APA
Maté Muñoz, José Luis & Hernández Lougedo, Juan & Barba Ruiz, Manuel & García Fernández, Pablo & Garnacho Castaño, Manuel V. & Domínguez, Raúl (2017-07 ) .Muscular fatigue in response to different modalities of CrossFit sessions.
ISO 690
Maté Muñoz, José Luis & Hernández Lougedo, Juan & Barba Ruiz, Manuel & García Fernández, Pablo & Garnacho Castaño, Manuel V. & Domínguez, Raúl. 2017-07 .Muscular fatigue in response to different modalities of CrossFit sessions.
https://hdl.handle.net/20.500.12080/39506
Resumen:
Background
CrossFit is a new strength and conditioning regimen involving short intense daily workouts
called workouts of the day (WOD). This study assesses muscular fatigue levels induced by
the three modalities of CrossFit WOD; gymnastics (G), metabolic conditioning (M) and
weightlifting (W).
Material and methods
34 healthy subjects undertook three WOD (one per week): a G WOD consisting of complet ing the highest number of sets of 5 pull-ups, 10 push-ups and 15 air squats in 20 min; an M
WOD, in which the maximum number of double skipping rope jumps was executed in 8 sets
(20 s), resting (10 s) between sets; and finally, a W WOD in which the maximum number of
power cleans was executed in 5 min, lifting a load equivalent to 40% of the individual¿s 1RM.
Before and after each WOD, blood lactate concentrations were measured. Also, before, dur ing, and after each WOD, muscular fatigue was assessed in a countermovement jump test
(CMJ).
Results
Significant reductions were produced in the mechanical variables jump height, average
power and maximum velocity in response to G; and in jump height, mean and peak power,
maximum velocity and maximum force in response to W (P<0.01). However, in M, signifi cant reductions in mechanical variables were observed between pre- and mid session (after
sets 2, 4, 6 and 8), but not between pre- and post session.
Conclusions
Muscular fatigue, reflected by reduced CMJ variables, was produced following the G and W
sessions, while recovery of this fatigue was observed at the end of M, likely attributable to
rest intervals allowing for the recovery of phosphocreatine stores. Our findings also suggest
that the high intensity and volume of exercise in G and W WODs could lead to reduced