The evaluation of rate of force development during rapid contractions has recently become quite popular for characterising explosive strength of athletes, elderly individuals and patients. The main aims of this narrative review are to describe the neuromuscular determinants of rate of force development and to discuss various methodological considerations inherent to its evaluation for research and clinical purposes. Rate of force development (1) seems to be mainly determined by the capacity to produce maximal voluntary activation in the early phase of an explosive contraction (first 50–75 ms), particularly as a result of increased motor unit discharge rate; (2) can be improved by both explosive-type and heavy-resistance strength training in...
Background: The capability of an individual to produce force rapidly is important for performance of...
During rapid contractions, motor neurons are recruited in a short burst and begin to discharge at hi...
OBJECTIVE: The neuromuscular quickness capacity can be assessed by calculating the rate of torque d...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
Explosive muscular contractions are fundamental to sports activities such as sprinting, jumping or t...
When humans perform isometric ballistic contractions of different intensities, a strong linear relat...
Introduction: Muscle activation under different contraction paradigms and rate of force or torque de...
Neuromuscular explosive strength (defined as rate of force development; RFD) is considered important...
Background: The rate of force development (RFD) is a measure of explosive strength, commonly evaluat...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
This narrative and literature review discusses the relevance of Rate of Force Development (RFD) (the...
This review will revisit practitioner understanding of the development of power, before outlining so...
The aim of the present study was to verify whether strength training designed to improve explosive a...
Although explosive isometric contraction provides little work toward the outside, force-time paramet...
The ability to generate high muscular strength within short time periods is of functional importance...
Background: The capability of an individual to produce force rapidly is important for performance of...
During rapid contractions, motor neurons are recruited in a short burst and begin to discharge at hi...
OBJECTIVE: The neuromuscular quickness capacity can be assessed by calculating the rate of torque d...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
Explosive muscular contractions are fundamental to sports activities such as sprinting, jumping or t...
When humans perform isometric ballistic contractions of different intensities, a strong linear relat...
Introduction: Muscle activation under different contraction paradigms and rate of force or torque de...
Neuromuscular explosive strength (defined as rate of force development; RFD) is considered important...
Background: The rate of force development (RFD) is a measure of explosive strength, commonly evaluat...
Because rate of force development (RFD) is an emerging outcome measure for the assessment of neuromu...
This narrative and literature review discusses the relevance of Rate of Force Development (RFD) (the...
This review will revisit practitioner understanding of the development of power, before outlining so...
The aim of the present study was to verify whether strength training designed to improve explosive a...
Although explosive isometric contraction provides little work toward the outside, force-time paramet...
The ability to generate high muscular strength within short time periods is of functional importance...
Background: The capability of an individual to produce force rapidly is important for performance of...
During rapid contractions, motor neurons are recruited in a short burst and begin to discharge at hi...
OBJECTIVE: The neuromuscular quickness capacity can be assessed by calculating the rate of torque d...