-SF and RFR-SF) have been used for neuromuscular assessment using 100–120 isometric pulses which requires a high level of attention from the participant and may be influenced by physiological and/or psychological fatigue. All previous studies have been conducted on a smaller number of participants which calls into question the eligibility of some of the outcome measures reported to date. Our aims were: (1) to find the smallest number of rapid isometric force pulses at different force amplitudes is still valid and reliable for RFD-SF slope (kRFD–SF) and RFR-SF slope (kRFR–SF) calculation, (2) t...
Transcranial magnetic stimulation (TMS)-induced relaxation rate reflects intrinsic muscle contractil...
Over the past decade, force-velocity (F-v) profiling has emerged as a promising tool for assessing n...
Knight, Christopher A.Movement velocity, and its isometric surrogate rate of force development (RFD)...
Background: The linear relationship between muscle torque and rate of torque rise/relaxation during ...
When humans perform isometric ballistic contractions of different intensities, a strong linear relat...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
The inter-limb (a)symmetries have been most often assessed with the tests that quantify the maximal ...
Background: The rate of force development (RFD) is a measure of explosive strength, commonly evaluat...
Abstract Aim: To investigate the neuromuscular fatigue and recovery after an intermittent isometri...
Purpose: Neuromuscular electrical stimulation (NMES) is a widely-used technique for diagnostic and t...
OBJECTIVE: The neuromuscular quickness capacity can be assessed by calculating the rate of torque d...
International audienceIntroduction: The aim of this study was to evaluate test feasibility, validity...
<p>SD: standard deviation, SEM: standard error of the mean, CV: coefficient of variation, ICC: intra...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
Transcranial magnetic stimulation (TMS)-induced relaxation rate reflects intrinsic muscle contractil...
Over the past decade, force-velocity (F-v) profiling has emerged as a promising tool for assessing n...
Knight, Christopher A.Movement velocity, and its isometric surrogate rate of force development (RFD)...
Background: The linear relationship between muscle torque and rate of torque rise/relaxation during ...
When humans perform isometric ballistic contractions of different intensities, a strong linear relat...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
The inter-limb (a)symmetries have been most often assessed with the tests that quantify the maximal ...
Background: The rate of force development (RFD) is a measure of explosive strength, commonly evaluat...
Abstract Aim: To investigate the neuromuscular fatigue and recovery after an intermittent isometri...
Purpose: Neuromuscular electrical stimulation (NMES) is a widely-used technique for diagnostic and t...
OBJECTIVE: The neuromuscular quickness capacity can be assessed by calculating the rate of torque d...
International audienceIntroduction: The aim of this study was to evaluate test feasibility, validity...
<p>SD: standard deviation, SEM: standard error of the mean, CV: coefficient of variation, ICC: intra...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
Transcranial magnetic stimulation (TMS)-induced relaxation rate reflects intrinsic muscle contractil...
Over the past decade, force-velocity (F-v) profiling has emerged as a promising tool for assessing n...
Knight, Christopher A.Movement velocity, and its isometric surrogate rate of force development (RFD)...