The Human body must be considered as a complex motor biosystem where homeostasis and regional state or segmental state functions are inseparable from general ones and the control circuit is not linear-causality type, ie stimulus and reaction, but it is an interactive system made up of a large number of interconnected circuits. Recent research paves the way for a new interpretation of connective tissue functions, understood as a true “communicative network” within the model of mechanical sensitivity that sees cells as a kind of “metal mesh” where elastic fibers, from cytoplasmic space, reach internal structures such as chromatin, allowing the cell to respond directly and immediately to the forces applied to the cell membrane. Moreover, we kn...
Cells in the musculoskeletal system are subjected to various mechanical forces in vivo. Years of res...
The goal of this project was to characterize the molecular mechanism by which cells recognize and re...
A growing body of work describes how physical forces in and around cells affect their growth, prolif...
AbstractObjective: To elucidate how mechanical stresses that are applied to the whole organism are t...
The architecture of the connective tissue, including structures such as fasciae, sheaths, and membra...
Essentially all organisms from bacteria to humans are mechanosensitive. Physical forces regulate a l...
Many different cell types respond to substrate elasticity as sensitively as more well studied solubl...
Abstract This article is a summary of a lecture on cellular mechanotransduction that was presented a...
<div><p>Several models have been employed to study human postural control during upright quiet stanc...
Mechanical forces are crucial to muscle development and function, but the mechanisms by which forces...
Background: Myofascial tissues generate integrated webs and networks of passive and active tensional...
We highlight the force-sensing function of extracellular matrix and present a complementary mechanot...
During posture control, reflexive feedback allows humans to efficiently compensate for unpredictable...
Summary: Proprioception requires the transduction of muscle-generated deformations into sensory neur...
External forces play complex roles in cell organization, fate, and homeostasis. Changes in these for...
Cells in the musculoskeletal system are subjected to various mechanical forces in vivo. Years of res...
The goal of this project was to characterize the molecular mechanism by which cells recognize and re...
A growing body of work describes how physical forces in and around cells affect their growth, prolif...
AbstractObjective: To elucidate how mechanical stresses that are applied to the whole organism are t...
The architecture of the connective tissue, including structures such as fasciae, sheaths, and membra...
Essentially all organisms from bacteria to humans are mechanosensitive. Physical forces regulate a l...
Many different cell types respond to substrate elasticity as sensitively as more well studied solubl...
Abstract This article is a summary of a lecture on cellular mechanotransduction that was presented a...
<div><p>Several models have been employed to study human postural control during upright quiet stanc...
Mechanical forces are crucial to muscle development and function, but the mechanisms by which forces...
Background: Myofascial tissues generate integrated webs and networks of passive and active tensional...
We highlight the force-sensing function of extracellular matrix and present a complementary mechanot...
During posture control, reflexive feedback allows humans to efficiently compensate for unpredictable...
Summary: Proprioception requires the transduction of muscle-generated deformations into sensory neur...
External forces play complex roles in cell organization, fate, and homeostasis. Changes in these for...
Cells in the musculoskeletal system are subjected to various mechanical forces in vivo. Years of res...
The goal of this project was to characterize the molecular mechanism by which cells recognize and re...
A growing body of work describes how physical forces in and around cells affect their growth, prolif...