Cardiorespiratory Responses and Energy Contribution in Brazilian Jiu-Jitsu Exercise Sets

“…We did so by using our post-combat-sparring measurement of gas-exchange/ventilatory data to estimate end-combat-sparring _ VO 2 via back extrapolation [24]. While the single value so derived cannot be assumed to represent a "steady-state" provision of aerobic energy turnover during performance of activities like BJJ that involve oscillations in work rate, it is interesting to note that the value we observed (44.2 ± 7.0 mL�kg -1 �min -1 ) was comparable to the peak reported during the performance of isolated 60-s BJJ sets involving takedowns and guard passes (43.9 ± 7.7 and 45.9 ± 8.4 mL�kg -1 �min -1 , respectively) [21]. With recognition of the aforementioned caveat, if values in this range do indeed approximate an average energetic requirement that was present throughout six minutes of combat sparring, aerobic metabolism would have been responsible for ~77% of total energy turnover with phospholytic and glycolytic components of anaerobic turnover providing ~6% and ~17% of the remaining requirement, respectively.…”

“…The purpose of this investigation was to use post-combat-sparring measurements of [lactate b ] and oxygen uptake recovery kinetics to estimate the anaerobic energy provision (expressed as oxygen equivalents; O 2Eq ) for both phospholytic and glycolytic component during no-gi BJJ sparring. Consistent with what has been found for simulated matches involving other combat sports-for example, taekwondo [17], karate [18,19] and judo [20]-and prescribed BJJ exercise "sets" performed discontinuously [21], we hypothesized that the energetics contribution from the phospholytic component during combat would be �50% of total anaerobic energy turnover. We also used dual-energy x-ray absorptiometry (DXA) to determine regional body composition for each participant so that the contribution of each anaerobic component could be "scaled" in accordance with anthropometric characteristics [22].…”

“…Conversely, combat sports that are predominantly based on grasping and clutching of the individual with whom the grappler is competing (e.g., BJJ, judo, wrestling) do not allow for such "real-time" direct measurement of aerobic metabolism without significantly restricting techniques being applied during analysis because wearing a ventilatory gas-collection mask during ecologically-valid simulation of performance is not feasible [8]. Consequently, for these types of sports, other than measuring gas exchange while participants performed a limited number of movements that typically comprise combat (e.g., see [20,21] for judo and BJJ, respectively), the aerobic contribution during combat can only be estimated. We did so by using our post-combat-sparring measurement of gas-exchange/ventilatory data to estimate end-combat-sparring _ VO 2 via back extrapolation [24].…”

Energetics contribution during no-gi Brazilian jiu jitsu sparring and its association with regional body composition

“…We did so by using our post-combat-sparring measurement of gas-exchange/ventilatory data to estimate end-combat-sparring _ VO 2 via back extrapolation [24]. While the single value so derived cannot be assumed to represent a "steady-state" provision of aerobic energy turnover during performance of activities like BJJ that involve oscillations in work rate, it is interesting to note that the value we observed (44.2 ± 7.0 mL�kg -1 �min -1 ) was comparable to the peak reported during the performance of isolated 60-s BJJ sets involving takedowns and guard passes (43.9 ± 7.7 and 45.9 ± 8.4 mL�kg -1 �min -1 , respectively) [21]. With recognition of the aforementioned caveat, if values in this range do indeed approximate an average energetic requirement that was present throughout six minutes of combat sparring, aerobic metabolism would have been responsible for ~77% of total energy turnover with phospholytic and glycolytic components of anaerobic turnover providing ~6% and ~17% of the remaining requirement, respectively.…”

“…The purpose of this investigation was to use post-combat-sparring measurements of [lactate b ] and oxygen uptake recovery kinetics to estimate the anaerobic energy provision (expressed as oxygen equivalents; O 2Eq ) for both phospholytic and glycolytic component during no-gi BJJ sparring. Consistent with what has been found for simulated matches involving other combat sports-for example, taekwondo [17], karate [18,19] and judo [20]-and prescribed BJJ exercise "sets" performed discontinuously [21], we hypothesized that the energetics contribution from the phospholytic component during combat would be �50% of total anaerobic energy turnover. We also used dual-energy x-ray absorptiometry (DXA) to determine regional body composition for each participant so that the contribution of each anaerobic component could be "scaled" in accordance with anthropometric characteristics [22].…”

“…Conversely, combat sports that are predominantly based on grasping and clutching of the individual with whom the grappler is competing (e.g., BJJ, judo, wrestling) do not allow for such "real-time" direct measurement of aerobic metabolism without significantly restricting techniques being applied during analysis because wearing a ventilatory gas-collection mask during ecologically-valid simulation of performance is not feasible [8]. Consequently, for these types of sports, other than measuring gas exchange while participants performed a limited number of movements that typically comprise combat (e.g., see [20,21] for judo and BJJ, respectively), the aerobic contribution during combat can only be estimated. We did so by using our post-combat-sparring measurement of gas-exchange/ventilatory data to estimate end-combat-sparring _ VO 2 via back extrapolation [24].…”

Energetics contribution during no-gi Brazilian jiu jitsu sparring and its association with regional body composition

“…Krause et al, (2020), demostraram em pesquisa com atletas de Jiu-Jitsu, onde o objetivo foi de avaliar a intensidade de treinamento correlacionada ao consumo de VO 2 máx e utilizando-se dos mesmos intervalos de tempo de treinamento que os utilizados nesta pesquisa, encontrou que o VO 2 máx de exercícios realizado em pé foi superior aos exercícios realizados em decúbito dorsal. Além disso, a demanda energética aumentou com incrementos na duração do esforço.…”

Health promotion and quality of life 3

Aerobic and anaerobic performance of lower- and upper-body in Brazilian jiu-jitsu athletes