Comparative study between school and motor performance in children aged 6 to 11 years according to teachers’ perceptions

Vilella-Cortez, Glória Maria; Ferreira, Heloisa Helena Marrara; Bella, Geruza Perlato

doi:10.1590/1980-5918.032.AO12

Abstract

Introduction:

Motor skills are enlarged during schooling age, with possible relation between motor and school performance.

Objective:

Compare motor skills of children with good and poor school performance, according to the teacher’s perception in the classroom.

Method:

School children aged 6 to 11 years were divided into two groups; poor school performance (PSP) and good school performance (GSP) and evaluated using the Motor Development Scale (MDS). The chronological age, general motor age and the motor quotient of each area evaluated were compared between the groups using the Mann-Whitney Test. The Chi-square test was used to associate the motor performance classification and the school performance.

Results:

Chronological age was similar between groups, although the general motor age was smaller in the PSP. The general motor quotient and the motor quotients in the areas of body scheme, spatial and temporal organization were significantly smaller in PSP. Most children were classified by the MDS as Low Normal or Medium Normal motor skills in both groups; however in the GSP, 27.5% of the children had a High Normal or Superior motor development and only 2.5% were classified as Very Inferior or Inferior. In the PSP, 12.5% had a Very Inferior or Inferior performance and only 6.25% had a High Normal or Superior performance (p < 0.05 - chi-square test).

Conclusion:

Results show a direct connection between poor school performance and motor skill difficulties, which illustrates the relation between motor and cognitive skills.

Keywords:
Child Development; Learning; Motor Skills

Resumo

Introdução:

No período de escolarização ocorre aprimoramento e ampliação das habilidades motoras, com possível relação entre desenvolvimento motor e aprendizagem escolar.

Objetivo:

Avaliar e comparar habilidades motoras de crianças com baixo e alto desempenho escolar, segundo percepção do professor em sala de aula.

Método:

Participaram escolares entre 6 e 11 anos, divididos em GBD (baixo desempenho escolar) e GAD (alto desempenho escolar), avaliados através da Escala de Desenvolvimento Motor (EDM). As médias da idade cronológica, idade motora geral e os quocientes motores de cada um dos domínios avaliados pela EDM foram comparados entre os grupos através do Teste Mann-Whitney. O Teste Qui-quadrado foi utilizado para associar a classificação do desempenho motor e o desempenho acadêmico.

Resultados:

A média da idade cronológica foi semelhante entre os grupos, entretanto a média da idade motora geral foi menor no GBD. O quociente motor geral, assim como os quocientes motores: esquema corporal, organização espacial, linguagem e organização temporal foram significativamente menores no GBD. Em ambos os grupos, a maioria dos escolares foram classificados pela EDM como apresentando desempenho motor Normal Baixo ou Normal Médio, entretanto, no GAD, 27,5% dos escolares apresentaram desempenho motor Normal Alto ou Superior e apenas 2,5% foram classificadas como Muito Inferior ou Inferior. No GBD, 12,5% apresentaram desempenho Muito Inferior ou Inferior e apenas 6,25% desempenho Normal Alto ou Superior (p < 0,05 - teste qui-quadrado).

Conclusão:

Os resultados direcionam para uma relação direta entre baixo desempenho escolar e dificuldade nas habilidades motora, ilustrando a relação entre o desempenho motor e cognitivo.

Palavras-chave:
Desenvolvimento Infantil; Aprendizagem; Destreza Motora

Resumen

Introducción:

En el período de escolarización ocurre ampliación de las habilidades motoras, con posible relación entre el desarrollo motor y el aprendizaje escolar.

Objetivo:

Comparar habilidades motoras de niños con bajo y alto desempeño escolar, según la percepción de los profesores.

Método:

Participaron escolares entre 6 y 11 años, separados en GBD (bajo desempeño escolar) y GAD (alto desempeño escolar), evaluados a través de la Escala de Desarrollo Motor (EDM). La edad cronológica, la edad motora general y los cocientes motores se compararon entre los grupos a través del Test Mann-Whitney. El Teste Qui-cuadrado fue utilizado para asociar la clasificación del desempeño motor por la EDM y el desempeño académico.

Resultados:

La edad cronológica fue similar entre los grupos, sin embargo la edad motora general fue menor en el GBD. El cociente motor general, así como los coeficientes motores en los dominios esquema corporal, organización espacial, lenguaje y organización temporal, fueron significativamente menores en el GBD. En ambos grupos, la mayoría de los escolares fueron clasificados como presentado desempeño motor Normal Bajo o Normal Medio, sin embargo, en el GAD, el 27,5% de los escolares presentaron desempeño motor Normal Alto o Superior y apenas el 2,5% fueron clasificadas como Muy Inferior o Inferior. En el GBD, el 12,5% presentó un rendimiento Muy Inferior o Inferior y sólo 6,25% de rendimiento Normal Alto o Superior (p < 0,05 - prueba qui-cuadrado).

Conclusión:

Los resultados se dirigen para una relación directa entre el bajo desempeño escolar y la dificultad en las habilidades motrices.

Palabras clave:
Desarrollo Infantil; Aprendizaje; Destreza Motora

Introduction

Childhood is a phase of life when intense motor development occurs, including abilities, such as movement - gross motor coordination -, which is developed in the first years of life, and the manipulative skills, or fine motor coordination, which is improved later on. The first couple of years in elementary school coincide with important achievements in the children’s neurological development, such as the gradual myelinization of association areas; lateralization of spatial perception, improvement of the reticular formation and hippocampus functioning, and beginning of the final phase of maturation of the prefrontal cortex ¹1. Bee H, Boyd D. A criança em desenvolvimento. Porto Alegre: Artmed; 2011.. During this phase, the growth is stable and slow, which allows the children to adapt to the changes in their own bodies ²2. Gallahue DL, Ozmun JC, Goodway JD. Compreendendo o desenvolvimento motor: bebês, crianças, adolescentes e adultos. Porto Alegre: AMGH; 2013.. Several authors ¹1. Bee H, Boyd D. A criança em desenvolvimento. Porto Alegre: Artmed; 2011.^{)- (}⁴4. Suehiro ACB, Santos AAA, Rueda FJM. Desenvolvimento perceptomotor e escrita em crianças do Ensino Fundamental. Psicol Esc Educ. 2015;19(2):369-76. have discussed the importance of the development of suitable motor strategies as a fundamental ability in the learning and cognitive development process and improvement of school skills, such as using scissors, drawing or writing. According to the authors, learning is a complex system of associations and depends on the joint action of several motor and cognitive abilities. Skills such as hearing and visual discrimination, spatial organization and orientation, temporal orientation, proprioception, laterality, fine motor coordination, and focused attention should be previously developed by children.

Children use their body and previously acquired abilities to explore and interact with the world. A disorganized body that does not integrate such abilities affects its own intellectual, social and affective-emotional development, which can also result in poor school learning, since some psychomotor abilities are essential to this process ⁵5. Oliveira GC. Avaliação psicomotora à luz da psicologia e da psicopedagogia. Rio de Janeiro: Vozes; 2014..

Some researchers have investigated possible causes for school difficulties, such as environmental causes ⁶6. Santos MM, Corsi C, Marques LAP, Rocha NACF. Comparação do desempenho motor e cognitivo de crianças frequentadoras de creches públicas e particulares. Braz J Phys Ther. 2013;17(6):579-87.^{), (}⁷7. Queiroz DR, Henrique RS, Feitoza AHP, Medeiros JNS, Souza CJF, Lima TJS, et al. Competência motora de pré-escolares: uma análise em crianças de escola pública e particular. Motri. 2016;12(3):56-63., family socio-economic position ⁸8. Costa EF, Cavalcante LIC, Silva ML, Guerreiro TBF. Association between family poverty and the neuropsychomotor development of children in the administrative districts of Belém. Fisioter Mov. 2016;29(3):533-42.^{)- (}¹⁰10. Miyabayashi LA, Pimentel GGA. Interações sociais e pro?ciência motora em escolares do ensino fundamental. Rev Bras Educ Fis Esporte. 2011;25(4):649-62., prematurity/previous diagnosis of neuropsychomotor development delay ¹¹11. Maggi EF, Magalhães LC, Campos AF, Bouzada MCF. Crianças pré- termo apresentam desempenho motor, cognitivo e funcional desfavorável em relação a neonatos a termo em idade pré-escolar. J Pediatr. 2014;90(4):377-83.^{)- (}¹³13. Dornelas LF, Magalhães LC. Desempenho funcional de escolares que receberam diagnóstico de atraso do desenvolvimento neuropsicomotor até os dois anos. Rev Paul Pediatr. 2016;34(1):78-85., and parents’ involvement in the schooling process ¹⁴14. Cia F, Barham EJ, Fontaine AMGV. Desempenho acadêmico e autoconceito de escolares: contribuições do envolvimento paterno. Estud Psicol. 2012;29(4):461-70..

Previous studies indicated a possible relation between poor school performance and motor development ¹⁵15. Silva J, Beltrame TS. Desempenho motor e dificuldades de aprendizagem em escolares com idades entre 7 e 10 anos. Motri. 2011;7(2):57-68.^{)- (}²⁰20. Ericsson I, Karlsson MK. Motor skills and school performance in children with daily physical education in school - a 9-year intervention study. Scand J Med Sci Sports. 2014;24(2):273-8., . Other studies showed strong statistical significance between academic learning and motor abilities ²¹21. Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.^{)- (}²³23. Rosa Neto F, Santos APM, Weiss SLI, Amaro KN. Análise da consistência interna dos testes de motricidade fina da EDM - Escala de Desenvolvimento Motor. Rev Educ Fis/UEM. 2010;21(2):191-7., and, according to Sumner, Pratt and Hill ²⁴24. Sumner E, Pratt ML, Hill EL. Examining the cognitive pro?le of children with Developmental Coordination Disorder. Res Dev Disabil. 2016;56:10-7., the literature suggests that cognitive and motor performance are intertwined and follow a similar development path.

Some researchers have also focused their studies on intelligence and executive functions in school performance and learning ²⁵25. Gonçalves HA, Viapiana VF, Sartori MS, Giacomoni CH, Stein LM, Fonseca RP. Funções executivas predizem o processamento de habilidades básicas de leitura, escrita e matemática? Rev Neuropsicol Latinoam. 2017;9(3):42-54.^{), (}²⁶26. Ribeiro DO, Freitas PM. Inteligência e desempenho escolar em crianças entre 6 e 11 anos. Psicol Pesqui. 2018;12(1):84-91.. Their findings suggest that the development of a good motor control might be key to the intellectual success, and that stimulation on motor control can prevent school difficulties ¹⁵15. Silva J, Beltrame TS. Desempenho motor e dificuldades de aprendizagem em escolares com idades entre 7 e 10 anos. Motri. 2011;7(2):57-68.^{), (}²¹21. Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.^{), (}²⁷27. Rosa Neto F, Santos APM, Xavier RFC, Amaro KN. A importância da avaliação motora em escolares: análise da confiabilidade da Escala de Desenvolvimento Motor. Rev Bras Cineantropom Desempenho Hum. 2010;12(6):422-7..

The most common learning difficulties found include reading, writing, calculation, paying attention and socializing. Some studies suggest children with learning disabilities have difficulties with integration, elaboration or motor expression, planning, processing (input, output), regulation, and movement control ²⁸28. Medina-Papst J, Marques I. Avaliação do desenvolvimento motor de crianças com dificuldades de aprendizagem. Rev Bras Cineantropom Desempenho Hum. 2010;12(1):36-42.. When such difficulties are not identified, they might interfere in the children’s social and emotional behavior ²²22. Fin G, Barreto DBM. Avaliação motora de crianças com indicadores de dificuldades no aprendizado escolar, no município de Fraiburgo, Santa Catarina. Unoesc & Cienc ACBS. 2010;1(1):5-12.^{), (}²⁸28. Medina-Papst J, Marques I. Avaliação do desenvolvimento motor de crianças com dificuldades de aprendizagem. Rev Bras Cineantropom Desempenho Hum. 2010;12(1):36-42.^{), (}²⁹29. Amaro KN, Jatobá L, Santos APM, Rosa Neto F. Desenvolvimento motor em escolares com dificuldades na aprendizagem. Movim & Percep. 2010;11(16):39-47.. Therefore, it is extremely important to identify such conditions and provide an early intervention with a large number of motor and psychosocial experiences to minimize the difficulties faced by these children. Therefore, it is vital to evaluate and follow the motor development of schoolchildren, considering their learning disabilities ²¹21. Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75..

Thus, based on the hypothesis raised in the reference gathered, which suggests a relation between motor and cognitive development in schoolchildren, this study compared motor skills of children attending private and public schools in Campinas - SP who presented high and low school performance, according to the perception and information provided by their teachers.

Methods

Participants

The population comprised schoolchildren aged 6 to 11 years, from the 1st to the 6th year of elementary school in an institution from the State Education System and two schools from the private system in Campinas - SP. The children were divided into two groups, namely, Poor School Performance Group (PSP), which included children with poor school performance and the Good School Performance Group (GSP), comprising children with good school performance appointed by their teachers. The sample collection was intentional, and, to form the groups, the teachers were asked to select six children based on classroom performance, three with the best performance and three with the worst classroom performance. The teachers reported that the parameters used to select the students were writing/reading and calculation disabilities, difficulty to concentrate and pay attention to the lesson, and behavior.

Children who had physical and/or neurological deficiency, sensorial deficit, behavior disorders, a background of intellectual deficiency or irregularity when filling in the Informed Consent Form (TCLE, Brazilian acronym) were excluded from the study.

Instrument

The instrument used to evaluate the motor development in schoolchildren was the Motor Development Scale (MDS) ³⁰30. Rosa Neto F. Manual de avaliação motora. 2nd ed. Porto Alegre: DIOESC; 2014., which evaluates the following areas of development: final and global motricity, balance, body scheme, spatial and temporal organization, and laterality. This instrument determines: General Motor Age (GMA), expressed in months and obtained through the mean of results from each of the motricity areas evaluated, and the Motor Quotient (MQ) in each of the areas evaluated by the scale, obtained by the motor age divided by the chronological age and multiplied by 100.

Motor development was also classified into 7 levels, considering the children’s chronological age: very inferior, inferior, low normal, medium normal, high normal, superior and very superior.

Procedures

The study was approved by the Research Ethics Committee of the University of Campinas (Unicamp), with CAAE number 18640913.2.0000.5404.

For the children to participate in the study, previous authorization was obtained from their parents or guardians through the TCLE. In the initial phase, the pedagogical coordination was asked not to reveal the children’s school performance before the evaluation, so the results would not be affected, characterizing thus a double-blinded study. The tests were fully applied by three previously trained examiners and took an average of 40 minutes. The children were informed about the procedures and received instructions regarding the possibility of interrupting the test at any time, if they thought it was necessary. A report was written, and one copy of this summarized report containing the results obtained by the children was sent to their parents/guardians while another copy was sent to the pedagogical coordination of the school.

Statistical Analysis

The statistical analysis was carried out aided by the program SPSS version 16 for Windows. The means of chronological age, general motor age and motor quotient of the areas evaluated by the MDS were compared between groups using the Mann-Whitney test, while the Chi-Square test was used to associate high and low school development with the variables sex, school year, laterality and classification according to the MDS levels. The differences presenting p ≤ 0.05 were considered significant.

Results

The initial sample included 79 schoolchildren with average age between 6 and 11 years, of both sexes. Three children were excluded due to lack of data in the TCLE, two for previous diagnosis of infant cerebral vascular accident (infant CVA), one child was excluded for refusing to complete the tests and another for presenting foot orthopaedic dysfunction. The final sample comprised 72 schoolchildren, aged between 6 and 11 years, divided into PSP, including 32 children, and GSP, containing 40 children.

The mean of chronological age was similar between the groups; however, the mean of general motor age was significantly higher in the GSP group (Table 1). The association between school performance and the variables sex, school year and laterality did not present significant difference (Table 2).

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Table 1
Mean of chronological age and general motor age

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Table 2
Frequency and percentage distribution of schoolchildren according to sex, school year and laterality

Motor quotient regarding fine motricity, global motricity and balance did not present significant difference between groups. However, motor quotient regarding body scheme, spatial organization, language and temporal organization, as well as the general motor quotient, were significantly lower in the PSP group (Table 3).

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Table 3
Comparison between Motor Quotients in each area and General Motor Quotient

In both groups, the motor performance in most schoolchildren was classified by the MDS as Low Normal or Medium Normal; however, in the GSP group, the frequency (27.5%) of schoolchildren classified as high normal motor performance or superior motor performance was higher, while only one schoolchild (2.5%) was classified as very inferior or inferior performance.

In the Poor School Performance group, 12.5% presented very inferior or inferior performance and only two schoolchildren (6.25%) presented high normal or superior performance. No schoolchildren were classified as very superior performance in either of the groups (Table 4).

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Table 4
Frequency and percentage distribution of children in both groups, according to the Motor Development Scale

Discussion

This study aimed to evaluate and compare motor development of children with and without indication of school difficulties to verify whether motor development is related to learning disabilities or vice versa. The results found support the hypothesis that there is a parallel between motor and school development.

Regarding chronological age and General Motor Age

The mean of chronological age (in months) was similar between the groups; however, the mean of general motor age (obtained through the mean of results from each of the motricity areas evaluated by the MDS), was significantly lower in the Poor School Performance group, indicating a motor development that is in agreement with the lower chronological age in these groups. This finding corroborates the study by Silva and Dounis ³¹31. Silva MNS, Dounis AB. Perfil do desenvolvimento motor de crianças entre 9 e 11 anos com baixo rendimento escolar da rede municipal de Maceió, AL. Cad Bras Ter Ocup. 2014;22(1):63-70., in which great part of the sample presented motor age lower than the chronological age, emphasizing the relation between motor development delay and low school performance.

Regarding sex and laterality

The association between school performance and the variables sex, school year and laterality did not present significant difference in our study.

However, the schoolchildren evaluated in this study showed higher prevalence of completely right-handed children: 57.5% in GSP group and 50% in PSP group. Laterality, in this context, was discussed in the study by Rosa Neto et al. ¹⁷17. Rosa Neto F, Xavier RFC, Santos APM, Amaro KN, Florêncio R, Poeta LS. A lateralidade cruzada e o desempenho da leitura e escrita em escolares. Rev CEFAC. 2013;15(4):864-72., who used MDS to compare the results of reading and writing performance in schoolchildren, showing that those with complete lateral dominance (in this case, completely right handed) had better reading and writing performance, which might interfere in the school learning process. These findings indicate a possible relation between laterality and school learning.

Despite not presenting statistical significance, a higher prevalence of boys was observed in the PSP group (53.1%) in comparison with the GSP group (37.5%), which might indicate that learning disabilities are more common among boys. These results are in agreement with those found in the study by Silva, Oliveira and Ciasca ³²32. Silva SLZR, Oliveira MCC, Ciasca SM. Desempenho percepto-motor, psicomotor e intelectual de escolares com queixa de dificuldade de aprendizagem. Rev Psicopedag. 2017;34(103):33-44. in 2017, which evaluated schoolchildren with learning disabilities and found significant difference between sexes (higher incidence of boys (92%) in the group with learning disabilities). In a study ³³33. Silva NSM, Crenitte PAP. Perfil linguístico, familial e do gênero de escolares com diagnóstico de dislexia de uma clínica escola. Rev CEFAC. 2014;16(2):463-71. with schoolchildren diagnosed with dyslexia, there was also predominance of boys (82%), but those authors support the hypothesis of boys having a worse school performance due to bad behavior in the classroom. This hypothesis can also be associated with our study, since the teachers appointed the students to participate in the groups (low or high performance) using their perception of the students in the classroom (writing/reading and calculation disabilities, difficulty in concentrating and paying attention to the lesson, and behavior).

Regarding Motor Quotients in each domain and General Motor Quotient

The motor performance of children with low school performance was inferior to that of the children with high school performance in the areas: body scheme, spatial organization, and language and temporal organization, which confirms previous studies ²¹21. Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.^{), (}²⁹29. Amaro KN, Jatobá L, Santos APM, Rosa Neto F. Desenvolvimento motor em escolares com dificuldades na aprendizagem. Movim & Percep. 2010;11(16):39-47..

Body scheme is the representation and perception the children have of their own bodies, while the spatial organization is the ability to evaluate the relation between body and environment, enabling the integration of the sensorial information into the environment, such as distance from objects/people around the child to plan suitable motor strategies. The temporal organization refers to the ability to discriminate a succession of events and duration of intervals (notions of rhythm, beat and time). Body and spatial perceptions are essential requirements to a good motor and school performance ³⁴34. Campos SDF, Figueiredo MO, Mazer-Gonçalves SM, Santos E, Maronesi LC. O brincar para o desenvolvimento do esquema corporal, orientação espacial e temporal: análise de uma intervenção. Cad Bras Ter Ocup. 2017;25(2):275-85., and reading, writing and calculation disabilities might be directly related to perceptual-motor disorders ²⁷27. Rosa Neto F, Santos APM, Xavier RFC, Amaro KN. A importância da avaliação motora em escolares: análise da confiabilidade da Escala de Desenvolvimento Motor. Rev Bras Cineantropom Desempenho Hum. 2010;12(6):422-7.. Recently, a systematic review involving children aged between 4 and 16 years with typical development, pointed out that better motor abilities were commonly associated with better performance in cognitive tasks ³⁵35. van der Fels IM, Te Wierike SC, Hartman E, Elferink-Gemser MT, Smith J, Visscher C. The relationship between motor skills and cognitive skills in 4-16 year old typically developing children: a systematic review. J Sci Med Sport. 2015;18(6):697-703.. Another study, developed with teenagers from 12 to 16 years old, also found a relation between motor coordination and the executive function in individuals older than the ones in our study, since it showed a positive correlation between motor abilities and visual-spatial working memory ¹⁶16. Rigoli D, Piek JP, Kane R, Oosterlaan J. An examination of the relationship between motor coordination and executive functions in adolescents. Dev Med Child Neurol. 2012;54(11):1025-31.. The General Motor Quotient was also lower in the PSP group, confirming the findings of other studies with significant correlation between motor and intellectual development ²¹21. Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.^{), (}²⁷27. Rosa Neto F, Santos APM, Xavier RFC, Amaro KN. A importância da avaliação motora em escolares: análise da confiabilidade da Escala de Desenvolvimento Motor. Rev Bras Cineantropom Desempenho Hum. 2010;12(6):422-7.^{), (}²⁸28. Medina-Papst J, Marques I. Avaliação do desenvolvimento motor de crianças com dificuldades de aprendizagem. Rev Bras Cineantropom Desempenho Hum. 2010;12(1):36-42..

Sumner et al. ²⁴24. Sumner E, Pratt ML, Hill EL. Examining the cognitive pro?le of children with Developmental Coordination Disorder. Res Dev Disabil. 2016;56:10-7. compared cognitive performance using the Wechsler Intelligence Scale for Children (WISC-IV) between children with Coordination Development Disorder (CDD) and children in a control group. Despite not finding statistically significant difference in the general mean of the groups, they found poorer performance in children with CDD in the processing speed and working memory tests. They also found different performance between children with CDD in all areas of intelligence evaluated, highlighting the importance of considering the cognitive performance of children with motor coordination deficit individually, in order to propose suitable intervention strategies for each case ²⁴24. Sumner E, Pratt ML, Hill EL. Examining the cognitive pro?le of children with Developmental Coordination Disorder. Res Dev Disabil. 2016;56:10-7..

Motor difficulties suggest a possible lack of proper stimulation, as observed by Santos et al. ⁶6. Santos MM, Corsi C, Marques LAP, Rocha NACF. Comparação do desempenho motor e cognitivo de crianças frequentadoras de creches públicas e particulares. Braz J Phys Ther. 2013;17(6):579-87. and Queiroz ⁷7. Queiroz DR, Henrique RS, Feitoza AHP, Medeiros JNS, Souza CJF, Lima TJS, et al. Competência motora de pré-escolares: uma análise em crianças de escola pública e particular. Motri. 2016;12(3):56-63., who compared pre-school children attending day care in public and private institutions. In both studies, the children attending private institutions obtained better scores, emphasizing better attention skills and motor stimulation in those environments. In a study by Campos et al. ³⁴34. Campos SDF, Figueiredo MO, Mazer-Gonçalves SM, Santos E, Maronesi LC. O brincar para o desenvolvimento do esquema corporal, orientação espacial e temporal: análise de uma intervenção. Cad Bras Ter Ocup. 2017;25(2):275-85., the positive effect of therapeutic intervention was demonstrated through plays and ludic activities on the body and spatial perception and temporal organization in a 4-year-old child.

Regarding frequency and distribution according to the MDS classification of motor performance

In both groups of this study, most schoolchildren were classified by the MDS as low normal or medium normal performance, confirming the findings by Silva and Beltrame ¹⁵15. Silva J, Beltrame TS. Desempenho motor e dificuldades de aprendizagem em escolares com idades entre 7 e 10 anos. Motri. 2011;7(2):57-68., who reported that 72.2% of a sample of 231 schoolchildren between 7 and 10 years old had normal motor abilities.

However, the GSP group showed a prevalence (27.5%) of schoolchildren with high normal or superior motor performance, and only one schoolchild (2.5%) with very inferior or inferior performance. In the PSP group, 12.5% presented very inferior or inferior performance, and only two schoolchildren (6.25%) showed high normal or superior performance, obtaining high scores in the MDS in the good school performance group.

The results above show a close relation between school performance and motor difficulties found in children with learning disabilities. It is noteworthy the need to provide children with a more complete learning experience and teachers with a better training, mainly regarding the identification of motor delays, since they might be another obstacle to an efficient pedagogical approach.

Weaknesses and limitations of this study

The subjective evaluation, through teachers’ perceptions about the school performance of schoolchildren might be a limiting criterion in this study, since this perception can be mistaken in some cases for not being based on accurate and reliable tests.

Asking a teacher to classify a student with good or bad school performance might also be susceptible to the Pygmalion effect, presented by Rosenthal and Jacobson ³⁶36. Rosenthal R, Jacobson L. Pygmalion in the classroom: teacher expectation and pupils' intellectual development. Carmarthen: Paperback; 2004. and inspired by the homonymous old Greek Myth ³⁷37. Anastácio SMG, Silva CN. O efeito Pigmaleão: Bernard Shaw e as releituras de Os Simpsons. Cad Trad. 2014;33:287-304.. This effect suggests that teachers’ expectations might influence the performance of students for better or worse, since their positive view tend to stimulate them, while students that are considered limited are not encouraged and have their academic performance affected.

We suggest the development of further studies with accurate and validated assessments such as the School Performance Test (SPT) and intelligence evaluations, including socio-familiar and socioeconomic variables so that the whole sample can be chosen homogeneously.

Conclusion

The results obtained led to the conclusion that there is a direct relation between motor and school performance. This relation is still unknown, so an investigation should be conducted by the professionals in the education area, since they are not always prepared to identify motor and cognitive difficulties in schoolchildren. This failure in the identification of disabilities might delay the intervention of specialized professionals in those areas and not minimize the physical and psychosocial damage these children might face due to late diagnosis.

Acknowledgments

The authors thank the team of Physical Therapy Service for the rehabilitation of infant motricity - HC Unicamp (Ambulatório de Fisioterapia na Reabilitação da Motricidade Infantil - HC Unicamp), the board of directors, the pedagogical coordenation, the teachers, students and parents from the schools involved in this research.

References

¹
Bee H, Boyd D. A criança em desenvolvimento. Porto Alegre: Artmed; 2011.
²
Gallahue DL, Ozmun JC, Goodway JD. Compreendendo o desenvolvimento motor: bebês, crianças, adolescentes e adultos. Porto Alegre: AMGH; 2013.
³
Noronha APP, Rueda FJM, Santos AAA. Bender Gestalt Visual-Motor Test - Sistema de Pontuação Gradual (B-SPG): a study with different samples. Paidéia (Ribeirão Preto). 2013;23(55):179-85.
⁴
Suehiro ACB, Santos AAA, Rueda FJM. Desenvolvimento perceptomotor e escrita em crianças do Ensino Fundamental. Psicol Esc Educ. 2015;19(2):369-76.
⁵
Oliveira GC. Avaliação psicomotora à luz da psicologia e da psicopedagogia. Rio de Janeiro: Vozes; 2014.
⁶
Santos MM, Corsi C, Marques LAP, Rocha NACF. Comparação do desempenho motor e cognitivo de crianças frequentadoras de creches públicas e particulares. Braz J Phys Ther. 2013;17(6):579-87.
⁷
Queiroz DR, Henrique RS, Feitoza AHP, Medeiros JNS, Souza CJF, Lima TJS, et al. Competência motora de pré-escolares: uma análise em crianças de escola pública e particular. Motri. 2016;12(3):56-63.
⁸
Costa EF, Cavalcante LIC, Silva ML, Guerreiro TBF. Association between family poverty and the neuropsychomotor development of children in the administrative districts of Belém. Fisioter Mov. 2016;29(3):533-42.
⁹
Wehby GL, McCarthy AM. Economic gradients in early child neurodevelopment: a multi-country study. Soc Sci Med. 2013;78:86-95.
¹⁰
Miyabayashi LA, Pimentel GGA. Interações sociais e pro?ciência motora em escolares do ensino fundamental. Rev Bras Educ Fis Esporte. 2011;25(4):649-62.
¹¹
Maggi EF, Magalhães LC, Campos AF, Bouzada MCF. Crianças pré- termo apresentam desempenho motor, cognitivo e funcional desfavorável em relação a neonatos a termo em idade pré-escolar. J Pediatr. 2014;90(4):377-83.
¹²
Moreira RS, Magalhães LC, Alves CRL. Efeito do nascimento prematuro no desenvolvimento motor, comportamento e desempenho de crianças em idade escolar: revisão sistemática. J Pediatr. 2014;90(2):119-34.
¹³
Dornelas LF, Magalhães LC. Desempenho funcional de escolares que receberam diagnóstico de atraso do desenvolvimento neuropsicomotor até os dois anos. Rev Paul Pediatr. 2016;34(1):78-85.
¹⁴
Cia F, Barham EJ, Fontaine AMGV. Desempenho acadêmico e autoconceito de escolares: contribuições do envolvimento paterno. Estud Psicol. 2012;29(4):461-70.
¹⁵
Silva J, Beltrame TS. Desempenho motor e dificuldades de aprendizagem em escolares com idades entre 7 e 10 anos. Motri. 2011;7(2):57-68.
¹⁶
Rigoli D, Piek JP, Kane R, Oosterlaan J. An examination of the relationship between motor coordination and executive functions in adolescents. Dev Med Child Neurol. 2012;54(11):1025-31.
¹⁷
Rosa Neto F, Xavier RFC, Santos APM, Amaro KN, Florêncio R, Poeta LS. A lateralidade cruzada e o desempenho da leitura e escrita em escolares. Rev CEFAC. 2013;15(4):864-72.
¹⁸
Jongbloed-Pereboom M, Nijhuis-van der Sanden MW, Saraber-Schiphorst N, Crajé C, Steenbergen B. Anticipatory action planning increases from 3 to 10 years of age in typically developing children. J Exp Child Psychol. 2013;114(2):295-305.
¹⁹
Fernani DCGL, Prado MTA, Fell RF, Reis NL, Bofi TC, Ribeiro EB, et al. Motor intervention in children with school learning difficulties. J Human Grow Develop. 2013;23(2):209-14.
²⁰
Ericsson I, Karlsson MK. Motor skills and school performance in children with daily physical education in school - a 9-year intervention study. Scand J Med Sci Sports. 2014;24(2):273-8.
²¹
Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.
²²
Fin G, Barreto DBM. Avaliação motora de crianças com indicadores de dificuldades no aprendizado escolar, no município de Fraiburgo, Santa Catarina. Unoesc & Cienc ACBS. 2010;1(1):5-12.
²³
Rosa Neto F, Santos APM, Weiss SLI, Amaro KN. Análise da consistência interna dos testes de motricidade fina da EDM - Escala de Desenvolvimento Motor. Rev Educ Fis/UEM. 2010;21(2):191-7.
²⁴
Sumner E, Pratt ML, Hill EL. Examining the cognitive pro?le of children with Developmental Coordination Disorder. Res Dev Disabil. 2016;56:10-7.
²⁵
Gonçalves HA, Viapiana VF, Sartori MS, Giacomoni CH, Stein LM, Fonseca RP. Funções executivas predizem o processamento de habilidades básicas de leitura, escrita e matemática? Rev Neuropsicol Latinoam. 2017;9(3):42-54.
²⁶
Ribeiro DO, Freitas PM. Inteligência e desempenho escolar em crianças entre 6 e 11 anos. Psicol Pesqui. 2018;12(1):84-91.
²⁷
Rosa Neto F, Santos APM, Xavier RFC, Amaro KN. A importância da avaliação motora em escolares: análise da confiabilidade da Escala de Desenvolvimento Motor. Rev Bras Cineantropom Desempenho Hum. 2010;12(6):422-7.
²⁸
Medina-Papst J, Marques I. Avaliação do desenvolvimento motor de crianças com dificuldades de aprendizagem. Rev Bras Cineantropom Desempenho Hum. 2010;12(1):36-42.
²⁹
Amaro KN, Jatobá L, Santos APM, Rosa Neto F. Desenvolvimento motor em escolares com dificuldades na aprendizagem. Movim & Percep. 2010;11(16):39-47.
³⁰
Rosa Neto F. Manual de avaliação motora. 2nd ed. Porto Alegre: DIOESC; 2014.
³¹
Silva MNS, Dounis AB. Perfil do desenvolvimento motor de crianças entre 9 e 11 anos com baixo rendimento escolar da rede municipal de Maceió, AL. Cad Bras Ter Ocup. 2014;22(1):63-70.
³²
Silva SLZR, Oliveira MCC, Ciasca SM. Desempenho percepto-motor, psicomotor e intelectual de escolares com queixa de dificuldade de aprendizagem. Rev Psicopedag. 2017;34(103):33-44.
³³
Silva NSM, Crenitte PAP. Perfil linguístico, familial e do gênero de escolares com diagnóstico de dislexia de uma clínica escola. Rev CEFAC. 2014;16(2):463-71.
³⁴
Campos SDF, Figueiredo MO, Mazer-Gonçalves SM, Santos E, Maronesi LC. O brincar para o desenvolvimento do esquema corporal, orientação espacial e temporal: análise de uma intervenção. Cad Bras Ter Ocup. 2017;25(2):275-85.
³⁵
van der Fels IM, Te Wierike SC, Hartman E, Elferink-Gemser MT, Smith J, Visscher C. The relationship between motor skills and cognitive skills in 4-16 year old typically developing children: a systematic review. J Sci Med Sport. 2015;18(6):697-703.
³⁶
Rosenthal R, Jacobson L. Pygmalion in the classroom: teacher expectation and pupils' intellectual development. Carmarthen: Paperback; 2004.
³⁷
Anastácio SMG, Silva CN. O efeito Pigmaleão: Bernard Shaw e as releituras de Os Simpsons. Cad Trad. 2014;33:287-304.

Publication Dates

Publication in this collection
15 July 2019
Date of issue
2019

History

Received
23 Jan 2018
Accepted
18 Jan 2019

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Bee H, Boyd D. A criança em desenvolvimento. Porto Alegre: Artmed; 2011.

[2] ²
Gallahue DL, Ozmun JC, Goodway JD. Compreendendo o desenvolvimento motor: bebês, crianças, adolescentes e adultos. Porto Alegre: AMGH; 2013.

[3] ³
Noronha APP, Rueda FJM, Santos AAA. Bender Gestalt Visual-Motor Test - Sistema de Pontuação Gradual (B-SPG): a study with different samples. Paidéia (Ribeirão Preto). 2013;23(55):179-85.

[4] ⁴
Suehiro ACB, Santos AAA, Rueda FJM. Desenvolvimento perceptomotor e escrita em crianças do Ensino Fundamental. Psicol Esc Educ. 2015;19(2):369-76.

[5] ⁵
Oliveira GC. Avaliação psicomotora à luz da psicologia e da psicopedagogia. Rio de Janeiro: Vozes; 2014.

[6] ⁶
Santos MM, Corsi C, Marques LAP, Rocha NACF. Comparação do desempenho motor e cognitivo de crianças frequentadoras de creches públicas e particulares. Braz J Phys Ther. 2013;17(6):579-87.

[7] ⁷
Queiroz DR, Henrique RS, Feitoza AHP, Medeiros JNS, Souza CJF, Lima TJS, et al. Competência motora de pré-escolares: uma análise em crianças de escola pública e particular. Motri. 2016;12(3):56-63.

[8] ⁸
Costa EF, Cavalcante LIC, Silva ML, Guerreiro TBF. Association between family poverty and the neuropsychomotor development of children in the administrative districts of Belém. Fisioter Mov. 2016;29(3):533-42.

[9] ⁹
Wehby GL, McCarthy AM. Economic gradients in early child neurodevelopment: a multi-country study. Soc Sci Med. 2013;78:86-95.

[10] ¹⁰
Miyabayashi LA, Pimentel GGA. Interações sociais e pro?ciência motora em escolares do ensino fundamental. Rev Bras Educ Fis Esporte. 2011;25(4):649-62.

[11] ¹¹
Maggi EF, Magalhães LC, Campos AF, Bouzada MCF. Crianças pré- termo apresentam desempenho motor, cognitivo e funcional desfavorável em relação a neonatos a termo em idade pré-escolar. J Pediatr. 2014;90(4):377-83.

[12] ¹²
Moreira RS, Magalhães LC, Alves CRL. Efeito do nascimento prematuro no desenvolvimento motor, comportamento e desempenho de crianças em idade escolar: revisão sistemática. J Pediatr. 2014;90(2):119-34.

[13] ¹³
Dornelas LF, Magalhães LC. Desempenho funcional de escolares que receberam diagnóstico de atraso do desenvolvimento neuropsicomotor até os dois anos. Rev Paul Pediatr. 2016;34(1):78-85.

[14] ¹⁴
Cia F, Barham EJ, Fontaine AMGV. Desempenho acadêmico e autoconceito de escolares: contribuições do envolvimento paterno. Estud Psicol. 2012;29(4):461-70.

[15] ¹⁵
Silva J, Beltrame TS. Desempenho motor e dificuldades de aprendizagem em escolares com idades entre 7 e 10 anos. Motri. 2011;7(2):57-68.

[16] ¹⁶
Rigoli D, Piek JP, Kane R, Oosterlaan J. An examination of the relationship between motor coordination and executive functions in adolescents. Dev Med Child Neurol. 2012;54(11):1025-31.

[17] ¹⁷
Rosa Neto F, Xavier RFC, Santos APM, Amaro KN, Florêncio R, Poeta LS. A lateralidade cruzada e o desempenho da leitura e escrita em escolares. Rev CEFAC. 2013;15(4):864-72.

[18] ¹⁸
Jongbloed-Pereboom M, Nijhuis-van der Sanden MW, Saraber-Schiphorst N, Crajé C, Steenbergen B. Anticipatory action planning increases from 3 to 10 years of age in typically developing children. J Exp Child Psychol. 2013;114(2):295-305.

[19] ¹⁹
Fernani DCGL, Prado MTA, Fell RF, Reis NL, Bofi TC, Ribeiro EB, et al. Motor intervention in children with school learning difficulties. J Human Grow Develop. 2013;23(2):209-14.

[20] ²⁰
Ericsson I, Karlsson MK. Motor skills and school performance in children with daily physical education in school - a 9-year intervention study. Scand J Med Sci Sports. 2014;24(2):273-8.

[21] ²¹
Alano VR, Silva CJK, Santos APM, Pimenta RA, Weiss SLI, Rosa Neto F. Aptidão física e motora em escolares com dificuldades na aprendizagem. R Bras Ci Mov. 2011;19(3):69-75.

[22] ²²
Fin G, Barreto DBM. Avaliação motora de crianças com indicadores de dificuldades no aprendizado escolar, no município de Fraiburgo, Santa Catarina. Unoesc & Cienc ACBS. 2010;1(1):5-12.

[23] ²³
Rosa Neto F, Santos APM, Weiss SLI, Amaro KN. Análise da consistência interna dos testes de motricidade fina da EDM - Escala de Desenvolvimento Motor. Rev Educ Fis/UEM. 2010;21(2):191-7.

[24] ²⁴
Sumner E, Pratt ML, Hill EL. Examining the cognitive pro?le of children with Developmental Coordination Disorder. Res Dev Disabil. 2016;56:10-7.

[25] ²⁵
Gonçalves HA, Viapiana VF, Sartori MS, Giacomoni CH, Stein LM, Fonseca RP. Funções executivas predizem o processamento de habilidades básicas de leitura, escrita e matemática? Rev Neuropsicol Latinoam. 2017;9(3):42-54.

[26] ²⁶
Ribeiro DO, Freitas PM. Inteligência e desempenho escolar em crianças entre 6 e 11 anos. Psicol Pesqui. 2018;12(1):84-91.

[27] ²⁷
Rosa Neto F, Santos APM, Xavier RFC, Amaro KN. A importância da avaliação motora em escolares: análise da confiabilidade da Escala de Desenvolvimento Motor. Rev Bras Cineantropom Desempenho Hum. 2010;12(6):422-7.

[28] ²⁸
Medina-Papst J, Marques I. Avaliação do desenvolvimento motor de crianças com dificuldades de aprendizagem. Rev Bras Cineantropom Desempenho Hum. 2010;12(1):36-42.

[29] ²⁹
Amaro KN, Jatobá L, Santos APM, Rosa Neto F. Desenvolvimento motor em escolares com dificuldades na aprendizagem. Movim & Percep. 2010;11(16):39-47.

[30] ³⁰
Rosa Neto F. Manual de avaliação motora. 2nd ed. Porto Alegre: DIOESC; 2014.

[31] ³¹
Silva MNS, Dounis AB. Perfil do desenvolvimento motor de crianças entre 9 e 11 anos com baixo rendimento escolar da rede municipal de Maceió, AL. Cad Bras Ter Ocup. 2014;22(1):63-70.

[32] ³²
Silva SLZR, Oliveira MCC, Ciasca SM. Desempenho percepto-motor, psicomotor e intelectual de escolares com queixa de dificuldade de aprendizagem. Rev Psicopedag. 2017;34(103):33-44.

[33] ³³
Silva NSM, Crenitte PAP. Perfil linguístico, familial e do gênero de escolares com diagnóstico de dislexia de uma clínica escola. Rev CEFAC. 2014;16(2):463-71.

[34] ³⁴
Campos SDF, Figueiredo MO, Mazer-Gonçalves SM, Santos E, Maronesi LC. O brincar para o desenvolvimento do esquema corporal, orientação espacial e temporal: análise de uma intervenção. Cad Bras Ter Ocup. 2017;25(2):275-85.

[35] ³⁵
van der Fels IM, Te Wierike SC, Hartman E, Elferink-Gemser MT, Smith J, Visscher C. The relationship between motor skills and cognitive skills in 4-16 year old typically developing children: a systematic review. J Sci Med Sport. 2015;18(6):697-703.

[36] ³⁶
Rosenthal R, Jacobson L. Pygmalion in the classroom: teacher expectation and pupils' intellectual development. Carmarthen: Paperback; 2004.

[37] ³⁷
Anastácio SMG, Silva CN. O efeito Pigmaleão: Bernard Shaw e as releituras de Os Simpsons. Cad Trad. 2014;33:287-304.

	Poor School Performance Group	Good school Performance Group	P
	Mean ± SD	Mean ± SD	P
Chronological age (CA)	101.03 ± 17.76	102.85 ± 19.27	0.852
General Motor age (GMA)	92.09 ± 14.85	103.2 ± 15.69	0.003*

		Poor School	Good School	P
		Performance Group	Performance Group
		n (%)	n (%)
Sex
	Male	17(53.1%)	15 (37.5%)	0.185
	Female	15 (46.9%)	25 (62.5%)
School year
	1^st year	11 (34.4%)	16 (40%)
	2^nd year	6 (18.8%)	4 (10%)
	3^rd year	10 (31.3%)	6 (15%)	0.260
	4^th year	2 (6.2%)	9 (22.5%)
	5^th year	1 (3.1%)	2 (5%)
	6^th year	2 (6.2%)	3 (7.5%)
Laterality
	Right handed	16 (50%)	23 (57.5%)
	Crossed	11(34.4%)	8 (20%)	0.366
	Undefined	5 (15.6%)	9 (22.5%)

Areas	Poor School	Good School	P
	Performance Group	Performance Group
	n = 32	n = 40
	Mean ± Standard Deviation	Mean ± Standard Deviation
Fine motricity	90.74 ± 17.17	98.12 ± 18.11	0.072
Global motricity	97.75 ± 17.80	102.96 ± 20.98	0.548
Balance	99.70 ± 22.10	100.40 ± 19.29	0.786
Body scheme	81.05 ± 18.20	96.00 ± 13.25	0.000*
Spatial organization	82.10 ± 15.63	94.58 ± 19.79	0.012*
Language and temporal organization	101.49 ± 23.25	116.13 ± 21.77	0.008*
General motor quotient	92.17 ± 12.42	101.36 ± 11.05	0.002*

MDS classification	Poor Performance n(%)	Good Performance n(%)	P
Very inferior and inferior	4(12.5%)	1(2.5%)
Low normal and medium normal	26(81.25%)	28(70%)	0.026*
High normal and superior	2(6.25%)	11(27.5%)

Brasil

Brasil

Comparative study between school and motor performance in children aged 6 to 11 years according to teachers’ perceptions

Estudo comparativo entre desempenho escolar segundo a percepção dos professores e performance motora em crianças de 6 a 11 anos

Estudio comparativo entre desempeño escolar y motor en niños de 6 hasta 11 años

Abstract

Introduction:

Objective:

Method:

Results:

Conclusion:

Resumo

Introdução:

Objetivo:

Método:

Resultados:

Conclusão:

Resumen

Introducción:

Objetivo:

Método:

Resultados:

Conclusión:

Introduction

Methods

Participants

Instrument

Procedures

Statistical Analysis

Results

Discussion

Regarding chronological age and General Motor Age

Regarding sex and laterality

Regarding Motor Quotients in each domain and General Motor Quotient

Regarding frequency and distribution according to the MDS classification of motor performance

Weaknesses and limitations of this study

Conclusion

Acknowledgments

References

Publication Dates

History