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Wpływ wsparcia piersi i szybkości chodu na trójwymiarowe przemieszczenie piersi u kobiet z małymi piersiami
Języki publikacji
Abstrakty
This paper investigated three-dimensional breast displacement under different breast suport conditions and gait speeds for women with small breasts. The breast coordinates of fifteen female participants with small breasts (sizes ranging from A to C) were recorded during treadmill walking and running tests under two different sports bra conditions and a no bra condition. The results showed that although vertical breast displacement was always the greatest in each condition, mediolateral breast displacement was significantly greater than anteroposterior breast displacement. Mediolateral breast displacement was not effectively reduced in the two sports bra conditions compared to the no bra condition. It is recommended that sports bra designed for women with small breasts should aim to limit mediolateral breast displacement instead of anteroposterior breast displacement, on the premise of controlling vertical breast displacement. The findings also suggest that the effectiveness of sports bras at reducing side-to-side breast movement requires further optimisation.
W pracy zbadano trójwymiarowe przemieszczenie piersi przy różnych warunkach podtrzymywania piersi i szybkości chodu u kobiet z małymi piersiami. Współrzędne piersi piętnastu uczestniczek z małymi piersiami (rozmiary od A do C) rejestrowano podczas testów chodu na bieżni i biegania w stanikach sportowych i bez. Wyniki pokazały, że chociaż pionowe przemieszczenie piersi było zawsze największe w każdym stanie, środkowo-boczne przemieszczenie piersi było znacznie większe, niż przemieszczenie piersi przednio-tylne. Stwierdzono, że biustonosz sportowy nie zmniejszył skutecznie przemieszczenia biustu w bok w porównaniu ze stanem bez stanika. Zaleca się, aby stanik sportowy przeznaczony dla kobiet z małym biustem miał na celu ograniczenie środkowo-bocznego przemieszczenia piersi zamiast przesunięcia piersi w przód i tył, z założeniem kontrolowania pionowego przemieszczenia piersi. Odkrycia sugerują również, że skuteczność staników sportowych w ograniczaniu ruchów piersi na boki wymaga dalszej optymalizacji.
Czasopismo
Rocznik
Strony
87--94
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Shanghai University of Engineering Science, School of Textiles and Fashion, Shanghai 201620, P.R. China
- Key Laboratory of Clothing Design & Technology, Donghua University, Ministry of Education, Shanghai 200051, P.R. China
autor
- Shanghai University of Engineering Science, School of Textiles and Fashion, Shanghai 201620, P.R. China
autor
- Key Laboratory of Clothing Design & Technology, Donghua University, Ministry of Education, Shanghai 200051, P.R. China
- Donghua University, Fashion and Art Design Institute, Shanghai 200051, P.R. China
autor
- Shanghai University of Engineering Science, School of Textiles and Fashion, Shanghai 201620, P.R. China
autor
- Shanghai University of Engineering Science, School of Textiles and Fashion, Shanghai 201620, P.R. China
Bibliografia
- 1. Mills C, Loveridge A, Milligan A, et al. Can Axes Conventions of the Trunk Reference Frame Influence Breast Displacement Calculation During Running? Journal of Biomechanics 2014; 47(2): 575-578.
- 2. Mills C, Ayres B, Scurr J. Breast Support Garments are Ineffective at Reducing Breast Motion During an Aqua Aerobics Jumping Exercise. Journal of Human Kinetics 2015; 46: 49-58.
- 3. Mills C, Risius D, Scurr J. Breast Motion Asymmetry During Running. Journal of Sports Sciences 2015; 33(7): 746-753.
- 4. Mills C, Loveridge A, Milligan A, et al. Is Torso Soft Tissue Motion Really an Artefact within Breast Biomechanics Research? Journal of Biomechanics 2014; 47(11): 2606-2610.
- 5. Risius D, Milligan A, Mills C, et al. Multiplanar Breast Kinematics During Different Exercise Modalities. European Journal of Sport Science 2015; 15(2): 111-117.
- 6. Scurr JC, White JL, Hedger W. Supported and Unsupported Breast Displacement in three Dimensions Across Treadmill Activity Levels. Journal of Sports Sciences 2011; 29(1): 55-61.
- 7. White JL, Scurr JC, Smith NA. The Effect of Breast Support on Kinetics During Overground Running Performance. Ergonomics 2009; 52(4): 492-498.
- 8. Scurr JC, White JL, Hedger W. The Effect of Breast Support on the Kinematics of the Breast During the Running Gait Cycle. Journal of Sports Sciences 2010; 28(10): 1103-1109.
- 9. Page KA, Steele JR. Breast Motion and Sports Brassiere Design. Sports Medicine 1999; 27(4): 205-211.
- 10. Nolte K, Burgoyne S, Nolte H, et al. The Effectiveness of a Range of Sports Bras in Reducing Breast Displacement During Treadmill Running and Two-Step Star Jumping. Journal of Sports Medicine & Physical Fitness 2016; 56(11): 1311-1317.
- 11. Chen X, Wang J, Wang Y, Gho SA, Steele JR. Breast Pain and Sports Bra Usage Reported by Chinese Women: Why Sports Bra Education Programs are Needed in China. FIBRES & TEXTILES in Eastern Europe 2019; 27, 4(136): 17-22. DOI: 10.5604/01.3001.0013.1815.
- 12. Brown N, White J, Milligan A, et al. The Relationship between Breast Size and Anthropometric Characteristics. American Journal of Human Biology 2012; 24(2): 158-164.
- 13. Brown N, Scurr J. Do Women with Smaller Breasts Perform Better in Long Distance Running? European Journal of Sport Science 2016; 16(8): 965-971.
- 14. Bowles KA, Steele JR, Chaunchaiyakul R. Do Current Sports Brassiere Designs Impede Respiratory Function? Medicine & Science in Sports & Exercise 2005; 37(9): 1633-1640.
- 15. Mason BR, Page KA, Fallon K. An Analysis of Movement and Discomfort of the Female Breast during Exercise and the Effects of Breast Support in three Cases. Journal of Science & Medicine in Sport 1999; 2(2): 134-144.
- 16. Bridgman C, Scurr J, White J, et al. Three-Dimensional Kinematics of the Breast During a Two-Step Star Jump. Journal of Applied Biomechanics 2010; 26(4): 465-472.
- 17. Mcghee DE, Steele JR. Breast Elevation and Compression Decrease Exercise-Induced Breast Discomfort. Medicine & Science in Sports & Exercise 2010;42(7): 1333-1338.
- 18. White J, Scurr J, Hedger W. A Comparison of three-Dimensional Breast Displacement and Breast Comfort during Overground and Treadmill Running. Journal of Applied Biomechanics 2011; 27(1): 47-53.
- 19. Chen X, Gho SA, Wang J, et al. Effect of Sports Bra Type and Gait Speed on Breast Discomfort, Bra Discomfort and Perceived Breast Movement in Chinese Women. Ergonomics 2016; 59(1): 130-142.
- 20. Chen X, Wang J, Jiang D, et al. Breast Motion and Discomfort of Chinese Women in Three Breast Support Conditions. World Academy of Science, Engineering & Technology 2012;(72): 1709-1714.
- 21. Wood LE, White J, Milligan A, et al. Predictors of Three-Dimensional Breast Kinematics during Bare-Breasted Running. Medicine & Science in Sports & Exercise 2012; 44(7): 1351-1357.
- 22. Zhou J, Yu W, Ng SP. Identifying Effective Design Features of Commercial Sports Bras. Textile Research Journal 2012; 83(14): 1500-1513.
- 23. Althoff T, Sosic R, Hicks JL, et al. Large-Scale Physical Activity Data Reveal Worldwide Activity Inequality. Nature 2017; 547(7663): 336-339.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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