Aim: We investigated architectural, functional and molecular responses of human skeletal muscle to concentric (CON) or eccentric (ECC) resistance training (RT). Methods: Twelve young males performed 10 weeks of concentric (CON) or eccentric (ECC) resistance training (RT) (n = 6 CON, 6 ECC). An additional 14 males were recruited to evaluate acute muscle fascicle behaviour and molecular signalling in biopsies collected from vastus lateralis (VL) after 30 min of single bouts of CON or ECC exercise. VL volume was measured by magnetic resonance imaging. Muscle architecture (fascicle length, Lf; pennation angle, PA) was evaluated by ultrasonography. Muscle remodelling signals to CON or ECC loading [MAPK/AKT-mammalian target of rapamycin (mTOR) si...
PURPOSE: Recently, it has been suggested that a cellular pathway composed of integrin, integrin-link...
Resistance exercise training (RET) is well-known to counteract negative age-related changes in both ...
A muscle’s architecture (e.g. pennation or fascicle angle, fascicle length, cross-sectional area, et...
Aim: We investigated architectural, functional and molecular responses of human skeletal muscle to c...
Aim We investigated architectural, functional and molecular responses of human skeletal muscle to...
AIMS We assessed focal adhesion kinase (FAK) response to concentric (CON) versus eccentric (ECC) re...
The different architectural adaptations and the regional changes that occur with eccentric (ECC) vs....
We recently reported that the greatest distinguishing feature between eccentric (ECC) and concentric...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
It is common knowledge that resistance exercise promotes muscle growth (hypertrophy) and increased ...
Studies using animal models have been unable to determine the mechanical stimuli that most influence...
Skeletal muscle contractions are caused to release myokines by muscle fiber. This study investigated...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
High-load eccentric training reputedly produces greater muscle hypertrophy than concentric training,...
PURPOSE: Recently, it has been suggested that a cellular pathway composed of integrin, integrin-link...
Resistance exercise training (RET) is well-known to counteract negative age-related changes in both ...
A muscle’s architecture (e.g. pennation or fascicle angle, fascicle length, cross-sectional area, et...
Aim: We investigated architectural, functional and molecular responses of human skeletal muscle to c...
Aim We investigated architectural, functional and molecular responses of human skeletal muscle to...
AIMS We assessed focal adhesion kinase (FAK) response to concentric (CON) versus eccentric (ECC) re...
The different architectural adaptations and the regional changes that occur with eccentric (ECC) vs....
We recently reported that the greatest distinguishing feature between eccentric (ECC) and concentric...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
It is common knowledge that resistance exercise promotes muscle growth (hypertrophy) and increased ...
Studies using animal models have been unable to determine the mechanical stimuli that most influence...
Skeletal muscle contractions are caused to release myokines by muscle fiber. This study investigated...
Skeletal muscle contracts either by shortening or lengthening (concentrically or eccentrically, resp...
High-load eccentric training reputedly produces greater muscle hypertrophy than concentric training,...
PURPOSE: Recently, it has been suggested that a cellular pathway composed of integrin, integrin-link...
Resistance exercise training (RET) is well-known to counteract negative age-related changes in both ...
A muscle’s architecture (e.g. pennation or fascicle angle, fascicle length, cross-sectional area, et...