RT @jfletcher14: @GregLehman @rich_blagrove @jn_inspire @BiomechMax @Brad_Neal_07 @RunningReform @ClinicRunning @tomgoom Specific to runnin…
RT @jfletcher14: @GregLehman @rich_blagrove @jn_inspire @BiomechMax @Brad_Neal_07 @RunningReform @ClinicRunning @tomgoom Specific to runnin…
@GregLehman @rich_blagrove @jn_inspire @BiomechMax @Brad_Neal_07 @RunningReform @ClinicRunning @tomgoom Specific to running and NM adaptations: https://t.co/7fntuQTjYg . There is also this from our work, showing reduced EMG and energy cost b/c of reduced v
@DrPhilipSkiba @ggsimpsonrun @AndyBeetroot @DrMJoyner @EliudKipchoge My understanding is that increased stiffness reduces the length-tension-velocity change experienced by muscle fascicles during GCT, which decreases energy cost. Based mainly upon work by
...as we have shown, it is minimizing muscle shortening, thus muscle activation, which minimizes the energy cost: http://t.co/HrnNpNsKhy
@UKSportSci @MuscleScience We would suggest it is, but not how people traditionally think about it: http://t.co/eFb6NR0o1n
Can muscle shortening alone, explain the energy cost of muscle contraction in vivo? http://t.co/EXoOI2YvAb