Add to ORKGA finite element muscle model to study the principles of intermuscular myofascial force transmission is developed. The results obtained explain force differences at the distal and proximal tendons of muscles that have mechanical interaction. This is in agreement with experimental findings in other recent studies. The strain distributions found along the fiber direction indicate intermuscular myofascial force transmission. A consequence is that active force generated within one muscle may be exerted at the tendon of another muscle
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
The classical view of muscles as independent motors has been challenged over the past decades. An al...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Details and concepts of intramuscular, extramuscular and intermuscular myofascial force transmission...
Details and concepts of intramuscular, extramuscular and intermuscular myofascial force transmission...
In addition to providing a great advantage that geometrically highly complex structures can be model...
The classic view of skeletal muscle is that force is generated within its muscle fibers and then dir...
The classic view of skeletal muscle is that force is generated within its muscle fibers and then dir...
The measurement of in vivo intramuscular pressure (IMP) has recently become practical and IMP appear...
Muscular force is transmitted not only to tendon but also to other structures. Connections to extram...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
The classical view of muscles as independent motors has been challenged over the past decades. An al...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
The effects of inter- and extramuscular myofascial force transmission on muscle length force charact...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Details and concepts of intramuscular, extramuscular and intermuscular myofascial force transmission...
Details and concepts of intramuscular, extramuscular and intermuscular myofascial force transmission...
In addition to providing a great advantage that geometrically highly complex structures can be model...
The classic view of skeletal muscle is that force is generated within its muscle fibers and then dir...
The classic view of skeletal muscle is that force is generated within its muscle fibers and then dir...
The measurement of in vivo intramuscular pressure (IMP) has recently become practical and IMP appear...
Muscular force is transmitted not only to tendon but also to other structures. Connections to extram...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
The classical view of muscles as independent motors has been challenged over the past decades. An al...