RESUMO
The development of fundamental movement skills (FMS) has been associated with children's general health, and, while there is evidence to suggest that age, gender, physical activity, and socioeconomic status relate to FMS, the relationship of ethnicity and language barriers to FMS competence has been underexplored. These factors may be of particular interest for South Asian (SA) children who have lower physical activity and increased risk of metabolic disease. This cross-sectional study examined ethnic and language differences in FMS among 218 ethnically diverse five-year-old children (61 White ethnic background, 91 SA, 29 Black ethnic background, and 37 other), some with English as a native language ( n = 90) and some with English as an additional language ( n = 75), all recruited from within central England. Each child was assessed performing five locomotor skills (run, gallop, hop, leap, and jump) and six object skills (catch, kick, bounce, strike, underarm roll, and overarm throw) on the Test of Gross Motor Development-2 . A 2 (gender) × 4 (ethnicity) factor analysis of covariance assessed differences in the locomotor and object composite scores and total FMS score, while controlling for body mass index. A two-factor analysis of covariance assessed native language differences in their impact on FMS. We found ethnic and gender differences in FMS ( p < .05) in that SA children had poorer total FMS and locomotor scores than children of either White or Black ethnic backgrounds ( p = .004, p = .001, and p = .008, p = .002, respectively). Girls had poorer total ( p = .001) and locomotor FMS skills ( p < .001). Children with English as an additional language had similar FMS scores compared to children whose native language was English ( p > .05). The findings of low FMS competency in SA children and girls, irrespective of body mass index, suggest that developmentally appropriate interventions targeting SA children and girls are needed in early years. We discuss some unclear factors related to these differences.
Assuntos
Desenvolvimento Infantil/fisiologia , Destreza Motora/fisiologia , Movimento/fisiologia , Índice de Massa Corporal , Pré-Escolar , Estudos Transversais , Inglaterra , Exercício Físico , Feminino , Humanos , Masculino , Fatores SexuaisRESUMO
This study compared the mastery of fundamental motor skills (FMS) of males and females in early-childhood (four to five years, n = 170) and in middle-childhood (nine to ten years, n = 109) who attend schools in deprived and ethnically diverse areas of England. Process FMS (object control and locomotor skills) were observed using the Test of Gross Motor Development-2. Sprint speed over 10 meters and jump distance assessments were conducted using light gates and tape measures. A gender (male vs. female) by year-group (early-childhood vs. middle-childhood) interaction was shown for the process and product-oriented FMS measurements. Middle-childhood males and females demonstrated significantly greater FMS mastery, as compared to early-childhood (p < 0.05). Furthermore, middle-childhood males demonstrated significantly greater mastery of total FMS, object control skills, and product-oriented assessments, in comparison to females (p < 0.05). Children of Black and White ethnic groups achieved significantly greater mastery of locomotor skills, compared to Asian children, though this did not differ by year-group (p < 0.05). The results suggest that FMS development in deprived and ethnically diverse areas in England varies between genders during middle-childhood and ethnicity. Thus, interventions addressing the lack of FMS mastery achievement, shown in middle-childhood girls and children from Asian ethnic backgrounds, may be pivotal. Further exploration of the role of ethnicity would provide greater clarity in approaching interventions to improve FMS.
RESUMO
This study examined how supine-to-stand (STS) performance is related to process and product assessment of motor competence (MC) in children. Ninety-one children aged 5â»9 years were assessed for process and product MC (10 m running speed and standing long jump) as well as process and product measures of STS. Tertiles were created for STS process and STS product scores to create 3 groups reflecting low, medium, and high STS competency. ANCOVA analysis, controlling for age, for process STS, indicated that process MC was significantly higher in children, classified as medium STS (p = 0.048) and high STS (p = 0.011) competence, and that 10 m run speed was slower for low STS compared to medium (p = 0.019) and high STS (p = 0.004). For product STS tertiles, process MC was significantly higher for children in the lowest (fastest) STS tertile compared to those in the medium highest (slowest) tertile (p = 0.01).