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The effect of an enhanced quality physical education programme on physical activity and fitness among grade 7-learners in Potchefstroom / Haili TianTian, Haili January 2015 (has links)
The low physical activity (PA) levels of children have become a national public health
concern in South Africa. Moreover, the quality of Physical Education (PE) in South African
schools has been compromised by challenges resulting from the subject’s reintroduction after
a long absence from the school curriculum. Up to date no study has investigated the effects of
a quality PE programme, within the prescriptions of the South African Curriculum and
Assessment Policy Statement (CAPS), on the PA and fitness levels of twelve to thirteen years
old South African children. Furthermore, no PA measuring instrument exists that has been
validated specifically for South African children of this age group, with which to conduct
such a study. The objectives of this study were therefore, firstly, to validate a standardised PA
questionnaire for Grade 7 learners in a South African context; secondly, to evaluate the
effects of an enhanced quality PE programme presented by well-trained teachers, on the PA
levels, and thirdly on the physical and motor fitness of Grade 7 learners in Potchefstroom,
South Africa.
For the first objective, 108 schoolchildren aged twelve to thirteen years (boys, n=45; girls,
n=63) from two primary schools in Potchefstroom participated in this study to validate the
Children’s Leisure Activities Study Survey (CLASS) for children in a South African context.
Test-retest reliability of the questionnaire was examined with an interval of 3 weeks, while
validity was assessed by comparing measurements of the reported minutes in PAs from
questionnaire responses with ten physical fitness parameters using the Eurofit test battery.
Data analysis included Cronbach’s alpha coefficients, paired t-test and intra-class correlation
coefficients (ICC), and Spearman correlation coefficients (r). The results showed substantial
internal consistency and significant intra-class correlations estimates for all intensities of PA
and sedentary time (ST). Non-significant differences were found in the means of test and
retest measurements. Aerobic fitness was significantly correlated with all intensities of PA
and ST, and the results of several of the other fitness tests had significant associations with
vigorous PA. For the fulfillment of the second and the third objectives, 110 Grade 7 learners (experimental
school, n = 40; control schools, n = 70) were studied. The twelve-week PE intervention
programme was presented according to the prescriptions of the CAPS which allocates one
hour per week to PE, but included 5 quality-enhancing components namely well-trained
teachers, homework activities, a reward system, improvised apparatus and the monitoring of
activity intensity. Data was collected by means of the validated CLASS questionnaire,
anthropometric measurements as well as physical and motor fitness tests, by means of the
Eurofit test battery. Data analysis included Kruskal-Wallis and Wilcoxon signed-rank tests, a
series of analyses of covariance (ANCOVA), Tukey’s post hoc analysis, and interpreting
effect sizes for practical significance.
The results showed practically and statistically significant increases in moderate PA, vigorous
PA, and total PA as well as decreases in sedentary behaviours. Furthermore, the learners’
data on physical and motor fitness levels showed statistically significant improvements
among most of the experimental groups with regard to six of the ten fitness parameters.
Based on these results, it can be concluded that the enhanced quality PE programme is
effective in improving the PA, physical and motor fitness levels of South African primary
school children. Therefore it is recommended that PE programmes in South Africa include
the quality-enhancing components used in this intervention programme. Moreover, the
modified CLASS questionnaire is a valid and reliable measure of PA among South African
Grade 7 schoolchildren. / PhD (Human Movement Science), North-West University, Potchefstroom Campus, 2015
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The effect of an enhanced quality physical education programme on physical activity and fitness among grade 7-learners in Potchefstroom / Haili TianTian, Haili January 2015 (has links)
The low physical activity (PA) levels of children have become a national public health
concern in South Africa. Moreover, the quality of Physical Education (PE) in South African
schools has been compromised by challenges resulting from the subject’s reintroduction after
a long absence from the school curriculum. Up to date no study has investigated the effects of
a quality PE programme, within the prescriptions of the South African Curriculum and
Assessment Policy Statement (CAPS), on the PA and fitness levels of twelve to thirteen years
old South African children. Furthermore, no PA measuring instrument exists that has been
validated specifically for South African children of this age group, with which to conduct
such a study. The objectives of this study were therefore, firstly, to validate a standardised PA
questionnaire for Grade 7 learners in a South African context; secondly, to evaluate the
effects of an enhanced quality PE programme presented by well-trained teachers, on the PA
levels, and thirdly on the physical and motor fitness of Grade 7 learners in Potchefstroom,
South Africa.
For the first objective, 108 schoolchildren aged twelve to thirteen years (boys, n=45; girls,
n=63) from two primary schools in Potchefstroom participated in this study to validate the
Children’s Leisure Activities Study Survey (CLASS) for children in a South African context.
Test-retest reliability of the questionnaire was examined with an interval of 3 weeks, while
validity was assessed by comparing measurements of the reported minutes in PAs from
questionnaire responses with ten physical fitness parameters using the Eurofit test battery.
Data analysis included Cronbach’s alpha coefficients, paired t-test and intra-class correlation
coefficients (ICC), and Spearman correlation coefficients (r). The results showed substantial
internal consistency and significant intra-class correlations estimates for all intensities of PA
and sedentary time (ST). Non-significant differences were found in the means of test and
retest measurements. Aerobic fitness was significantly correlated with all intensities of PA
and ST, and the results of several of the other fitness tests had significant associations with
vigorous PA. For the fulfillment of the second and the third objectives, 110 Grade 7 learners (experimental
school, n = 40; control schools, n = 70) were studied. The twelve-week PE intervention
programme was presented according to the prescriptions of the CAPS which allocates one
hour per week to PE, but included 5 quality-enhancing components namely well-trained
teachers, homework activities, a reward system, improvised apparatus and the monitoring of
activity intensity. Data was collected by means of the validated CLASS questionnaire,
anthropometric measurements as well as physical and motor fitness tests, by means of the
Eurofit test battery. Data analysis included Kruskal-Wallis and Wilcoxon signed-rank tests, a
series of analyses of covariance (ANCOVA), Tukey’s post hoc analysis, and interpreting
effect sizes for practical significance.
The results showed practically and statistically significant increases in moderate PA, vigorous
PA, and total PA as well as decreases in sedentary behaviours. Furthermore, the learners’
data on physical and motor fitness levels showed statistically significant improvements
among most of the experimental groups with regard to six of the ten fitness parameters.
Based on these results, it can be concluded that the enhanced quality PE programme is
effective in improving the PA, physical and motor fitness levels of South African primary
school children. Therefore it is recommended that PE programmes in South Africa include
the quality-enhancing components used in this intervention programme. Moreover, the
modified CLASS questionnaire is a valid and reliable measure of PA among South African
Grade 7 schoolchildren. / PhD (Human Movement Science), North-West University, Potchefstroom Campus, 2015
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Die effek van die groeiversnellingsfase op antropometriese-, motoriese- en fisieke veranderinge by seuns tydens middeladolessensie / Barend Paul GerberGerber, Barend Paul January 2013 (has links)
During the growth spurt (GS) which forms part of the mid-adolescence period of boys (13-17
years), considerable changes take place in the body composition of boys. It is therefore an
unstable period where imbalances in body proportions (muscle mass, fat mass, neurological
development) occur, that might have an effect on sport performance. It is also accompanied
by changes in physical and motor fitness. The study firstly aimed to determine
anthropometric growth changes in stature, arm span, mass, sitting height and sitting height
ratio during mid-adolescence over a period of three years. The study secondly aimed to
investigate the developmental changes in physical fitness (muscle strength, aerobic
endurance) and motor fitness abilities (speed, agility, hand- eye coordination, explosive
power) during the mid-adolescence phase of boys and finally to investigate possible
relationships between anthropometric and physical and motor fitness abilities over the course
of three years.
A convenience sample consisting of all the grade 8 learners (n=182) of a quintile 5 high
school in Potchefstroom in the North-West province of South Africa was selected to
participate in a longitudinal growth research project over a three year period. Only the boys,
with a mean age of 13.58 years in grade 8, of whom 95.4 % were white, 2.3% black and 2.3%
colored boys, were part of the study. In 2010, 87 boys had complete measurements, while the
final group in 2012 with completed follow-up measurements, were 73 boys.
The physical and motor fitness components were measured according to the Australian Sport
Search Program consisting of 10 tests (4 anthropometrical tests, 5 motor fitness tests, 1
physical fitness test). The cricket ball throwing test was added as an additional test. The
anthropometrical measurements were made using the protocol of ISAK, while sitting height was measured according to the Canadian Sports for Life protocol. Sitting height ratio was
calculated according to the formula (sitting height/stature x 100).
The data was processed by “Statistica for Windows” Statsoft-computer program package.
Descriptive statistics that included means (M), standard deviations (SD) and minimum and
maximum values were used. A repeated measures over time analysis of variance (ANOVA)
with a Bonferonni adjustment was done to analyze the differences over a period of 3 years
within the group for all variables, where p<0.05 indicates a statistically significant difference.
A partial correlation analysis was used to determine correlations between variables. Practical
significance of correlations was determined according to Cohen’s d-value (0.1=small,
0.3=medium, 0.5=large).
The results showed that during mid-adolescence in the period 13.58-14.58 years, boys grow
considerably in stature, body mass, arm span and sitting height with accompanying
improvement in motor and physical fitness abilities while sitting height ratio showed the
greatest increase from 14.58-15.57 years. Stature, mass and arm span showed a parallel
development up to 15 years after which further development leveled off, while mass increase
showed no leveling off. Speed, agility, coordination and isometric-dynamic shoulder strength
(basketball throw) also showed the biggest and significant improvement from 13.58-15.57
years, while explosive leg power and upper body arm and shoulder strength (vertical jump,
cricket ball throw) showed the biggest and significant improvements during the period from
14.58 to 15.57 years. Significant correlations up to r=0.74; p<0.05, were found between
changes in physical and motor fitness abilities and anthropometric variables, although the
correlations become smaller over the 3-year period. Hand-eye coordination showed no
correlation with any anthropometrical changes, while upper body strength correlated with all
the anthropometrical measurements except sitting height ratio throughout the three years.
It was concluded that the most accelerated growth and development took place from 13.58-
15.57 years in boys when they are in their first high school year and which falls within the
mid-adolescent period (13-15 years). Furthermore, clear relationships were found between
anthropometric, motor- and physical fitness variables. This knowledge of the rate of growth
and motor fitness development and the relationships between these variables during the midadolescence
period can provide a better understanding of changes that boys underwent during
the mid-adolescent period, and can help monitoring the level of physical maturity in
adolescents in order to develop training, competition and rehabilitation programs according to their developmental and not their chronological age. This cannot only prevent injuries, but
also prevent early burnout in sport. / MA (Sport Science), North-West University, Potchefstroom Campus, 2014
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Die effek van die groeiversnellingsfase op antropometriese-, motoriese- en fisieke veranderinge by seuns tydens middeladolessensie / Barend Paul GerberGerber, Barend Paul January 2013 (has links)
During the growth spurt (GS) which forms part of the mid-adolescence period of boys (13-17
years), considerable changes take place in the body composition of boys. It is therefore an
unstable period where imbalances in body proportions (muscle mass, fat mass, neurological
development) occur, that might have an effect on sport performance. It is also accompanied
by changes in physical and motor fitness. The study firstly aimed to determine
anthropometric growth changes in stature, arm span, mass, sitting height and sitting height
ratio during mid-adolescence over a period of three years. The study secondly aimed to
investigate the developmental changes in physical fitness (muscle strength, aerobic
endurance) and motor fitness abilities (speed, agility, hand- eye coordination, explosive
power) during the mid-adolescence phase of boys and finally to investigate possible
relationships between anthropometric and physical and motor fitness abilities over the course
of three years.
A convenience sample consisting of all the grade 8 learners (n=182) of a quintile 5 high
school in Potchefstroom in the North-West province of South Africa was selected to
participate in a longitudinal growth research project over a three year period. Only the boys,
with a mean age of 13.58 years in grade 8, of whom 95.4 % were white, 2.3% black and 2.3%
colored boys, were part of the study. In 2010, 87 boys had complete measurements, while the
final group in 2012 with completed follow-up measurements, were 73 boys.
The physical and motor fitness components were measured according to the Australian Sport
Search Program consisting of 10 tests (4 anthropometrical tests, 5 motor fitness tests, 1
physical fitness test). The cricket ball throwing test was added as an additional test. The
anthropometrical measurements were made using the protocol of ISAK, while sitting height was measured according to the Canadian Sports for Life protocol. Sitting height ratio was
calculated according to the formula (sitting height/stature x 100).
The data was processed by “Statistica for Windows” Statsoft-computer program package.
Descriptive statistics that included means (M), standard deviations (SD) and minimum and
maximum values were used. A repeated measures over time analysis of variance (ANOVA)
with a Bonferonni adjustment was done to analyze the differences over a period of 3 years
within the group for all variables, where p<0.05 indicates a statistically significant difference.
A partial correlation analysis was used to determine correlations between variables. Practical
significance of correlations was determined according to Cohen’s d-value (0.1=small,
0.3=medium, 0.5=large).
The results showed that during mid-adolescence in the period 13.58-14.58 years, boys grow
considerably in stature, body mass, arm span and sitting height with accompanying
improvement in motor and physical fitness abilities while sitting height ratio showed the
greatest increase from 14.58-15.57 years. Stature, mass and arm span showed a parallel
development up to 15 years after which further development leveled off, while mass increase
showed no leveling off. Speed, agility, coordination and isometric-dynamic shoulder strength
(basketball throw) also showed the biggest and significant improvement from 13.58-15.57
years, while explosive leg power and upper body arm and shoulder strength (vertical jump,
cricket ball throw) showed the biggest and significant improvements during the period from
14.58 to 15.57 years. Significant correlations up to r=0.74; p<0.05, were found between
changes in physical and motor fitness abilities and anthropometric variables, although the
correlations become smaller over the 3-year period. Hand-eye coordination showed no
correlation with any anthropometrical changes, while upper body strength correlated with all
the anthropometrical measurements except sitting height ratio throughout the three years.
It was concluded that the most accelerated growth and development took place from 13.58-
15.57 years in boys when they are in their first high school year and which falls within the
mid-adolescent period (13-15 years). Furthermore, clear relationships were found between
anthropometric, motor- and physical fitness variables. This knowledge of the rate of growth
and motor fitness development and the relationships between these variables during the midadolescence
period can provide a better understanding of changes that boys underwent during
the mid-adolescent period, and can help monitoring the level of physical maturity in
adolescents in order to develop training, competition and rehabilitation programs according to their developmental and not their chronological age. This cannot only prevent injuries, but
also prevent early burnout in sport. / MA (Sport Science), North-West University, Potchefstroom Campus, 2014
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Obesiteit se verband met motoriese en fisieke ontwikkeling en die effek van 'n multidissiplinêre fisieke aktiwiteitsintervensie daarop by 10– tot 12–jarige kinders / Truter L.Truter, Leani January 2011 (has links)
The increasing prevalence of childhood obesity worldwide is viewed as a global epidemic (World Health Organization, 2010). It is associated with a variety of health problems as well as physical– (cardio–respiratory endurance, flexibility, muscular strength, muscular endurance, and body composition), and motor proficiency (fine manual control, manual coordination, body coordination, and strength–and–agility) (Asayama et al., 2003:644; Okely et al., 2004:242; Tokmakidis et al., 2006:870). As far as the South African context is concerned, there is little research examining these relationships and the effect of physical intervention there upon, in nine– to 12–year old children.
The first and second objectives of this study were to determine whether obesity would influence the physical– and/or the motor proficiency of nine– to 12–year–old South African children. The third and fourth objectives of this study were to determine the effect of a multidisciplinary intervention on the physical– and the motor proficiency of nine– to 12–year–old obese children.
For objectives one and two, a cross–sectional study was performed on 280 children (128 boys and 152 girls), with an average age of 10.6 years (±1.05). Anthropometric–, physical– and motor measurements were obtained by the 'Fitnessgram' (Meredith & Welk, 1999) and the 'Bruininks–Oseretsky Test of Motor Proficiency–II' (Bruininks & Bruininks, 2005). Body mass index (BMI) cut–off points were used to classify the children as normal, overweight, or obese (Cole et al., 2000). The data was analysed with regard to the above–mentioned objectives with the Statistica computer program, by means of descriptive statistics, Spearman rank correlations, and variance analyses.
The results show that the physical fitness variables, cardio–respiratory endurance and muscular strength, particularly leg muscular strength, showed significant decreases with an increase in BMI. A progressive, but insignificant, decrease was found in muscular endurance with an increase in BMI, while flexibility showed the weakest relationship to BMI. The motor variables strength–and–agility weakened significantly with an increase in BMI, while fine manual control, manual coordination, and body coordination showed the weakest relationships to BMI. Variance analysis showed further significant relationships among BMI, cardio–respiratory endurance, muscular strength, and running speed–and–agility (p<0.05). It can be concluded that health–promoting physical fitness and the motor proficiency of young South African children are negatively influenced by obesity and intervention strategies are recommended to promote the quality of life of such children.
For objectives three and four, an availability random sample of 37 experimental subjects, with an average age of 11 years (±0.99) was taken, where 20 subjects (seven boys and 13 girls) took part in a multidisciplinary intervention programme, and 17 subjects (six boys and 11 girls) formed part of a control group. Body composition, physical–, and motor proficiency were analysed by the 'Fitnessgram' (Meredith & Welk, 1999) and the 'Bruininks–Oseretsky Test of Motor Proficiency–II' (Bruininks & Bruininks, 2005) during baseline measurements, on completion of the intervention programme, and after a follow–up period of three months. The results, which were analysed with a repeated–measures analysis, Bonferroni–post–hoc analysis, and dependent and independent t–tests, show that the intervention programme brought about a significant change in all the body composition variables, excluding body height. Flexibility, muscular strength, and abdominal muscular endurance, as well as one of the four fine manual control test items (folding paper), two of the 12 body coordination test items (tapping feet and fingers - opposite sides synchronised, and standing on one leg on a line - eyes closed), and six of the seven strength and agility test items (shuttle run, stepping sideways over a balance beam, one–legged stationary hops, one–legged side hops, two–legged side hops, and sit–ups), showed significant differences from the control group on completion of the intervention programme. The results indicate that the intervention brought about differences in body composition and physical– and motor proficiency and also showed a sustainable effect over a period of three months on body fat percentage, subscapular skinfold and leg muscular strength. From this, it can be deduced that young obese children need sustained guidance to be able to maintain the lifestyle adaptations that are required by obesity interventions.
It can be concluded that the physical– and motor proficiency of children is negatively influenced by obesity, that a multidisciplinary intervention programme improves the body composition profile of obese children and has a positive effect on the physical– and the motor proficiency of obese nine– to 12–year old South African children, although the effect is not sustainable without ongoing, controlled intervention. / Thesis (Ph.D. (Kinderkinetics))--North-West University, Potchefstroom Campus, 2012.
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Obesiteit se verband met motoriese en fisieke ontwikkeling en die effek van 'n multidissiplinêre fisieke aktiwiteitsintervensie daarop by 10– tot 12–jarige kinders / Truter L.Truter, Leani January 2011 (has links)
The increasing prevalence of childhood obesity worldwide is viewed as a global epidemic (World Health Organization, 2010). It is associated with a variety of health problems as well as physical– (cardio–respiratory endurance, flexibility, muscular strength, muscular endurance, and body composition), and motor proficiency (fine manual control, manual coordination, body coordination, and strength–and–agility) (Asayama et al., 2003:644; Okely et al., 2004:242; Tokmakidis et al., 2006:870). As far as the South African context is concerned, there is little research examining these relationships and the effect of physical intervention there upon, in nine– to 12–year old children.
The first and second objectives of this study were to determine whether obesity would influence the physical– and/or the motor proficiency of nine– to 12–year–old South African children. The third and fourth objectives of this study were to determine the effect of a multidisciplinary intervention on the physical– and the motor proficiency of nine– to 12–year–old obese children.
For objectives one and two, a cross–sectional study was performed on 280 children (128 boys and 152 girls), with an average age of 10.6 years (±1.05). Anthropometric–, physical– and motor measurements were obtained by the 'Fitnessgram' (Meredith & Welk, 1999) and the 'Bruininks–Oseretsky Test of Motor Proficiency–II' (Bruininks & Bruininks, 2005). Body mass index (BMI) cut–off points were used to classify the children as normal, overweight, or obese (Cole et al., 2000). The data was analysed with regard to the above–mentioned objectives with the Statistica computer program, by means of descriptive statistics, Spearman rank correlations, and variance analyses.
The results show that the physical fitness variables, cardio–respiratory endurance and muscular strength, particularly leg muscular strength, showed significant decreases with an increase in BMI. A progressive, but insignificant, decrease was found in muscular endurance with an increase in BMI, while flexibility showed the weakest relationship to BMI. The motor variables strength–and–agility weakened significantly with an increase in BMI, while fine manual control, manual coordination, and body coordination showed the weakest relationships to BMI. Variance analysis showed further significant relationships among BMI, cardio–respiratory endurance, muscular strength, and running speed–and–agility (p<0.05). It can be concluded that health–promoting physical fitness and the motor proficiency of young South African children are negatively influenced by obesity and intervention strategies are recommended to promote the quality of life of such children.
For objectives three and four, an availability random sample of 37 experimental subjects, with an average age of 11 years (±0.99) was taken, where 20 subjects (seven boys and 13 girls) took part in a multidisciplinary intervention programme, and 17 subjects (six boys and 11 girls) formed part of a control group. Body composition, physical–, and motor proficiency were analysed by the 'Fitnessgram' (Meredith & Welk, 1999) and the 'Bruininks–Oseretsky Test of Motor Proficiency–II' (Bruininks & Bruininks, 2005) during baseline measurements, on completion of the intervention programme, and after a follow–up period of three months. The results, which were analysed with a repeated–measures analysis, Bonferroni–post–hoc analysis, and dependent and independent t–tests, show that the intervention programme brought about a significant change in all the body composition variables, excluding body height. Flexibility, muscular strength, and abdominal muscular endurance, as well as one of the four fine manual control test items (folding paper), two of the 12 body coordination test items (tapping feet and fingers - opposite sides synchronised, and standing on one leg on a line - eyes closed), and six of the seven strength and agility test items (shuttle run, stepping sideways over a balance beam, one–legged stationary hops, one–legged side hops, two–legged side hops, and sit–ups), showed significant differences from the control group on completion of the intervention programme. The results indicate that the intervention brought about differences in body composition and physical– and motor proficiency and also showed a sustainable effect over a period of three months on body fat percentage, subscapular skinfold and leg muscular strength. From this, it can be deduced that young obese children need sustained guidance to be able to maintain the lifestyle adaptations that are required by obesity interventions.
It can be concluded that the physical– and motor proficiency of children is negatively influenced by obesity, that a multidisciplinary intervention programme improves the body composition profile of obese children and has a positive effect on the physical– and the motor proficiency of obese nine– to 12–year old South African children, although the effect is not sustainable without ongoing, controlled intervention. / Thesis (Ph.D. (Kinderkinetics))--North-West University, Potchefstroom Campus, 2012.
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