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2011 | 03 | 4 |
Tytuł artykułu

Respiratory system parameters and other somatic indicators of fitness in primary school pupils exemplified in the Pomeranian Province

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Functional parameters of the respiratory system, the level of fatty tissue and connected with it the weight/growth index constitute important information attesting health condition of the population. The purpose of the study is to compare somatic features and determine the degree of correlation between these features taking into consideration different ecological conditions of the place of residence. A total of 114 children aged 13 (56 boys) and 12 (58 girls), representatives of the urban and country school population participated in the research. A city school was represented by a group of 30 boys and 27 girls. 26 boys and 31 girls were representatives of a village school. Research on physical development concerned body height and weight, thickness of the fatty tissue and functional parameters of the respiratory system.The arithmetic mean and standard deviation were assessed. The importance of difference of the arithmetic means in town and village groups of both sexes was tested by the Student t-test, and the correlation coefficient was assessed. The level of significance alpha = 0.05 was accepted. The assessment was made by means of Statistica 9 programme. The tests were taken in spring 2008.Research findings present significant relationships between the thickness of the fatty tissue and the body mass. The relationships between the remaining somatic features, for example lung ventilation parameters, are less essential.The assumption that the place of residence and associated with it different ecological conditions influence the biological development indicators seems to be untrue with reference to the tested group of pupils.
Słowa kluczowe
Twórcy
autor
  • Department of Biology and Ecology, Gdansk University of Physical Education and Sport, ul.Gorskiego 1, 80-336 Gdansk, Poland
  • Department of Anatomy and Anthropology, Gdansk University of Physical Education and Sport in Gdansk, Gdansk, Poland
Bibliografia
  • 1. De Toia D, Klein D, Weber S, et al. Relationship between anthropometry and motor abilities at pre- school age. Obes Facts 2009;2(4):221-225.
  • 2. Graf C, Koch B, Kretschmann-Kandel E, et al. Correlation between BMI, leisure habits and motor abilities in childhood (CHILT-project). Int J Obes Relat Metab Disord 2004;28(1):22-26.
  • 3. D’Hondt E, Deforche B, Vaeyens R, et al. Gross motor coordination in relation to weight status and age in 5- to 12-year-old boys and girls: a cross-sectional study. Int J Pediatr Obes 2011;6(2-2):556-564.
  • 4. Lopes VP, Stodden DF, Bianchi MM, Maia JA, Rodrigues LP. Correlation between BMI and motor coordination in children. J Sci Med Sport 2011 Aug 8 [Epub ahead of print].
  • 5. Cruz C, Sequeira S, Gomes H, Pinto D, Marques A. Relationship between physical fitness, physical activity and body mass index of adolescents. Br J Sports Med 2011;45(15):8-9.
  • 6. Jethon Z. Subclinical heavy metal intoxication changes the ability to physical effort. In: XII Weltkongress fur Arbeitsschutz. Hamburg; 1990, 132.
  • 7. Joens-Matre RR. Welk GJ, Calabro MA, Russell DW, Nicklay E, Hensley LD. Rural-urban differences in physical activity, physical fitness, and overweight prevalence of children. J Rural Health 2008;24(1):49-54.
  • 8. Liu J, Bennett KJ, Harun N, Probst JC. Urban-rural differences in overweight status and physical inactivity among US children aged 10-17 years. J Rural Health 2008;24(4):407-15.
  • 9. Peacock JL. Acute effects of winter air pollution on respiratory function in schoolchildren in southern England. Occup Environ Med 2003;60:82-89.
  • 10. Pyżuk M. Rozwój dziecka a wrażliwość na czynniki środowiska [in Polish] [The development of a child and sensitivity to environmental factors]. Warszawa: PWN; 1974.
  • 11. Shepard RJ. Athletic performance and urban air pollution. Can Med Assoc J 1984;131(2):105-109.
  • 12. Plotnikoff RC, Bercovitz K, Loucaides CA. Physical activity, smoking, and obesity among Canadian school youth. Comparison between urban and rural schools. Can J Public Health 2004;95(6):413-8.
  • 13. Bruner MW, Lawson J, Pickett W, Boyce W, Janssen I. Rural Canadian adolescents are more likely to be obese compared with urban adolescents. Int J Pediatr Obes 2008;3(4):205-11.
  • 14. Schwela D. Air pollution and health in urban areas. Res Environ Health 2000;15(1-2):13-42.
  • 15. Lohman TG. The use of skinfolds to estimate body fatness in children and youth. J Physical Educ Recr Dance 1987;58(9):98-102.
  • 16. Domaradzki J, Ignasiak Z. Disparity in the development level of somatic and functional traits in children living in areas of different pollution level. Human Movement 2002;1(5):14-20.
  • 17. Bocheńska Z. Rozwój fizyczny dziecka w środowisku przemysłowym [in Polish] [Physical development of a child in industrial environment]. Zeszyty Naukowe AWF Kraków 1984:31.
  • 18. Reyes ME, Tan SK, Malina RM. Urban-rural contrasts in the growth status of school children in Oaxaca, Mexico. Ann Hum Biol 2003;30(6):693-713.
  • 19. Glew RH, Kassam H, Vandert Voort J, Agaba PA, Harkins M, VanderJagt DJ. Comparison of pulmonary function between children living in rural and urban areas in northern Nigeria. J Trop Pediatr 2004;50(4): 209-216.
  • 20. Asgari MM, DuBois A, Asgari M, Gent J, Beckett WS. Association of ambient air quality with children's lung function in urban and rural Iran. Arch Environ Health 1998;53(3):222-230.
  • 21. Armstrong N, Kirby BJ, McManus AM, Welsman JR. Prepubescents' ventilatory responses to exercise with reference to sex and body size. Chest 1997;112(6):1554-1560.
  • 22. Doherty M, Dimitriou L. Comparison of lung volume in Greek swimmers, land based athletes, and sedentary controls using allometric scaling. Br J Sports Med 1997;31(4):337-341.
  • 23. Carlisle A, Sharp N. Exercise and outdoor ambient pollution. Br J Sp Med 2001;35:214-222.
  • 24. Folinsbee LJ. Pulmonary function changes after 1 h continuous heavy exercise in 0.21 ppm ozone. J Appl Physiol 1984;57(4):984-988.
  • 25. Hazucha MJ. Relationship between ozone exposure and pulmonary function changes. J Appl Physiol 1987;62(4):1671-1680.
  • 26. Kopp MV, Ulmer C, Ihorst G, et al. Upper airway inflammation in children exposed to ambient ozone and potential signs of adaptation. Eur Respir J 1999;14(4):854-861.
  • 27. Rożek K. Wybrane parametry wentylacyjne płuc w aspekcie poziomu zdolności motorycznych dzieci i młodzieży [in Polish] [Chosen lung ventilation parameters in context of children and young people’s motor abilities]. Monografie AWF Wrocław; 2006, 84.
  • 28. Antal M, Peter S, Biró L, et al. Prevalence of underweight, overweight and obesity on the basis of body mass index and body fat percentage in Hungarian schoolchildren: representative survey in metropolitan elementary schools. Ann Nutr Metab 2009;54(3):171-176.
  • 29. Burrows B, Cline MG, Knudson RJ, Taussig LM, Lebowitz MD. A descriptive analysis of the growth and decline of the FVC and FEV1. Chest 1983;83(5):717-724.
  • 30. Quanjer PH, Stocks J, Polgar G, Wise M, Karlberg J, Borsboom G. Compilation of reference values for lung function measurements in children. Eur Respir J Suppl 1989;4:184-261.
  • 31. Malina RM, Bouchard C, Bar-Or O. Growth, maturation and physical activity. Champaign IL: Human Kinetics Books; 2004.
  • 32. Arkinstall W, Nirmel K, Klissouras V, Milic-Emili J. Genetic differences in the ventilatory response to inhaled CO2. J Appl Physiol 1974;36:6-11.
  • 33. Bouchard C, Malina RM. Genetics of physiological fitness and motor performance. Exerc Sport Sci Rev 1983;11:306-339.
  • 34. Lewitter F, Tager I, McGue M, Tishler P, Speizer F. Genetic and environmental determinants of level of pulmonary function. Am J Epidemiol 1984;120(4):518-530.
Typ dokumentu
Bibliografia
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