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- Skeletal maturation, fundamental motor skills and motor coordination in children 7–10 yearsPublication . Freitas, Duarte Luís de; Lausen, Berthold; Maia, José António Ribeiro; Lefevre, Johan Aimé; Gouveia, Élvio Rúbio; Thomis, Martine Ann; Antunes, António Manuel; Claessens, Albrecht Leo; Beunen, Gaston Prudence; Malina, Robert M.
- Short-term secular change in height, body mass and Tanner-Whitehouse 3 skeletal maturity of Madeira youth, PortugalPublication . Freitas, Duarte Luís de; Malina, Robert M.; Maia, José António Ribeiro; Lefevre, Johan Aimé; Stasinopoulos, Mikis; Gouveia, Élvio; Claessens, Albrecht Leo; Thomis, Martine Ann; Lausen, BertholdSecular trends in height and weight are reasonably well documented in Europe. Corresponding observations for skeletal maturation are lacking. Aim: To assess secular trends in height, body mass and skeletal maturity of Portuguese children and adolescents and to provide updated reference values for skeletal maturity scores (SMSs). Subjects and methods: Data for 2856 children and adolescents of 4–17 years, 1412 boys and 1444 girls, from The ‘Madeira Growth Study’ (MGS; 1996–1998) and from the‘Healthy Growth of Madeira Children Study’ (CRES; 2006) were used. Height and body mass were measured. Skeletal maturity was assessed with the Tanner-Whitehouse 2 and 3 methods. Results: Children from CRES were taller and heavier than peers from MGS. Differences in height reached 5.8cm in boys and 5.5cm in girls. RUS SMSs did not differ consistently between surveys boys, while higher RUS scores were observed in CRES girls. Adult RUS SMSs for MGS and CRES combined were attained at 15.8 years in boys and 14.8 years in girls. Corresponding ages for adult Carpal SMSs were 14.4 and 14.0, respectively. Conclusion: The short-term trends for height and mass were not entirely consistent with the trends in RUS and Carpal SMSs and SAs.
- Skeletal maturation, body size, and motor coordination in youth 11-14 yearsPublication . Freitas, Duarte Luís; Lausen, Berthold; Maia, José António Ribeiro; Gouveia, Élvio Rúbio; Thomis, Martine; Lefevre, Johan; Silva, Ricardo Dinis; Malina, Robert M.Purpose: The objective of this study is to estimate the relative contribution of biological maturation to variance in the motor coordination (MC) among youth and to explore gender differences in the associations. Methods: Skeletal maturation (Tanner-Whitehouse 3), stature, body mass, and MC (Ko¨rperkoordinationstest fu¨rKinder) were assessed in 613 youths, 284 boys and 329 girls 11–14 yr of age. Standardized residuals of skeletal age on chronological age were used as the estimate of skeletal maturity status independent of chronological age. Hierarchical multiple regression analyses were used to analyse associations between skeletal maturity status and MC. Results: Skeletal maturity status by itself, i.e., standardized residuals of skeletal age on chronological age (step 3) explained a maximum of 8.1% of the variance in MC in boys ($R32 in the range of 0.0%–8.1%) and 2.8% of the variance in girls ($R32 in the range of 0.0%–2.8%), after controlling for stature, body mass and interactions of the standardized residuals of skeletal age on chronological age with stature and body mass. Corresponding percentages for the interactions of the standardized residuals of skeletal age and stature and body mass, after adjusting for stature and body mass (step 2) were 8.7% in boys ($R22 in the range of 0.3%–8.7%) and 7.1% in girls ($R22 in the range of 0.1%–7.1%). Chow tests suggested structural changes in A-coefficients in the four MC tests among boys and girls, 12–13 yr. Conclusion: The percentage of variance in the four MC tests explained by skeletal maturation was relatively small, but the relationships differed between boys and girls. By inference, other factors, e.g., neuromuscular maturation, specific instruction and practice, sport participation, and others may influence MC at these ages.