Internal and external match loads of university-level soccer players : a comparison between methods / Martinique Sparks

Sparks, Martinique

January 2015

A need exists to obtain accurate, reliable and valid data to assess the external and internal loads of soccer matches, especially as it relates to South African soccer teams. Consequently, the objectives of this study were firstly to determine the fatigue rates and patterns of a cohort of university-level soccer players during matches when using global positioning system (GPS) to quantify the high-intensity running performances in rolling 5-min periods. Secondly, to determine the influence of Yo-Yo intermittent recovery test level 1 (Yo- Yo IR1) determined training status of a cohort of university-level soccer players on fatigue patterns and rate during match play. Thirdly, to determine the positional-internal match loads of a cohort of university-level soccer players by making use of heart rates and the Yo-Yo IR1-determined threshold values. Lastly, to compare the match analysis results of different methods aimed at determining the external and internal match loads of a cohort of university-level soccer players. Selected groups of university-level soccer players (n = 10–13) were required to complete a 40-m maximum speed test and the Yo-Yo IR1 during a two-week period either before or after each analysed match. The heart rate (HR) values and GPS data of each player were recorded during league soccer matches. For the first and second objectives of the study players were categorised into three activity level categories (low, moderate and high) according to their activity levels of the first half of the match. Furthermore, their high-intensity running (> 3.7m/s) (HIR) was monitored in rolling 5-min periods. The low-activity group showed a small to moderate difference (p <0.05) in high-intensity running (HIR) at 5-min and 15-min after the peak period compared to the average 5-min period. The moderate-activity group showed a moderate difference (p <0.05) in HIR at 5-min after the peak period. The high-activity group showed moderate to large declines in distance covered between the first 15-min of the second half (103.9 m/min) compared to the first 15-min of the first half (122.5 m/min). They also showed small to moderate declines in HIR during the first 10-min of the second half (25.7 m/min) compared to the first half (34.1 m/min). The low-activity group showed a small decline in distance covered during the first 5-min of the second half (76.3 m/min) compared to the first half (87.7 m/min). Conversely the low-activity group showed a small to moderate increase in distance covered during the last 10-min of the second half (95.7 m/min) compared to the first half (84.4 m/min). The Yo-Yo IR1 was not significantly correlated with any of the variables associated with HIR. For the third objective of the study players’ heart rates that corresponded with the first and second ventilatory thresholds as obtained during a Yo-Yo IR1 were used to classify heart rates into low (LI HR zone), moderate (MI HR zone) and high-intensity zones (HI HR zone). Results showed that attackers spent more time in the LI HR zone (3386 s; 62%; p <0.05) than defenders (2155 s; 40%) and midfielders (2425 s; 42%). The attackers spent less time in the HI HR zone (260 s; 4%; p <0.05) than the defenders (964 s; 15%). Midfielders (2444 s; 44%) and defenders (2364 s; 41%) spent more time in the MI HR zone than attackers (1854 s; 44%). For the fourth objective of the study players’ individualised velocity and heart rate (HR) thresholds were determined from the 40-m maximum speed test and the Yo-Yo IR1. Results showed a large (r = 0.5; p ≤0.01) correlation between the time spent in the LIVZ (5017 ± 368 s) and the LI HR zone (2891 ± 1086 s), with the true correlation value that varied between moderate and large. Similarly, a moderate (r = 0.3; p ≤0.01) to large (r = 0.6; p ≤0.01) correlation was found between the relative (11.4 ± 3.7%) and absolute time (669 ± 223 s) spent in the MIVZ and the MI HR zone (41.0 ± 16.8% and 2253 ± 752 s). However, the true correlation value for the absolute time spent in the MI zone fell between the large to very large category, whereas the correlation for the relative time was small to moderate. There were no significant correlations (p ≤0.01) between the HIVZ and the HI HR zone. Although some correlations were found from the Spearman’s rank correlation, when adjusting for 2max O V• and Yo-Yo IR1 performance these correlations became non-significant. From these study results it is clear that the Yo-Yo IR1 and 40-m speed test show promise to be used as valid sports-specific field tests for determining ventilatory thresholds for each player, the heart rates that correspond to these thresholds and the different velocity thresholds. The authors therefore recommend that researchers use these methods in future to determine individualised HR and velocity zones in combination with the GPS analysis results to define both the internal and external match loads of soccer players. Results of these analyses could enable future coaches and sport scientists to develop match-specific conditioning programs that reflect both the internal and external demands of soccer matches / PhD (Human Movement Science), North-West University, Potchefstroom Campus, 2015

Match analyses

Fatigue

Oxygen consumption

Velocity

Soccer

Internal and external match loads of university-level soccer players : a comparison between methods / Martinique Sparks

Sparks, Martinique

January 2015

A need exists to obtain accurate, reliable and valid data to assess the external and internal loads of soccer matches, especially as it relates to South African soccer teams. Consequently, the objectives of this study were firstly to determine the fatigue rates and patterns of a cohort of university-level soccer players during matches when using global positioning system (GPS) to quantify the high-intensity running performances in rolling 5-min periods. Secondly, to determine the influence of Yo-Yo intermittent recovery test level 1 (Yo- Yo IR1) determined training status of a cohort of university-level soccer players on fatigue patterns and rate during match play. Thirdly, to determine the positional-internal match loads of a cohort of university-level soccer players by making use of heart rates and the Yo-Yo IR1-determined threshold values. Lastly, to compare the match analysis results of different methods aimed at determining the external and internal match loads of a cohort of university-level soccer players. Selected groups of university-level soccer players (n = 10–13) were required to complete a 40-m maximum speed test and the Yo-Yo IR1 during a two-week period either before or after each analysed match. The heart rate (HR) values and GPS data of each player were recorded during league soccer matches. For the first and second objectives of the study players were categorised into three activity level categories (low, moderate and high) according to their activity levels of the first half of the match. Furthermore, their high-intensity running (> 3.7m/s) (HIR) was monitored in rolling 5-min periods. The low-activity group showed a small to moderate difference (p <0.05) in high-intensity running (HIR) at 5-min and 15-min after the peak period compared to the average 5-min period. The moderate-activity group showed a moderate difference (p <0.05) in HIR at 5-min after the peak period. The high-activity group showed moderate to large declines in distance covered between the first 15-min of the second half (103.9 m/min) compared to the first 15-min of the first half (122.5 m/min). They also showed small to moderate declines in HIR during the first 10-min of the second half (25.7 m/min) compared to the first half (34.1 m/min). The low-activity group showed a small decline in distance covered during the first 5-min of the second half (76.3 m/min) compared to the first half (87.7 m/min). Conversely the low-activity group showed a small to moderate increase in distance covered during the last 10-min of the second half (95.7 m/min) compared to the first half (84.4 m/min). The Yo-Yo IR1 was not significantly correlated with any of the variables associated with HIR. For the third objective of the study players’ heart rates that corresponded with the first and second ventilatory thresholds as obtained during a Yo-Yo IR1 were used to classify heart rates into low (LI HR zone), moderate (MI HR zone) and high-intensity zones (HI HR zone). Results showed that attackers spent more time in the LI HR zone (3386 s; 62%; p <0.05) than defenders (2155 s; 40%) and midfielders (2425 s; 42%). The attackers spent less time in the HI HR zone (260 s; 4%; p <0.05) than the defenders (964 s; 15%). Midfielders (2444 s; 44%) and defenders (2364 s; 41%) spent more time in the MI HR zone than attackers (1854 s; 44%). For the fourth objective of the study players’ individualised velocity and heart rate (HR) thresholds were determined from the 40-m maximum speed test and the Yo-Yo IR1. Results showed a large (r = 0.5; p ≤0.01) correlation between the time spent in the LIVZ (5017 ± 368 s) and the LI HR zone (2891 ± 1086 s), with the true correlation value that varied between moderate and large. Similarly, a moderate (r = 0.3; p ≤0.01) to large (r = 0.6; p ≤0.01) correlation was found between the relative (11.4 ± 3.7%) and absolute time (669 ± 223 s) spent in the MIVZ and the MI HR zone (41.0 ± 16.8% and 2253 ± 752 s). However, the true correlation value for the absolute time spent in the MI zone fell between the large to very large category, whereas the correlation for the relative time was small to moderate. There were no significant correlations (p ≤0.01) between the HIVZ and the HI HR zone. Although some correlations were found from the Spearman’s rank correlation, when adjusting for 2max O V• and Yo-Yo IR1 performance these correlations became non-significant. From these study results it is clear that the Yo-Yo IR1 and 40-m speed test show promise to be used as valid sports-specific field tests for determining ventilatory thresholds for each player, the heart rates that correspond to these thresholds and the different velocity thresholds. The authors therefore recommend that researchers use these methods in future to determine individualised HR and velocity zones in combination with the GPS analysis results to define both the internal and external match loads of soccer players. Results of these analyses could enable future coaches and sport scientists to develop match-specific conditioning programs that reflect both the internal and external demands of soccer matches / PhD (Human Movement Science), North-West University, Potchefstroom Campus, 2015

Match analyses

Fatigue

Oxygen consumption

Velocity

Soccer

2009 ir 2013 metų pasaulio jaunimo (U21) tinklinio čempionatų komandų žaidėjų varžybinės veiklos ir rungtynių trukmės analizė / The analysis of duration of volleyball matches and competition effectivness in 2009 and 2013 world youth (U21) volleyball championship

Šimkonis, Egidijus

19 June 2014

Sportinis rengimas – įvairiapusis sudėtingas edukacinis vyksmas, apimantis sportininko mokymą ir auklėjimą, jo gebėjimų, fizinių ir psichinių ypatybių tobulinimą, harmoningą asmenybės ugdymą, sveikatos stiprinimą, gerų sportinių rezultatų siekimą. Šiuolaikiniam tinkliniui būdinga didelė treniruotės krūvio apimtis ir intensyvumas. Baigiamojo darbo tema – 2009–2013 m. U21 stipriausių pasaulio tinklinio komandų varžybinės veiklos ir rungtynių trukmės analizė pasaulio čempionate. Tyrimo objektas: 2009 ir 2013 m. U21 stipriausių pasaulio tinklinio čempionato komandų varžybinė veikla ir rungtynių trukmės rodikliai. Tyrimo tikslas – išanalizuoti 2009 ir 2013 metų U21 stipriausių pasaulio tinklinio komandų varžybinę veiklą. Tyrimo uždaviniai: 1. Išanalizuoti 2009 ir 2013 metų U21 stipriausių pasaulio tinklinio komandų varžybinę veiklą. 2. Atlikti 2009 ir 2013 metų U21 stipriausių pasaulio tinklinio komandų rungtynių trukmės analizę. 3. Palyginti 2009 ir 2013 metų U21 stipriausių pasaulio tinklinio komandų varžybinės veiklos rezultatus. Analizavome 2009 ir 2013 metų U21 stipriausių pasaulio tinklinio komandų varžybinę veiklą. Buvo atlikta komandų rezultatyvumo ir varžybų trukmės rodiklių analizė. Rezultatams apdoroti buvo taikyta matematinė analizė (skaičiuojama aritmetinis vidurkis, standartinis nuokrypis, aritmetinio vidurkio paklaida). Nustatyta, kad didžioji dalis (44–49 proc.) rungtynių baigiasi rezultatu 3 : 0, o apie 25 proc. rungtynių – rezultatu 3 : 1, 3 : 2, tačiau... [toliau žr. visą tekstą] / Sports Training – diverse educational complex process involving an athlete's training and education, his skills, physical and mental characteristics of the development of harmonious personality development, health promotion, good sports performance objectives. Contemporary volleyball characterized by high training volume and intensity of exercise. The thesis topic – the analysis of duration of volleyball matches and competition effectiveness in 2009 and 2013 world youth (U21) volleyball championship. The object of the 2009 and 2013. U21 strongest volleyball world championship teams match practice and match expectancy. The aim – to analyze the 2009 and 2013 U21 world's strongest volleyball teams game activity. Objectives of the study: 1. Analyze the 2009 and 2013 U21 world's strongest volleyball team's game activity. 2. Carried out in 2009 and 2013, the world's strongest U21 volleyball teams match -cycle analysis. 3. Compare the 2009 and 2013 U21 world's strongest volleyball teams match practice results. We analyzed the 2009 and 2013 U21 world's strongest volleyball teams in the game activity. It was made a team's performance analysis, and event expectancy. Results of the process were applied to the mathematical analysis (arithmetic mean, standard deviation, error of the mean). It was found that the majority of the game (44–49 percent) finishes 3 : 0, and 3 : 1, 3 : 2 and ending close to 25 percent of all matches. However, different parts of the distribution of events differ... [to full text]

Educology

Tinklininkai

Varžybinė veikla

Rungtynių trukmė

Pasaulio čempionatas

Volleyball

Match analyses

Match duration

World championship