High-Intensity Interval Training Prescription for Combat-Sport Athletes

Overview

Journal Int J Sports Physiol Perform

Specialties Orthopedics
Physiology

Date 2020 Jun 6

PMID 32502972

Citations 14

Authors

Emerson Franchini

Affiliations

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Abstract

Context: Combat sports are composed of high-intensity actions (eg, attacks, defensive actions, and counterattacks in both grappling and striking situations depending on the specific sport) interspersed with low-intensity actions (eg, displacement without contact, stepping) or pauses (eg, referee stoppages), characterizing an intermittent activity. Therefore, high-intensity interval training (HIIT) is at the essence of combat-sport-specific training and is used as complementary training, as well. HIIT prescription can be improved by using intensity parameters derived from combat-sport-specific tests. Specifically, the assessment of physiological indexes (intensity associated with the maximal blood lactate steady state, maximal oxygen consumption, and maximal sprint) or of time-motion variables (high-intensity actions, low-intensity actions, and effort:pause ratio) is a key element for a better HIIT prescription because these parameters provide an individualization of the training loads imposed on these athletes.

Purpose: To present a proposal for HIIT prescription for combat-sport athletes, exemplifying with different HIIT protocols (HIIT short intervals, HIIT long intervals, repeated-sprint training, and sprint interval training) using combat-sport-specific actions and the parameters for the individualization of these protocols.

Conclusions: The use of combat-sport-specific tests is likely to improve HIIT prescription, allowing coaches and strength and conditioning professionals to elaborate HIIT short intervals, HIIT long intervals, repeated-sprint training, and sprint interval training protocols using combat-sport actions, providing more specificity and individualization for the training sessions.

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The contribution of energy systems during 30-second lower body Wingate anaerobic test in combat sports athletes: Intermittent versus single forms and gender comparison.

Tortu E, Ouergui I, Ulupinar S, Ozbay S, Gencoglu C, Ardigo L PLoS One. 2024; 19(5):e0303888.

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Ouergui I, Delleli S, Messaoudi H, Bridge C, Chtourou H, Franchini E Front Physiol. 2023; 14:1179309.

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A modified formula using energy system contributions to calculate pure maximal rate of lactate accumulation during a maximal sprint cycling test.

Yang W, Park S, Kim T, Jeon H, Heine O, Gehlert S Front Physiol. 2023; 14:1147321.

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