Neural strategies in the control of muscle force

## Abstract ## Objective To characterize the distribution of error in knee joint proprioception, quadriceps force accuracy and steadiness, and muscle strength in patients with knee osteoarthritis (OA). Special attention was paid to eccentric strength. ## Methods We compared knee OA patients (n =

## Abstract The properties of skeletal muscles are modulated by neural and nonneural factors, and the neural factors can be modulated by activity‐independent as well as activity‐dependent mechanisms. Given that daily activation of fast muscles is considerably less than of slow muscles, we hypothesi

## Abstract Changes in contractile rate of force development (RFD), measured within a short time interval from contraction initiation, were measured after a period of strength training that led to increases in muscle fascicle length but no measurable change in neuromuscular activity. The relationsh

Previous work has suggested that the third molar lies just in front of the point where the resultant vector of jaw muscle force, estimated from dissections, intersects the tooth row. This point meets the jaw such that the vector is 30% of jaw length from the jaw joint.