nach oben

Sports Medicine

Erschienen in:

15.09.2020 | Review Article

Reconceptualizing and Operationalizing Seefeldt’s Proficiency Barrier: Applications and Future Directions

verfasst von: Ali Brian, Nancy Getchell, Larissa True, An De Meester, David F. Stodden

Erschienen in: Sports Medicine | Ausgabe 11/2020

Einloggen, um Zugang zu erhalten

Abstract

In 1980, Seefeldt introduced the concept of a motor skill “proficiency barrier” that provides a conceptual basis for understanding the importance of a motor skill barrier as it relates to critical public health initiatives. While the intent of Seefeldt’s proficiency barrier hypothesis had great potential to advance the field of motor development, the notion of a proficiency barrier was not empirically tested. Instead, this concept lay dormant for several decades. The purpose of this paper was to expand upon Seefeldt’s proficiency barrier concept in greater detail by addressing the following questions: (1) what constitutes a motor proficiency barrier? (2) how do we assess/measure the existence of a proficiency barrier? and (3) how do we break through the proficiency barrier in order to maximize the likelihood of participation in health-enhancing levels of physical activity later on in life? We conclude with a future research suggestion to explore the existence of the proficiency barrier.

World Health Organization. Fact sheet: obesity and overweight. 2018. https://www.who.int/en/news-room/fact-sheets/detail/obesity-and-overweight. Cited 14 Dec 2019.

Basterfield L, Adamson AJ, Frary JK, Parkinson KN, Pearce MS, Reilly JJ. Longitudinal study of physical activity and sedentary behavior in children. Pediatrics. 2011;127(1):e24–e30.PubMed

Brian A, Pennell A, Taunton S, Starrett A, Howard-Shaughnessy C, Goodway JD, et al. Motor competence levels and developmental delay in early childhood: a multicenter cross-sectional study conducted in the USA. Sports Med. 2019;49(10):1609–18.PubMed

Myer GD, Faigenbaum AD, Edwards NM, Clark JF, Best TM, Sallis RE. Sixty minutes of what? A developing brain perspective for activating children with an integrative exercise approach. Br J Sports Med. 2015;49(23):1510–6.PubMed

Stodden DF, Goodway JD, Langendorfer S, Roberton MA, Rudisill ME, Garcia C, et al. A developmental perspective on the role of physical competence in physical activity: an emergent relationship. Quest. 2008;60:290–306.

Cairney J, Dudley D, Kwan M, Bulten R, Kriellaars D. Physical literacy, physical activity and health: toward an evidence-informed conceptual model. Sports Med. 2019;49(3):371–83.PubMed

Álvarez-Bueno C, Pesce C, Cavero-Redondo I, Sánchez-López M, Martínez-Hortelano JA, Martínez-Vizcaíno V. The effect of physical activity interventions on children’s cognition and metacognition: a systematic review and meta-analysis. J Am Acad Child Adolesc Psychiatry. 2017;56(9):729–38.PubMed

Hulteen RM, Morgan PJ, Barnett L, Stodden DF, Lubans DR. Development of foundational movement skills: a conceptual model for physical activity across the lifespan. Sports Med. 2018;48(7):1533–40.PubMed

Lima RA, Bugge A, Ersbøll AK, Stodden DF, Andersen LB. The longitudinal relationship between motor competence and measures of fatness and fitness from childhood into adolescence. J Pediatr (Rio J). 2019;95(4):482–8.

10.

Lima RA, Pfeiffer KA, Larsen LR, Bugge A, Moller NC, Andersen LB, et al. Physical activity and motor competence present a positive reciprocal longitudinal relationship across childhood and early adolescence. J Phys Act Health. 2017;14(6):440–7.PubMed

11.

Lima RA, Pfeiffer KA, Bugge A, Møller N, Andersen LB, Stodden DF. Motor competence and cardiorespiratory fitness have greater influence on body fatness than physical activity across time. Scand J Med Sci Sports. 2017;27(12):1638–47.PubMed

12.

Cattuzzo MT, dos Santos HR, Ré AHN, de Oliveira IS, Melo BM, de Sousa MM, et al. Motor competence and health related physical fitness in youth: a systematic review. J Sci Med Sport. 2016;19(2):123–9.PubMed

13.

Utesch T, Dreiskämper D, Strauss B, Naul R. The development of the physical fitness construct across childhood. Scand J Med Sci Sports. 2018;28(1):212–9.PubMed

14.

D'Hondt E, Deforche B, Gentier I, Verstuyf J, Vaeyens R, De Bourdeaudhuij I, et al. A longitudinal study of gross motor coordination and weight status in children. Obesity. 2014;22(6):1505–11.PubMed

15.

Rodrigues LP, Stodden DF, Lopes VP. Developmental pathways of change in fitness and motor competence are related to overweight and obesity status at the end of primary school. J Sci Med Sport. 2016;19(1):87–92.PubMed

16.

Robinson L, Stodden DF, Barnett L, Lopes VP, Logan S, Rodrigues LP, et al. Motor competence and its effect on positive developmental trajectories of health. Sports Med. 2015;45(9):1273–84.PubMed

17.

Barnett L, Morgan PJ, van Beurden E, Beard JR. Perceived sports competence mediates the relationship between childhood motor skill proficiency and adolescent physical activity and fitness: a longitudinal assessment. Int J Behav Nutr Phys Act. 2008;5:40–52.PubMedPubMedCentral

18.

Seefeldt V. Developmental motor patterns: Implications for elementary school physical education. In: Nadeau C, Holliwell W, Roberts G, editors. Psychology of motor behavior and sport. Champaign: Human Kinetics; 1980. p. 314–323.

19.

Haubenstricker J, Seefeldt V. Acquisition of motor skills during childhood. In: Seefeldt V, editor. Physical activity and well-being. Reston: AAPHERD Publications; 1986. p. 49–102.

20.

Malina RM. Top 10 research questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157–73.PubMed

21.

Stodden DF, True L, Langendorfer S, Gao Z. Associations among selected motor skills and health-related fitness: Indirect evidence for Seefeldt’s proficiency barrier in young adults. Res Q Exerc Sport. 2013;84:397–403.PubMed

22.

De Meester A, Stodden DF, Goodway JD, True L, Brian A, Ferkel R, et al. Identifying a motor proficiency barrier for meeting physical activity guidelines in children. J Sci Med Sport. 2018;21(1):58–62.PubMed

23.

Haywood K, Getchell N. Life span motor development. 6th ed. Champaign: Human Kinetics Publishers; 2014.

24.

Breniére Y, Bril B. Development of postural control of gravity forces in children during the first 5 years of walking. Exp Brain Res. 1998;121(3):255–62.PubMed

25.

Clark JE, Phillips SJ. A longitudinal study of intralimb coordination in the first year of independent walking: a dynamical systems analysis. Child Dev. 1993;64(4):1143–57.PubMed

26.

Forssberg H. Ontogeny of human locomotor control I. Infant stepping, supported locomotion and transition to independent locomotion. Exp Brain Res. 1985;57(3):480–93.PubMed

27.

Gesell A. The ontogenesis of infant behavior. In: Carmichael L, editor. Manual of child psychology. 2nd ed. New York: Wiley; 1954. p. 335–373.

28.

Gesell A, Thompson H. The psychology of early growth including norms of infant behavior and a method of genetic analysis. New York: Macmillan; 1938.

29.

Shirley M. The first two years: a study of twenty five babies. Minneapolis: University of Minnesota Press; 1931.

30.

McGraw MB. Growth: a study of Johnny and Jimmy. New York: Appleton-Century; 1935.

31.

Langendorfer S, Roberton MA. Individual pathways in the development of forceful throwing. Res Q Exerc Sport. 2002;73(3):245–56.PubMed

32.

Bernstein N. The coordination and regulation of movements. London: Pergamon; 1967.

33.

Wickstrom RL. Fundamental motor patterns. 2nd ed. Philadelphia: Lea & Febiger; 1977.

34.

Adolph KE, Vereijken B, Shrout PE. What changes in infant walking and why. Child Dev. 2003;74(2):475–97.PubMed

35.

Clark JE, Whitall J, Phillips SJ. Human interlimb coordination: the first 6 months of independent walking. Dev Psychobiol. 1988;21(5):445–56.PubMed

36.

Branta C, Haubenstricker J, Seefeldt V. Age changes in motor skills during childhood and adolescence. Exerc Sport Sci Rev. 1984;12:467–520.PubMed

37.

Roberton MA. Changing motor patterns during childhood. In: Thomas J, editor. Motor development during childhood and adolescence. Minneapolis: Burgess; 1984. p. 48–90.

38.

Getchell N, Roberton MA. Whole body stiffness as a function of developmental level in children's hopping. DP. 1989;25(6):920.

39.

Halverson L, Williams K. Developmental sequences for hopping over distance: a prelongitudinal screening. Res Q Exerc Sport. 1985;56(1):37–44.

40.

Clark JE, Phillips SJ. A developmental sequence of the long jump. In: Clark JE, Humphrey J, editors. Motor development: current selected research. Trenton: Princeton Book Company; 1985. p. 73–85.

41.

Seefeldt V, Reuschlein S, Vogel P. Sequencing motor skills within the physical education curriculum. Houston: American Association for Health, Physical Education, and Recreation; 1972.

42.

Burnett CN, Johnson EW. Development of gait in childhood: part II. Dev Med Child Neurol. 1971;13(2):207–15.PubMed

43.

Whitall J, Getchell N. From walking to running: applying a dynamical systems approach to the development of locomotor skills. Child Dev. 1995;66(5):1541–53.PubMed

44.

Roberton MA, Halverson L. The development of locomotor coordination: longitudinal change and invariance. J Mot Behav. 1988;20(3):197–241.PubMed

45.

Nesbitt D, Molina S, Sacko RS, Robinson L, Brian A, Stodden DF. Examining the feasibility of supine-to-stand as a measure of functional motor competence. J Mot Learn Dev. 2018;6(2):267–86.

46.

Stodden DF, Langendorfer S, Fleisig GS, Andrews JR. Kinematic constraints associated with the acquisition of overarm throwing part I: step and trunk actions. Res Q Exerc Sport. 2006;77(4):417–27.PubMed

47.

Stodden DF, Langendorfer S, Fleisig GS, Andrews JR. Kinematic constraints associated with the acquisition of overarm throwing part II: upper extremity actions. Res Q Exerc Sport. 2006;77(4):428–36.PubMed

48.

Langendorfer S, Roberton MA, Stodden DF. Biomechanical aspects of the development of object projection skills. In: De Ste CM, Korff T, editors. Paediatric biomechanics and motor control: theory and application. Oxford: Routledge; 2011. p. 180–206.

49.

Brian A, Taunton S. Effectiveness of motor skill intervention varies based on implementation strategy. Phys Educ Sport Pedag. 2018;23(2):222–33.

50.

Haywood K, Getchell N. Life span motor development. 7th ed. Champaign: Human Kinetics; 2019.

51.

Kugler PN, Kelso JS, Turvey M. On the control and co-ordination of naturally developing systems. In: Kelso JS, Clark JE, editors. The development of movement control and coordination. Hoboken: Wiley; 1982. p. 5–78.

52.

New South Wales Department of Education and Training. Get Skilled Get Active: A K-6 Resource to Support the Teaching of Fundamental Movement Skills. New South Wales (Australia): Multimedia Production Services Centre for Learning Innovation; 2005.

53.

Ulrich DA. TGMD-3: Test of Gross Motor Development. 3rd ed. Austin, TX: Pro-Ed; 2019.

54.

Brian A, Goodway JD, Logan JA, Sutherland S. SKIPing with teachers: an early years motor skill intervention. Phys Educ Sport Pedag. 2017;22(3):270–82.

55.

Newell KM. Constraints on the development of coordination. In: Wade M, Whiting H, editors. Motor development in children: aspects of coordination and control. Dordrecht: Martinus Nijhoff; 1986. p. 341–360.

56.

Clark JE. A dynamical systems perspective on the development of complex adaptive skill. In: Dent-Read C, Zukow-Goldring P, editors. Evolving explanations of development: ecological approaches to organism-environment systems. Washington: APA Publications; 1997. p. 383–406.

57.

Brian A, Bardid F, Barnett L, Deconinck F, Goodway JD. Cross-cultural differences between Belgian and American youth in perceived and actual motor skills. J Mot Learn Dev. 2018;6(S2):S320–S326326.

58.

Jaakkola T, Yli-Piipari S, Huotari P, Watt A, Liukkonen J. Fundamental movement skills and physical fitness as predictors of physical activity: a 6-year follow-up study. Scand J Med Sci Sports. 2016;26(1):74–81.PubMed

59.

Barnett L, Zask A, Rose L, Hughes D, Adams J. Three-year follow-up of an early childhood intervention: what about physical activity and weight status? J Phys Act Health. 2015;12(3):319–21.PubMed

60.

Zask A, Barnett L, Rose L, Brooks LO, Molyneux M, Hughes D, et al. Three year follow-up of an early childhood intervention: is movement skill sustained? Int J Behav Nutr Phys Act. 2012;9(1):127.PubMedPubMedCentral

61.

Lai SK, Costigan SA, Morgan PJ, Lubans DR, Stodden DF, Salmon J, et al. Do school-based interventions focusing on physical activity, fitness, or fundamental movement skill competency produce a sustained impact in these outcomes in children and adolescents? A systematic review of follow-up studies. Sports Med. 2014;44(1):67–79.PubMed

62.

Guadagnoli MA, Lee TD. Challenge point: A framework for conceptualizing the effects of various practice conditions in motor learning. J Mot Behav. 2004;36(2):212–24.PubMed

63.

Brian A, Goodway JD, Logan JA, Sutherland S. SKIPing with head start teachers: influence of T-SKIP on object-control skills. Res Q Exerc Sport. 2017;88(4):479–91.PubMed

64.

Goodway JD, Branta C. Influence of a motor skill intervention on fundamental motor skill development of disadvantaged preschool children. Res Q Exerc Sport. 2003;74(1):36–46.PubMed

65.

Valentini NC, Rudisill ME. Motivational climate, motor-skill development, and perceived competence: two studies of developmentally delayed kindergarten children. J Teach Phys Educ. 2004;23(3):216–34.

66.

Van Capelle A, Broderick CR, van Doorn N, Ward RE, Parmenter BJ. Interventions to improve fundamental motor skills in pre-school aged children: a systematic review and meta-analysis. J Sci Med Sport. 2017;20(7):658–66.PubMed

67.

Wick K, Leeger-Aschmann CS, Monn ND, Radtke T, Ott LV, Rebholz CE, et al. Interventions to promote fundamental movement skills in childcare and kindergarten: a systematic review and meta-analysis. Sports Med. 2017;47(10):2045–68.PubMedPubMedCentral

68.

Pope ML, Liu T, Getchell N. Object-control skills in hispanic preschool children enrolled in head start. Percept Mot Skills. 2011;112(1):193–200.PubMed

69.

Logan S, Scrabis-Fletcher K, Modlesky C, Getchell N. The relationship between motor skill proficiency and body mass index in preschool children. Res Q Exerc Sport. 2011;82(3):442–8.PubMed

70.

Riethmuller AM, Jones RA, Okely AD. Efficacy of interventions to improve motor development in young children: a systematic review. Pediatrics. 2009;124(4):e782–e792792.PubMed

71.

Logan S, Robinson L, Wilson A, Lucas W. Getting the fundamentals of movement: a meta-analysis of the effectiveness of motor skill interventions in children. Child Care Health Dev. 2012;38(3):305–15.PubMed

72.

Roberton MA. Put that target away until later: developing skill in object projection. Future Focus. 1996;17(1):6–8.

73.

Haff GG, Triplett TN. Essentials of strength training and conditioning. 4th ed. Champaign: Human Kinetics; 2016.

74.

Southard D. Throwing pattern: changes in timing of joint lag according to age between and within skill level. Res Q Exerc Sport. 2009;80(2):213–22.PubMed

75.

Freitas DL, Lausen B, Maia JA, Lefevre J, Gouveia ÉR, Thomis M, et al. Skeletal maturation, fundamental motor skills and motor coordination in children 7–10 years. J Sports Sci. 2015;33(9):924–34.PubMed

76.

Getchell N, Schott N, Brian A. Putting the development back in development: research methods and designs. J Mot Learn Dev. 2020;8(2):410–37.

77.

Sacko RS, Brazendale K, Brian A, McIver K, Nesbitt D, Pfeifer C, et al. Comparison of indirect calorimetry- and accelerometry-based energy expenditure during object project skill performance. Meas Phys Educ Exerc Sci. 2019;23(2):148–58.

78.

Sacko RS, McIver K, Brazendale K, Pfeifer C, Brian A, Nesbitt D, et al. Comparison of indirect calorimetry-and accelerometry-based energy expenditure during children‘s discrete skill performance. Res Q Exerc Sport. 2019;90(4):629–40.PubMed

79.

Clark JE. On the problem of motor skill development. J Phys Educ Recreat Dance. 2007;78(5):38–44.

80.

Roberton MA, Halverson LE. Developing children: their changing movement. Philadelphia: Lea & Febiger; 1984.

Titel: Reconceptualizing and Operationalizing Seefeldt’s Proficiency Barrier: Applications and Future Directions
verfasst von: Ali Brian
Nancy Getchell
Larissa True
An De Meester
David F. Stodden
Publikationsdatum: 15.09.2020
Verlag: Springer International Publishing
Erschienen in: Sports Medicine / Ausgabe 11/2020
Print ISSN: 0112-1642
Elektronische ISSN: 1179-2035
DOI: https://doi.org/10.1007/s40279-020-01332-6

Arthropedia

Grundlagenwissen der Arthroskopie und Gelenkchirurgie. Erweitert durch Fallbeispiele, Videos und Abbildungen.
» Jetzt entdecken

Neu im Fachgebiet Orthopädie und Unfallchirurgie

18.04.2024 | Wirbelsäulenmetastase | Nachrichten

Update Orthopädie und Unfallchirurgie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Reconceptualizing and Operationalizing Seefeldt’s Proficiency Barrier: Applications and Future Directions

Abstract

Arthropedia

Neu im Fachgebiet Orthopädie und Unfallchirurgie

Stereotaktische Radiatio schlägt konventionelle Bestrahlung

Vorsicht mit hohen NSAR-Dosen bei ankylosierender Spondylitis!

Brustkrebs in der Vorgeschichte macht Gelenkersatz komplikationsträchtiger

Zwei neue Alternativen zu TNF-Inhibitoren bei axSpA

Update Orthopädie und Unfallchirurgie

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 11/2020

The Use of Acute Exercise Interventions as Game Day Priming Strategies to Improve Physical Performance and Athlete Readiness in Team-Sport Athletes: A Systematic Review

Variability in the Study Quality Appraisals Reported in Systematic Reviews on the Acute:Chronic Workload Ratio and Injury Risk

The Relationship Between Actual and Perceived Motor Competence in Children, Adolescents and Young Adults: A Systematic Review and Meta-analysis

Comment on: “The Challenge of Maintaining Metabolic Health During a Global Pandemic”

Asthma in Competitive Cross-Country Skiers: A Systematic Review and Meta-analysis

Effects of Resistance Training on Physical Fitness in Healthy Children and Adolescents: An Umbrella Review

Arthropedia

Neu im Fachgebiet Orthopädie und Unfallchirurgie

Stereotaktische Radiatio schlägt konventionelle Bestrahlung

Vorsicht mit hohen NSAR-Dosen bei ankylosierender Spondylitis!

Brustkrebs in der Vorgeschichte macht Gelenkersatz komplikationsträchtiger

Zwei neue Alternativen zu TNF-Inhibitoren bei axSpA

Update Orthopädie und Unfallchirurgie