A biomechanical and biological investigation of the impact of cheerleading training on enhancing the physical fitness and musculoskeletal health of girls

  • Lisha Zhang Physical Education Department, Hunan Mass Media College, Changsha 410100, China
  • Lili Tian Changsha County Rong Sheng Hua Yucheng Kindergarten, Changsha 410100, China
DOI: https://doi.org/10.62617/mcb635
Keywords: cheerleading training; physical fitness; biomechanics; musculoskeletal health; Bone Mineral Density (BMD); dynamic postural control; biomechanical modeling
Article ID: 635

Abstract

Background: Girls’ physical health significantly influences their growth, development, and learning capabilities. The biomechanical effects of physical training, such as cheerleading, are increasingly recognized for their role in optimizing musculoskeletal health and functional performance. This study investigates how cheerleading training impacts junior high school girls' physical fitness, with a specific focus on its biomechanical effects on body composition, bone density, and muscle explosiveness. Biomechanical factors such as force generation, joint stability, and bone strength are integral to understanding how physical activities like cheerleading influence the body.  Methods: Eighty normal junior high school girls with no prior training experience, sixty cheerleaders, and sixty aerobics athletes constituted the study’s control and experimental groups. Participants were randomly assigned to either the training group or the control group after three to six months of structured, intense training. Key parameters such as height, body mass, BMI, bone density, muscular explosiveness, and percentages of protein, muscle, fat, and inorganic salts were assessed using exercise biology measurements. Biomechanical evaluations were conducted to assess lower and upper limb force production, lumbar and spinal stability, and joint impact resistance using standardized tests. Results: The study revealed significant improvements in body composition among the cheerleading and aerobics groups, including lower fat percentages (P < 0.05) and higher protein, muscle, and inorganic salt percentages. Biomechanically, cheerleading training enhanced the muscular explosiveness of the lower limbs (P < 0.05), demonstrating increased peak power output and improved reaction forces during jumping and landing activities. Conversely, aerobics training led to significant improvements in the muscular explosiveness of the upper and lower limbs, lumbar, abdominal, and low back muscles (P < 0.01), indicating greater overall functional strength and dynamic stability.  Bone mineral density (BMD) tests showed that the hip and spine BMD of the cheerleading and aerobics groups were significantly higher than those of the control group (P < 0.05), suggesting enhanced bone remodeling and mechanical loading benefits. The aerobics group exhibited superior BMD gains compared to the cheerleading group, particularly in load-bearing areas, indicating higher adaptive responses to varied mechanical stresses. Conclusion: This study provides strong evidence that cheerleading training positively impacts junior high school girls’ physical fitness, particularly in biomechanical aspects such as body composition, bone density, and muscle explosiveness. The findings highlight the specific biomechanical adaptations induced by cheerleading, such as increased force generation in lower limbs, improved joint loading mechanics, and enhanced bone strength.

References

1. Ridge, Sarah T., et al. Sticking the landing: A comparison of shod vs barefoot landing kinetics and foot muscle characteristics in gymnasts, cheerleaders, and non-athletes. PloS one, 2024, 19.10: e0309157.

2. Renfree, Gillian. Redressing the Balance: Women in Sport and Exercise Academic Network Conference, University of Worcester, United Kingdom, April 19–22, 2021. Women in Sport and Physical Activity Journal, 2023, 31.2: 147–168.

3. Voelker, Dana K., et al. Conforming to reforming: a systems understanding of aesthetic sport coaches’ behaviors and practices toward female athletes’ bodies. Body Image, 2024, 51: 101784.

4. Balram, Rohini; PANG, Bonnie; KNIJNIK, Jorge. Understanding Indo-Fijian girls’ experiences in sport, physical activity and physical education: an intersectional study. Sport, Education and Society, 2024, 29.4: 397–411.

5. Ackerman, Kathryn E., et al. Methodology for studying Relative Energy Deficiency in Sport (REDs): a narrative review by a subgroup of the International Olympic Committee (IOC) consensus on REDs. British Journal of Sports Medicine, 2023, 57.17: 1136–1147.

6. Zou, Ruyun, et al. Study on the relationship and related factors between physical fitness and health behavior of preschool children in southwest China. BMC Public Health, 2024, 24.1: 1759.

7. Sims, Stacy T., et al. International society of sports nutrition position stand: Nutritional concerns of the female athlete. Journal of the International Society of Sports Nutrition, 2023, 20.1: 2204066.

8. Chen, Zhihua. Physical Activities in Pe and Mental Hental: Basis for Enhanced Countermeasures to Physical Activities and Mental Health. International Journal of Biology and Life Sciences, 2023, 4.2: 21–24.

9. Skinner, Annie M., et al. Cross-sectional and longitudinal associations between the 24-hour movement behaviours, including muscle and bone strengthening activity, with bone and lean mass from childhood to adolescence. BMC Public Health, 2024, 24.1: 227.

10. Liu, Chunmei. The Effect of Discussion Method in Environmental Toxicology Teaching. International Journal of Management Science Research, 2023, 6.4: 9–13.

11. Psarianos, Alexandros, et al. The role of physical exercise in opioid substitution therapy: mechanisms of sequential effects. International Journal of Molecular Sciences, 2023, 24.5: 4763.

12. Kasiak, Przemysław, et al. Recalibrated FRIEND equation for peak oxygen pulse is accurate in endurance athletes: the NOODLE study. Scientific Reports, 2024, 14.1: 23133.

13. Boden, Barry P.; ANDERSON, Scott A.; SHEEHAN, Frances T. Catastrophic sports injuries: Causation and prevention. JBJS, 2024, 106.1: 62–73.

14. Mustafa, Ghulam, et al. Effects of Resistance and Strength Training on the Serum Calcium Level of Male Elite Football Athletes. Qualitative Research, 2024, 205–233.

15. Onks, Cayce. 2024 AMSSM Oral Research Poster Presentations. Clin J Sport Med, 2024, 34: 177–245.

16. Bittner, Melissa, et al. Physical Fitness Testing Concerns: Bullying and Inclusion. Physical Educator, 2024, 81.4: 404–428.

17. Miralles-Amorós, Laura, et al. Study the effect of relative energy deficiency on physiological and physical variables in professional women athletes: a randomized controlled trial. Metabolites, 2023, 13.2: 168.

18. Chayun, Danil V. Qualimetry of Psychophysiological Parameters in Aerobic Gymnastics. Журнал Сибирского федерального университета. Гуманитарные науки, 2024, 17.2: 361–373.

19. Hextrum, Kirsten; KNOESTER, Chris; TOMPSETT, James. Inequalities in girls’ high school sports participation: How social class, race/ethnicity, and gender route opportunities to play and persist in athletics. Sociological Focus, 2024, 57.2: 63–93.

20. Spears T M, Parikh B, Chalmers P N, et al. Elbow ulnar collateral ligament repair with suture augmentation is biomechanically equivalent to reconstruction and clinically demonstrates excellent outcomes: a systematic review. Arthroscopy, 2023: 00808-3.

21. Xiao Y, Li Z, Xu B. Flexible Triboelectric Nanogenerators based on Hydrogel/g-C3N4 Composites for Biomechanical Energy Harvesting and Self-Powered Sensing. ACS Applied Materials & Interfaces, 2024, 16(11): 13674–13684.

22. Ross L K, Lalka A, Keeter C, et al. Playing surface and sport contact status modulate time to lower extremity musculoskeletal injury at a greater level than concussion history among collegiate student-athletes. Journal of ISAKOS, 2024, 9(4): 628–634.

23. Demiray E B, Kurt T, Duman Z Y, et al. Clinical tissue engineering approach and biotechnological advances to improve athlete healthcare. Spor Hekimliği Dergisi, 2023, 58(4): 185–192.

24. Shing E Z, Wade Z W, Ihn H, et al. Open and arthroscopic management of chondral and chondrolabral defects of the hip. Operative Techniques in Sports Medicine, 2024: 151062.

25. Ferraro S L, Batty M, Heyworth B E, et al. Acute pelvic and hip apophyseal avulsion fractures in adolescents: a summary of 719 cases. Journal of Pediatric Orthopaedics, 2023, 43(4): 204–210.

Published
2024-12-06
How to Cite
Zhang, L., & Tian, L. (2024). A biomechanical and biological investigation of the impact of cheerleading training on enhancing the physical fitness and musculoskeletal health of girls. Molecular & Cellular Biomechanics, 21(3), 635. https://doi.org/10.62617/mcb635
Issue
Vol. 21 No. 3 (2024)
Section
Article

Copyright (c) 2024 Lisha Zhang, Lili Tian

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright on all articles published in this journal is retained by the author(s), while the author(s) grant the publisher as the original publisher to publish the article.

Articles published in this journal are licensed under a Creative Commons Attribution 4.0 International, which means they can be shared, adapted and distributed provided that the original published version is cited.