Detailed Information on Publication Record
2024
Load Carrying Walking Test for the Special Operation Forces of the Army of the Czech Republic
BUGALA, Martin, Martina BERNACIKOVÁ and Ivan STRUHÁRBasic information
Original name
Load Carrying Walking Test for the Special Operation Forces of the Army of the Czech Republic
Authors
BUGALA, Martin (203 Czech Republic, guarantor, belonging to the institution), Martina BERNACIKOVÁ (203 Czech Republic, belonging to the institution) and Ivan STRUHÁR (703 Slovakia, belonging to the institution)
Edition
MILITARY MEDICINE, UNITED STATES, OXFORD UNIV PRESS, 2024, 0026-4075
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
30306 Sport and fitness sciences
Country of publisher
United Kingdom of Great Britain and Northern Ireland
Confidentiality degree
není předmětem státního či obchodního tajemství
References:
Impact factor
Impact factor: 1.200 in 2022
Organization unit
Faculty of Sports Studies
UT WoS
001075523500001
Keywords in English
PHYSICAL DEMANDS; SOLDIERS; PERFORMANCE; RESPONSES; CARRIAGE
Tags
Tags
Reviewed
Změněno: 21/3/2024 17:21, Mgr. Pavlína Roučová, DiS.
Abstract
V originále
Introduction The subject of this study was the creation of a new type of laboratory walking stress test for the Special Forces of the Army of the Czech Republic. This study developed a test model that has been validated in practice and that reflects the fact that the performance of endurance without and with a load varies considerably. Especially, if we focus on operators, as their activities are always performed with loads/full gear (equipment, weapons, equipment, etc.). Materials and Methods 24 men/operators from the Special Forces of the Army of the Czech Republic volunteered for this study. The maximal exercise test/spiroergometry was designed to include performance at a load of 55 kg/121 lb, a constant speed of 5.3 km/h, and an increase in incline angle of 1 degree after each elapsed minute. The test was performed on a treadmill under standard time, location, and temperature conditions. During the test, the following values were recorded: VO2 = oxygen consumption indicating the intensity of the exercise was monitored, VO2/kg = oxygen consumption converted to body weight, VO2/HR = pulse oxygen (the amount of oxygen converted in one heartbeat), HR = heart rate, VE = ventilation, volume of air exhaled in 1 min, breathe frequency (BF) = respiratory rate in 1 min. Results Out of the total number of 24 respondents, the study found these mean values of variables. The variable mapping the oxygen consumption, which indicates the intensity of VO2 loading, was 3.8, with the lowest value being 3.2 and the highest being 4.5. After converting oxygen consumption to bodyweight, VO2/kg was 46, the lowest value of 38.8, and the highest 53.0 were measured for this variable. Pulse oxygen, i.e., the amount of oxygen calculated per heart contraction VO2/HR, was 20.5, the lowest value 16.0, and the highest 26.0. The average HR heart rate was 183.5, with the lowest value being recorded at 164 and the highest value is 205. Ventilation, i.e., the amount of exhaled air per minute in VE, was measured at 144.9, the lowest value was 114.7, and the highest was 176.6. The BF in 1 min was 58.5, the lowest value 35, and the highest 70. The mean time load was 10:20 min, the shortest test length was 7:25 min, and the longest was 13:23 min. These values correspond to the degree of inclination of the ascent, i.e., the mean value was 10 degrees, the smallest achieved slope was 7 degrees, and the largest 13 degrees. Conclusion The designed weighted walking test proved to be fully functional and effective in measurement. The further established protocol corresponds to the requirements of the current needs of the Special Forces of the Army of the Czech Republic. Last but not least, the walking stress test is applied for the external and internal selection and screening of operators. Data obtained from testing were used to develop deployment requirements for patrol/nuclear combat missions.
Links
MUNI/51/09/2020, interní kód MU |
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