Jürgen Birklbauer, Burkhard Gniewosz, Thomas Freudenthaler, Anita Birklbauer, Birgit Pötzelsberger, Hans-Peter Wiesinger, Daniel Weghuber, Susanne Ring-Dimitriou
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Measurement invariance was tested across subgroups using multigroup confirmatory factor analysis.</p><p><strong>Results: </strong>The 3-factor model yielded good fit indices, confirming the construct validity of the SALzburg Together against Obesity test battery. Strong measurement invariance was found across body mass index groups, whereas partial invariance was observed across age and sex groups. Older children outperformed younger ones in all skill domains, children with overweight had lower skills in Balance and Locomotion, and sex differences were found in Object Manipulation and Balance.</p><p><strong>Conclusion: </strong>The SALTO test battery is a structurally valid tool for evaluating and comparing fundamental movement skills in preschool children across age, weight status, and sex. The findings underscore the importance of considering these factors when designing interventions to enhance fundamental movement skills in early childhood.</p>","PeriodicalId":49712,"journal":{"name":"Pediatric Exercise Science","volume":" ","pages":"1-14"},"PeriodicalIF":1.4000,"publicationDate":"2024-11-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A Fundamental Movement Skill Test for Preschool Children With and Without Overweight: The SALTO Test Battery.\",\"authors\":\"Jürgen Birklbauer, Burkhard Gniewosz, Thomas Freudenthaler, Anita Birklbauer, Birgit Pötzelsberger, Hans-Peter Wiesinger, Daniel Weghuber, Susanne Ring-Dimitriou\",\"doi\":\"10.1123/pes.2024-0076\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>This study aimed to evaluate a 3-factor model of fundamental movement skills in preschool children, incorporating both process- and product-oriented assessment methods, and to test the model's invariance across subgroups of age, body weight and sex.</p><p><strong>Methods: </strong>The SALTO test battery was administered to 736 preschool children aged 3-6 years. A single-indicator multitrait-multimethod model was specified with Locomotion, Object Manipulation, and Balance as latent factors and a latent method factor to address the multimethod design. Measurement invariance was tested across subgroups using multigroup confirmatory factor analysis.</p><p><strong>Results: </strong>The 3-factor model yielded good fit indices, confirming the construct validity of the SALzburg Together against Obesity test battery. Strong measurement invariance was found across body mass index groups, whereas partial invariance was observed across age and sex groups. Older children outperformed younger ones in all skill domains, children with overweight had lower skills in Balance and Locomotion, and sex differences were found in Object Manipulation and Balance.</p><p><strong>Conclusion: </strong>The SALTO test battery is a structurally valid tool for evaluating and comparing fundamental movement skills in preschool children across age, weight status, and sex. 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A Fundamental Movement Skill Test for Preschool Children With and Without Overweight: The SALTO Test Battery.
Purpose: This study aimed to evaluate a 3-factor model of fundamental movement skills in preschool children, incorporating both process- and product-oriented assessment methods, and to test the model's invariance across subgroups of age, body weight and sex.
Methods: The SALTO test battery was administered to 736 preschool children aged 3-6 years. A single-indicator multitrait-multimethod model was specified with Locomotion, Object Manipulation, and Balance as latent factors and a latent method factor to address the multimethod design. Measurement invariance was tested across subgroups using multigroup confirmatory factor analysis.
Results: The 3-factor model yielded good fit indices, confirming the construct validity of the SALzburg Together against Obesity test battery. Strong measurement invariance was found across body mass index groups, whereas partial invariance was observed across age and sex groups. Older children outperformed younger ones in all skill domains, children with overweight had lower skills in Balance and Locomotion, and sex differences were found in Object Manipulation and Balance.
Conclusion: The SALTO test battery is a structurally valid tool for evaluating and comparing fundamental movement skills in preschool children across age, weight status, and sex. The findings underscore the importance of considering these factors when designing interventions to enhance fundamental movement skills in early childhood.
期刊介绍:
Pediatric Exercise Science is a journal committed to enriching the scientific knowledge of exercise during childhood and adolescence. To this end it publishes information that contributes to an understanding of (a) the unique aspects of the physiologic, physical, biochemical, and psychologic responses of children to exercise, (b) the role of exercise in the treatment of pediatric chronic diseases, (c) the importance of physical activity in the prevention of illness and preservation of wellness, and (d) the means by which participation in sports may be made safer and more enjoyable for children and youth. Consideration will be given for publication of work by various methodologies consistent with the scientific approach.
Besides original research, the journal includes review articles, abstracts from other journals, book reviews, and editorial comments. Pediatric Exercise Science encourages the expression of conflicting opinions regarding children and exercise by providing a forum for alternative viewpoints. At the same time it serves as a means of accumulating a base of research information that will allow application of experimental data to clinical practice. The scientific disciplines contributing to this body of knowledge are diverse. Therefore it is the purpose of this journal to provide a common focus for disseminating advances in the science of exercise during childhood. In doing so, the journal allows the opportunity for cross-fertilization of ideas between disciplines that will potentiate the growth of knowledge in this field. Pediatric Exercise Science seeks to stimulate new ideas regarding exercise in children and to increase the awareness of scientists, health care providers, and physical educators of the importance of exercise during childhood.
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