Litcius/Paper detail

Energy demands in high-intensity intermittent taekwondo specific exercises

Charles Bartel, Víctor Silveira Coswig, Gabriel V. Protzen, Fabrício Boscolo Del Vecchio

2022PeerJ19 citationsDOIOpen Access PDF

Abstract

Background: Taekwondo is an intermittent Olympic combat sport, which shows an aerobic predominance in matches and high participation of alactic metabolism for actions that determine competitive success. However, there is no information on energetic contribution systems in different high-intensity intermittent exercises for metabolic conditioning with specific movements. The study aimed to measure the physiological demands, mainly the energy expenditure, in taekwondo-specific high-intensity intermittent exercises (HIIE). Methods: This study recruited ten male black belt athletes with a mean age of 20.2 ± 4 years, body mass of 62.8 ± 10.5 kg and height of 170.6 ± 7.8 cm, and total practice time of 11.8 ± 5.4 years. Subjects performed an incremental specific test and three different HIIE protocols on nonconsecutive days, and all comprised three 2-min rounds and 1 min of recovery between rounds. Heart rate, oxygen consumption, and blood lactate were measured. Energetic expenditure of aerobic, alactic, and lactic metabolisms was estimated through oxygen consumption, excess post-exercise oxygen consumption, and peak blood lactate after each round. Results: = 0.03). Conclusion: The mean of the three rounds for 35:5 and 15:10:5 presented similar absolute and relative contributions of aerobic and alactic metabolisms, whereas the TKDtest100 was a predominantly aerobic activity. We emphasize that aerobic metabolism was predominant from the second round in the 15:10:5 and 100%TKDtest protocols and in the last round of the 35:5 protocol.

Topics & Concepts

Aerobic exerciseEnergy expenditureVO2 maxBlood lactateAnimal scienceAerobic capacityAthletesHeart rateEnergy metabolismAnaerobic exerciseMedicinePhysical therapyInternal medicineBiologyBlood pressureSports Performance and TrainingCardiovascular and exercise physiologyMuscle metabolism and nutrition