Now available ahead of print: The Relationship Between Lower-Limb Explosive Strength and Climbing Speed in Elite Speed Climbers: A Comprehensive Analysis Based on Muscle Morphology and Electromyography, by Ming Li, Yongkang Zhu, and Yi Peng.
https://t.co/5bvxQ5tKvP
Tadej Pogačar makes a move 💥
Juan Ayuso 🇪🇸 the only rider that can match him and go with the acceleration.
100km to go 🏁 with Isaac del Toro 🇲🇽 now trying to get across.
#Kigali2025
🔥New Publication "Torque–Cadence Profile and Maximal Dynamic Force in Cyclists: A Novel Approach"
Link: https://t.co/ehjnkd6gRe
A novel practical and highly accurate procedure for the assessment of specific strength training effects in cycling
+ info: https://t.co/ZrMRmNnkX2
@BoskoVelicic new Serbian junior champion in time trial and absolute on the road.. double victory and thanks for the trust given!
#imfitbiomeccanica[email protected]
https://t.co/JQTEDvAeo5
If the eccentric was not partial but total (so even at closed angle and in maximum elongation) it would be (generally speaking) even better. However, eccentric overloads are very interesting and often useful!
🧵2 Athletes can produce the same amount of power but use 2 diff. ways of getting there.
➡️A more “force-based" athlete- uses higher total force output
➡️A more "Elastic/velocity-based" athlete- uses Faster rate of force development
We need to give them more of what they need
To perform a biomechanical evaluation caused by a problem of differences in muscle volume, a test was performed in EMG. The different muscle activation of the limbs establishes in a context of execution, a reprogramming of training.
[email protected]@IBFI_cert#uci
How to understand the push on the pedal by not going into dorsiflexion. Gastrocnemius and soleus stabilizes the ankle avoiding dispersion of force in the dynamic phase.

@IBFI_cert@Federciclismo@UCI_cycling@Bikefitting