Physical Activity Clinical Trial
— SAMPLE-PEOfficial title:
Efficacy of Skill Acquisition Methods Underpinning Pedagogy for LEarning in Physical Education (SAMPLE-PE) in Children Aged 5-6 Years
Verified date | August 2019 |
Source | Liverpool John Moores University |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
The Skill Acquisition Methods underpinning Pedagogy for LEarning in Physical Education (SAMPLE-PE) project aims to investigate the influence of different pedagogical approaches to teaching and learning in physical education (PE) on 5-6 year old children's health and development. Schools from deprived areas are invited to take part in the project and will be randomly assigned to either: (1) linear pedagogy PE curriculum programme, (2) nonlinear pedagogy PE curriculum programme or (3) carry on as normal. The linear and nonlinear pedagogy PE programmes will be underpinned by different and contrasting theories of skill acquisition and are delivered by trained coaches over 15 weeks. Children will be measured to assess their physical, psychological, cognitive, and emotional health and development, and their physical activity levels at the start of the study, immediately after the 15 week PE programme, and again after 12 months. It is expected that children taking part in the linear and nonlinear PE programmes will demonstrate greater physical development than children attending schools that carry on as normal. Furthermore, it is also anticipated that children taking part in the nonlinear PE programme will show greater gains in psychological, cognitive and emotional outcomes than the linear and usual practice programmes.
Status | Completed |
Enrollment | 361 |
Est. completion date | August 13, 2019 |
Est. primary completion date | March 30, 2019 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 5 Years to 6 Years |
Eligibility |
Inclusion Criteria: - Children aged 5-6 years attending Liverpool primary schools. Exclusion Criteria: - From the details given in participant's Child Medical Form, any child diagnosed with health or co-ordination issues that could affect motor competency will be excluded from analyses. |
Country | Name | City | State |
---|---|---|---|
United Kingdom | Liverpool John Moores University | Liverpool | Merseyside |
Lead Sponsor | Collaborator |
---|---|
Liverpool John Moores University | Newcastle University, University of Münster, University of Otago, University of Rome Foro Italico, University of Strathclyde, Victoria University |
United Kingdom,
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* Note: There are 18 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Change from baseline motor competence level (Locomotor and Object-Control Skills) at 5 and 12 months | Fundamental motor skill competency in locomotor and object control skills will be assessed using the Test of Gross Motor Development-3 (TGMD-3: Ulrich, 2013; Webster and Ulrich, 2017). | Baseline (month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Primary | Change from baseline stability skill level at 5 and 12 months | Fundamental motor skill competency in stability category skills will be assessed using the Test of Stability skills (Rudd et al., 2015). | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Primary | Change from baseline motor creativity level at 5 and 12 months | Motor creativity will be assessed using the Divergent Movement Ability Assessment (Cleland and Gallahue, 1993) | Baseline (month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Physical Activity at 5 and 12 Months | Physical Activity will be assessed by wrist-worn accelerometers (ActiGraph GT9X+) on their non-dominant wrist continuously for seven days. Parents are asked to keep a diary on when the monitor was has been worn. | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Perceived Physical Competence at 5 and 12 Months | Perceived Physical competence will be assessed using the corresponding subscale within The Pictorial Scale of Perceived Competence and Social Acceptance for Young Children (Harter & Pike, 1984). The Physical Competence subscale includes items 3, 7, 11, 15, 19, and 23 from the Pictorial Scale. Each item is scored on a 4-point scale, where 4 represents the highest degree of perceived competence. The subscale score is computed by adding values of child responses and ranges from 6 to 24. | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Perceived Movement Skill Competence at 5 and 12 Months | Perceived Skill Competence will be assessed by the Pictorial Scale of Perceived Movement Skill Competence for Young Children (Barnett et al., 2015). The Scale consists of twelve items with two subscales of six items each representing "Locomotor Skill Perceived Competence" and "Object-Control Skill Perceived Competence", respectively. Each item is scored on a 4-point scale, where 4 represents the highest degree of perceived competence. Subscale scores are computed by adding values of child responses and range from 6 to 24 (higher values indicate higher perceived competence). All 12 items are summed to generate the Perceived Movement Skill Competence scale score, which ranges from 12 to 48 (higher values indicate higher perceived competence). |
Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Motivation at 5 months | Self Determined Motivation in children will be assessed by a write, draw, show and tell, method, adapted from Noonan et al. (2017). | Baseline (Month 0) and after the intervention (approximately 5 months post-baseline) | |
Secondary | Change from Baseline Executive Functions at 5 and 12 Months | Executive functions will be assessed by three activities from the National Institute for Health toolbox (Weintraub et al., 2013; Zelazo & Bauer, 2013) | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Self-Regulation at 5 and 12 Months (Strengths and Difficulties Questionnaire) | Self-Regulation will be assessed by the Strength and Difficulties Questionnaire (Goodman, 1997; Stone et al., 2010), as completed by the child's class teacher. The Strength and Difficulties Questionnaire consists of 25 items within 5 subscales (emotional, conduct, hyperactivity, peer and prosocial). There are five items on each subscale with each item scored 0, 1 or 2. Scores therefore range from 0-10 for each subscale, with 10 indicating higher levels of difficulties (emotional, conduct, hyperactivity, peer subscales) or strengths (prosocial subscale) and 0 indicating lower levels. A total difficulties score is also generated by summing scores from all the scales except the prosocial scale, with scores ranging from 0 (low) to 40 (high). |
Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Change from Baseline Self-Regulation at 5 and 12 Months (Response to Challenge Scale) | Self-Regulation will be assessed by the Response to Challenge Scale (RCS: Lakes, 2012; 2013) The RCS is an observer-rated measure of children's responses to a physical challenge and includes 16 bipolar adjectives (e.g., Vulnerable—Invincible) rated on 7-point scales (scored 1-7). There are three subscales assessed: "Cognitive" (6 items, scoring range from 6 to 42), "Affective" (7 items, scoring range from 7 to 49) and "Physical/Motor" (3 items, scoring range from 3 to 21). Negatively worded items are reversed prior to aggregation, so that possible scores on all subscales ranged from 1 to 7, with higher scores indicating greater self-regulation. |
Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Body Mass Index | Stature (to the nearest 0.1cm) and mass (to the nearest 0.1kg) will be assessed to calculate and report BMI in kg/m^2 | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Maturation | Stature, mass, and sitting height will be combined to determine maturation status using an age and sex specific maturity offset calculation (Mirwald et al., 2002). | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) | |
Secondary | Waist girth | Waist girth (nearest 0.1cm) will be assessed as marker of central adiposity | Baseline (Month 0), after the intervention (approximately 5 months post-baseline) and follow-up (approximately 12 month post-baseline) |
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