Alternate hand wall toss test: normative reference value in young adults and its correlation with anthropometric measures — a cross-sectional study

Authors

DOI:

https://doi.org/10.17267/2238-2704rpf.2025.e6264

Keywords:

AHWTT, Eye-Hand Coordination, Motor Skills, Normative Values, Visual Perception

Abstract

INTRODUCTION: The alternate hand wall toss test (AHWTT) is a simple, cost-effective, and portable method to assess eye-hand coordination, kinesthetic awareness, and motor control. OBJECTIVE: To establish normative reference values for the AHWTT in young adults aged 18–26 years and evaluate its correlation with anthropometric measures. METHODS: A total of 457 participants (232 males, 225 females) aged 18–26 years were recruited through purposive sampling. Anthropometric data — height, weight, BMI, waist and hip circumference, and waist-hip ratio (WHR) — were recorded. Participants stood 2 meters from a wall and completed three 30-second AHWTT trials with one-minute rest intervals. The highest score among the trials was used for analysis. Normality was assessed using the Kolmogorov–Smirnov test. Independent t-tests compared sex-based performance, and Pearson’s correlation coefficient assessed relationships between AHWTT scores and anthropometric variables. Intra-rater reliability was evaluated using the intra-class correlation coefficient (ICC). RESULTS: The mean AHWTT score was 25.33 ± 3.94, with males (28.40 ± 2.81) outperforming females (22.16 ± 1.89). The 21–23 years old group had the highest performance. AHWTT scores positively correlated moderately with height (r = 0.642) and weight (r = 0.418), weakly with WHR (r = 0.296), and negligibly with BMI (r = 0.087). The test showed excellent intra-class reliability (ICC = 0.957). CONCLUSION: This study provides normative AHWTT values for young adults and highlights the influence of sex, age, and height on performance. The AHWTT may serve as a reliable tool for assessing coordination and motor skills in clinical and sports settings.This study provides normative AHWTT values for young adults and highlights the influence of sex, age, and height on performance. The AHWTT may serve as a reliable tool for assessing coordination and motor skills in clinical and sports settings.

Downloads

Download data is not yet available.

References

1. Irem S, Mohammad N. Comparative study of eye–hand coordination among volleyball playing and nonvolleyball playing university students. Saudi J Sport Med. 2020;20(3):64–9. https://doi.org/10.4103/sjsm.sjsm_32_20

2. Hodgetts CJ, McLeish T, Thomas E, Walker BF. Association Between Chiropractic Students’ Hand-Eye Coordination or General Self-efficacy and Their Performance on a Spinal Manipulative Therapy Examination: A Cross-sectional Study. J Chiropr Med. 2021;20(4):183–90. https://doi.org/10.1016/j.jcm.2021.12.011

3. Taha SNB, Chong RNBR. Effectiveness of an Alternate Hand Wall Toss on Reaction Time Among Archery, Shooting & Fencing Athletes. International Sport Science Students Conference. 2013:1-12. Available from: https://scholar.google.com/citations?view_op=view_citation&hl=en&user=qMQ-4OsAAAAJ&citation_for_view=qMQ-4OsAAAAJ:d1gkVwhDpl0C

4. Cho EH, Yun HJ, So WY. The validity of alternative hand wall toss tests in Korean children. J Mens health. 2020;16(1):e10–8. https://doi.org/10.15586/jomh.v16i1.166

5. Shah S, Gujarati T, Kadhiwala Y, Pandit N, Mirani M. Comparison of alternate hand-eye coordination by using head mounted reflex ball test between combat sports and non-combat sports players. Int J Yoga, Physiother Phys Educ. 2024;9(3):21–6. Available from: https://www.sportsjournal.in/assets/archives/2024/vol9issue3/9020.pdf

6. Rashid MR, Lian DKC. Improving the level of eye and hand coordination for second-level students using a modified coordination training program. Int J Sci Res Publ. 2019;9(9):62–9. http://dx.doi.org/10.29322/IJSRP.9.09.2019.p9311

7. Telford RD, Cunningham RB, Telford RM, Olive LS, Byrne DG, Abhayaratna WP. Benefits of early development of eye-hand coordination: Evidence from the LOOK longitudinal study. Scand J Med Sci Sport. 2013;23(5):263–9. https://doi.org/10.1111/sms.12073

8. Senthil KB, Subbaiah S, Arun B, Alagesan J. Comparison of hand eye coordination on individuals with and without cervical radiating pain. Biomedicine. 2022;42(2):359–62. https://doi.org/10.51248/.v42i2.735

9. Nayak AK. Effect of hand-eye coordination on motor coordinative ability of tribal adolescents. Int J Phys Educ Sport Heal. 2015;2(2):328–30. Available from: https://www.kheljournal.com/archives/2015/vol2issue2/PartF/2-1-69.pdf

10. Moroșanu Ș, Grosu VT, Răbîncă SM, Grosu EF, Hervás-Gómez C, Mancini N, et al. Enhancing psychomotor skills in high school students using virtual reality. J Phys Educ Sport. 2024;24(6):1434–40. https://doi.org/10.7752/jpes.2024.06162

11. Petrušič T, Novak D. A 16-week school-based intervention improves physical fitness in Slovenian children: a randomized controlled trial. Front Physiol. 2024;15:1311046. https://doi.org/10.3389/fphys.2024.1311046

12. Mong EU, John JN, Obianonwo RI, Edet LI, Ikwuanusi CS, Nwafor CN, et al. Correlation of Body Composition and Coordination of Specific Footballers’ Position among Professional Football Players. Int J Curr Sci Res Rev. 2022;05(09):3574–80. https://doi.org/10.47191/ijcsrr/V5-i9-36

13. Swathi B, Srivastava S, Krishnaprasad KM. Gender Difference in Hand-eye Coordination in Young Adults-A Cross-sectional Study. J Clin Diagnostic Res. 2023;17(1):15–8. https://doi.org/10.7860/JCDR/2023/59208.17430

14. Szabo DA, Neagu N, Teodorescu S, Sopa IS. Eye-hand relationship of proprioceptive motor control and coordination in children 10-11 years old. Health Sport Rehabil Med. 2020;21(3):185–91. Available from: https://jhsrm.org/magazine/007/11-szabo185-191.pdf

15. Asar S, Ezabadi RR, Baghini AS, Maleksabet N. The Relationship Between Reaction Time, Eye-Hand Coordination with Visual Field in Elite Tennis Tennis Players. Asian J Sports Med. 2022;13(2):e115787. https://doi.org/10.5812/asjsm-115787

16. Mong EU, John JN, John DO, Dim PA, Ahanonu O, Obianonwo RI. Hand-Eye Coordination and its Relationship with Anthropometric characteristics of Professional Football Players based on their Playing Position. Int J Curr Sci Res Rev. 2022;05(08):2981-88. https://doi.org/10.47191/ijcsrr/V5-i8-21

17. Anusha R, Arunachalam R, Anitha A. Correlation Between Core Muscle Strength and Eye Coordination in Non Athletes. Int J Physiother. 2017;4(5):291–5. https://doi.org/10.15621/ijphy/2017/v4i5/159424

18. Rajani V, Solanki C. Correlation between core muscle strength and hand-eye coordination in badminton players. Int J Phys Educ Sport Health. 2023;10(2):512–9. Available from: https://www.kheljournal.com/archives/2023/vol10issue2/PartH/10-2-91-905.pdf

19. Millard L, Shaw I, Breukelman GJ, Shaw BS. Visio-spatial skills in athletes: comparison of rugby players and non-athletes. Sport Sci Health. 2021;17(1):137–43. https://doi.org/10.1007/s11332-020-00663-1

20. Çetin O, Beyleroğlu M, Bağış YE, Suna G. The effect of the exercises brain on boxers’ eye-hand coordination, dynamic balance and visual attention performance. Phys Educ Students. 2018;22(3):112–9. https://doi.org/10.15561/20755279.2018.0301

21. Epure M, Bădău D. Study on improving coordination skills in women’s basketball game. Phys Educ Sport Kinetotherapy J. 2021;60(2):93–106. https://doi.org/10.35189/dpeskj.2021.60.2.2

22. World Medical Association. World Medical Association Declaration of Helsinki: ethical principles for medical research involving human subjects. JAMA. 2013;310(20):2191-4. https://doi.org/10.1001/jama.2013.281053

23. Mathur R, Swaminathan S. National ethical guidelines for biomedical & health research involving human participants, 2017: A commentary. Indian J Med Res. 2018;148(3):279-83. https://doi.org/10.4103/0971-5916.245303

24. Schober P, Boer C, Schwarte LA. Correlation Coefficients: Appropriate Use and Interpretation. Anesth Analg. 2018;126(5):1763-1768. https://doi.org/10.1213/ANE.000000000000286425

25. Koo TK, Li MY. A Guideline of Selecting and Reporting Intraclass Correlation Coefficients for Reliability Research. J Chiropr Med. 2016;15(2):155–63. https://doi.org/10.1016/j.jcm.2016.02.012

26. Szabo DA, Ujică AR, Ursu O. Testing the visual-motor coordination and reaction speed in children aged between 10–14 years old. 2021;15(2):110–21. https://doi.org/10.30892/gss.1505-077

Downloads

Published

12/05/2025

Issue

Vol. 15 (2025)

Section

Original Articles

License

Copyright (c) 2025 Mohammad Arhaan Naru, Angel Gupta, Nitesh Verma, Geetanjali Kaul, Pooja Mehra

Creative Commons License

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

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

Creative Commons License

How to Cite

1.
Naru MA, Gupta A, Verma N, Kaul G, Mehra P. Alternate hand wall toss test: normative reference value in young adults and its correlation with anthropometric measures — a cross-sectional study. Rev Pesq Fisio [Internet]. 2025 Dec. 5 [cited 2025 Dec. 15];15:e6264. Available from: https://journals.bahiana.edu.br/index.php/fisioterapia/article/view/6264