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dc.contributor.advisorCoetzee, B.
dc.contributor.advisorTwisk, J.W.R.
dc.contributor.advisorMonyeki, M.A.
dc.contributor.authorPienaar, Cindy
dc.date.accessioned2014-10-21T07:48:11Z
dc.date.available2014-10-21T07:48:11Z
dc.date.issued2014
dc.identifier.urihttp://hdl.handle.net/10394/11936
dc.descriptionPhD (Human Movement Science), North-West University, Potchefstroom Campus, 2014en_US
dc.description.abstractThe measurement of cardiorespiratory fitness has been extensively researched among adult populations, but very few researchers have focused their attention on the cardiorespiratory fitness of children and adolescents. Due to various constraints of direct 2max VO testing, various indirect testing methods have been developed of which the 20-m Shuttle Run Test is the most widely used testing method. The influence of various anthropometric, physical and motor performance components as well as certain demographic factors such as gender, race, living area, and sport participation as well as physical activity level on the 2max VO value of participants seems to suggest that 2max VO can be predicted by including these components in prediction models. It is against this background that the objectives of this study are provided. The following four objectives of the study were achieved through a literature review: Firstly, to name and describe the various direct and indirect methods for determining 2max VO ; secondly, to provide a review on the findings with regard to the aerobic performances or 2max VO values of children and adolescents; thirdly, to discuss the possible influence of various anthropometric, physical and motor-performance components on the aerobic performances or 2max VO values of the last-mentioned groups of subjects. As part of this objective, other literature-identified factors such as certain demographic factors (living area, race and gender), sport and physical activity participation level which may also influence the aerobic performances or 2max VO values of the participants, were also discussed; fourthly, all literature identified models for the prediction of aerobic performances or 2max VO values in children, and in adolescents were mentioned and discussed. The next few objectives were achieved through a selected group, cross-sectional experimental research design; fifthly, to develop a valid 2max VO prediction function from several anthropometric measurements and demographic factors such as gender, race and living area as well as sport participation level of a cohort of adolescents living in the Tlokwe Local Municipality (Potchefstroom area) of North West Province, South Africa; sixthly, to develop a 2max VO prediction function from the physical and motor-performance components as well as demographic variables such as gender, race and living area as well as sport participation level of a cohort of adolescents living in the Tlokwe Local Municipality (Potchefstroom area) of North West Province, South Africa; and finally, to determine the validity of the 20-m SRT to estimate the 2 VO and 2max VO of a cohort of adolescent boys in the Tlokwe Local Municipality (Potchefstroom area) of North West Province, South Africa. In order to fulfil the fifth and sixth objectives of the study, a total of 214 grade 8 adolescents (boys: 88 and girls: 126) (age: 15.82 ± 0.68 years) of high schools in the Tlokwe Local Municipality (Potchefstroom area) of the Dr Kenneth Kaunda District of the North West Province, South Africa were purposefully selected from pre-acquired class lists, from six secondary schools. Data was collected by means of various questionnaires, anthropometric measurements and physical and motor-performance tests, which also included the 20-metre SRT. For the fulfilment of the final objective of the study, 52 boys were purposefully selected from the above-mentioned group that completed various questionnaires as well as the 20-m SRT while they were fitted with a portable gas analyser apparatus. With regard to the anthropometric and demographic variable prediction model, the forward stepwise regression analysis results showed that muscle mass percentage, sport participation level, stature, hip circumference and ectomorphy act as significant predictors (p ≤ 0.05) of the indirect, 20-m SRT 2max VO values of a cohort of adolescents. Muscle mass percentage emerged as the strongest predictor (59%) of adolescents’ 2max VO values, followed by sport participation level (6%), ectomorphy (2%), stature (1%) and hip circumference (1%). The physical, motor-performance and demographic prediction model revealed that 10-metre speed, sit-up repetitions, sport participation level, handgrip strength, Vertical Jump Test (VJT) Tendo peak power, maximal heart rate (HRmax), living area, right shoulder external rotation flexibility (RPSERT), horizontal jump test distance (HJT) and right Modified Thomas iliopsoas flexibility (RMTIT) served as significant predictors (p ≤ 0.05) of the indirect, 20m-SRT-derived 2max VO values of a cohort of adolescents. However, only 10-metre speed served as a major contributor (53.5%) to the indirect 2max VO values of the adolescents. The rest of the variables contributed 17.4% to the overall variance in 2maxVO values. Overall, the last-mentioned anthropometric, physical, motor performance and demographic variables were responsible for 70.5% of the variance in the 2max VO values of the adolescents. Cross-validations also revealed that both models are valid for predicting the 20-m SRT-derived indirect 2max VO values of this cohort of adolescents. The 20-m SRT validity study showed that a significant difference (p ≤ 0.05) existed between the predicted indirect 2max VO results (42.06 ± 4.53 ml/kg/min) as obtained from the 20-m SRT booklet and the direct 2max VO results (50.62 ± 7.11 ml/kg/min) as obtained from the gas analysis. Furthermore, significant differences (p ≤ 0.05) were observed between the direct and indirectly predicted 2 VO values at levels 1-9 of the 20-m SRT compared to no significant differences at levels 10 and 11 of the 20-m SRT. In conclusion, to the researchers’ knowledge, this is the first study to develop valid 2max VO prediction functions from the use of several anthropometric measurements, physical and motor performance test results and demographic information for a group of South African adolescents. Furthermore, this is also the first study to reveal that the 20-m SRT is not a valid test for the accurate prediction of 2 VO and 2max VO of a cohort of adolescent South African boys. The results of this study may possibly allow practitioners in the field of Human Movement Science to more accurately screen the indirect 2max VO values of adolescents by making use of easily obtainable measures and information, instead of the predicted 2max VO values of the 20-m SRTen_US
dc.language.isoenen_US
dc.subjectAdolescentsen_US
dc.subjectAerobicen_US
dc.subjectVO2maxen_US
dc.subject20-m SRTen_US
dc.subjectAnthropometricen_US
dc.subjectPhysicalen_US
dc.subjectMotoren_US
dc.subjectDirecten_US
dc.subjectIndirecten_US
dc.subjectGenderen_US
dc.titleDeveloping VO2max prediction functions from the physical, motor performance and anthropometric components of a cohort of adolescents : the PAHL-studyen
dc.typeThesisen_US
dc.description.thesistypeDoctoralen_US


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