Comparison of Maximal Oxygen Uptake and Post-Exercise Recovery Dynamics of Smoking and Non-Smoking Athletes

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Vol. 3 No. 3 (2025): Indonesian Journal of Sport, Health and Physical Education Science
Published: Sep 27, 2025
Keywords:
Breathing Frequency,
Heart Rate Recovery,
Maximal Oxygen Uptake,
Saturated Oxygen (SpO2),
Tobacco

Main Article Content

  Manish Acharjee Shantunu
Department of Physical Education, Swarnim Gujarat Sports University,
  https://orcid.org/0009-0002-6630-2768
  Rahul Dev Choudhury
Regional College of Physical Education,
  https://orcid.org/0000-0002-8570-532X

Abstract

Background of Study: Smoking has long been recognized as a risk factor for impaired cardiovascular and respiratory functions, yet its specific effects on athletic performance require further clarity. For athletes, maintaining high aerobic capacity and efficient recovery is essential for endurance, training adaptation, and competitive success. This study aimed to compare maximal oxygen and post-exercise recovery dynamics- VO2 Max, Heart Rate Recovery, Oxygen Saturation, and Breathing Frequency between smoking and non-smoking athletes..


Methods: A comparative cross-sectional design was employed with forty trained athletes aged 25–28 years, equally divided into smoking and non-smoking groups, each with at least four years of competitive training. Participants performed a graded treadmill exercise test followed by standardized recovery assessments under controlled laboratory conditions.


Result: Findings revealed that non-smoking athletes achieved significantly higher maximal oxygen uptake, reflecting superior aerobic capacity. While differences in oxygen saturation, heart rate recovery, and breathing frequency were not statistically significant, smokers showed trends toward lower oxygen availability, slower cardiovascular recovery, and less efficient ventilatory adjustment.


Conclusion: In conclusion, maximal oxygen uptake emerged as the most sensitive marker distinguishing smokers from non-smokers, underscoring the detrimental influence of tobacco use on endurance and recovery. These results emphasize the importance of discouraging smoking among athletes to safeguard physiological efficiency, support optimal training, & enhance long-term performance.

Article Details

How to Cite
Shantunu, M. A., & Choudhury, R. D. (2025). Comparison of Maximal Oxygen Uptake and Post-Exercise Recovery Dynamics of Smoking and Non-Smoking Athletes. Indonesian Journal of Sport, Health and Physical Education Science, 3(3), 93–99. https://doi.org/10.58723/inasport.v3i3.511
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Copyright (c) 2025 Manish Acharjee Shantunu, Rahul Dev Choudhury

References

Adatia, A., Wahab, M., Shahid, I., Moinuddin, A., Killian, K. J., & Satia, I. (2021). Effects of cigarette smoke exposure on pulmonary physiology, muscle strength and exercise capacity in a retrospective cohort with 30,000 subjects. PLoS ONE, 16(6 June), 1–13. https://doi.org/10.1371/journal.pone.0250957

Aker, A., Saliba, W., Bahouth, F., Naoum, I., & Zafrir, B. (2023). Cardiorespiratory Fitness and Risk of Cardiovascular Events and Mortality in Middle Age Patients without Known Cardiovascular Disease. Journal of Clinical Medicine, 12(2), 1–10. https://doi.org/10.3390/jcm12227011

Aydin, S. (2023). The effect of smoking on respiratory functions in athletes. Revista de Gestão e Secretariado (Management and Administrative Professional Review), 14(10), 19150–19158. https://doi.org/10.7769/gesec.v14i10.2962

Bao, K., Zheng, K., Zhou, X., Chen, B., He, Z., & Zhu, D. (2024). The effects of nicotine withdrawal on exercise-related physical ability and sports performance in nicotine addicts: a systematic review and meta-analysis. Journal of the International Society of Sports Nutrition, 21(1), 96–116. https://doi.org/10.1080/15502783.2024.2302383

Baumert, P., Temple, S., Stanley, J. M., Cocks, M., Strauss, J. A., Shepherd, S. O., Drust, B., Lake, M. J., Stewart, C. E., & Erskine, R. M. (2021). Neuromuscular fatigue and recovery after strenuous exercise depends on skeletal muscle size and stem cell characteristics. Scientific Reports, 11(1). https://doi.org/10.1038/s41598-021-87195-x

Dugral, E., Balkanci, D., & Ekizoglu, O. (2019). Effects of smoking and physical exercise on respiratory function test results in students of university: A cross-sectional study. Medicine (United States), 98(32), 1–7. https://doi.org/10.1097/MD.0000000000016596

Flor, L. S., Anderson, J. A., Ahmad, N., Aravkin, A., Carr, S., Dai, X., Gil, G. F., Hay, S. I., Malloy, M. J., McLaughlin, S. A., Mullany, E. C., Murray, C. J. L., O’Connell, E. M., Okereke, C., Sorenson, R. J. D., Whisnant, J., Zheng, P., & Gakidou, E. (2024). Health effects associated with exposure to secondhand smoke: a Burden of Proof study. Nature Medicine, 30(1), 149–167. https://doi.org/10.1038/s41591-023-02743-4

Hassan, H. S. (2019). Effect of Smoking on Heart Rate and Blood Pressure During Exercise Test and Recovery Period in Patients with Angina Pectoris. Al-Nisour Journal for Medical Sciences, 1(2), 311–321. https://doi.org/10.70492/2664-0554.1038

Holt, A. C., Plews, D. J., Oberlin-Brown, K. T., Merien, F., & Kilding, A. E. (2019). Cardiac parasympathetic and anaerobic performance recovery after high-intensity exercise in rowers. International Journal of Sports Physiology and Performance, 14(3), 331–338. https://doi.org/10.1123/ijspp.2018-0200

Kahmasi, M. (2025). Maximal Oxygen Uptake and Lactate Threshold in Anaerobic Exercise : Alqalam Journal of Medical and Applied Sciences, 8(1), 251–257. https://doi.org/10.54361/ajmas.258138

Lazic, J. S., Dekleva, M., Soldatovic, I., Leischik, R., & Suzic, S. (2015). Heart rate recovery in elite athletes : the impact of age and exercise capacity. Clinical Physiology and Functional Imaging, 37(2), 117–123. https://doi.org/10.1111/cpf.12271

Middlekauff, H. R. (2020). Cardiovascular impact of electronic-cigarette use. Trends in Cardiovascular Medicine, 30(3), 133–140. https://doi.org/10.1016/j.tcm.2019.04.006

Naranjo, J., De La Cruz, B., Sarabia, E., De Hoyo, M., & Domínguez-Cobo, S. (2015). Heart Rate Variability: A Follow-up in Elite Soccer Players Throughout the Season. International Journal of Sports Medicine, 36(11), 881–886. https://doi.org/10.1055/s-0035-1550047

Oikonomou, E., & Siasos, G. (2019). Cardiovascular effects of electronic cigarettes : A systematic review and meta-analysis. European Journal of Preventive Cardiology, 26(March), 1219–1228. https://doi.org/10.1177/2047487319832975

Pepera, G., & Panagiota, Z. (2021). Comparison of heart rate response and heart rate recovery after step test among smoker and non-smoker athletes. African Health Sciences, 21(1), 105–111. https://doi.org/10.4314/ahs.v21i1.15

Rahman, M., Alatiqi, M., Al Jarallah, M., Hussain, M. Y., Monayem, A., Panduranga, P., & Rajan, R. (2025). Cardiovascular Effects of Smoking and Smoking Cessation: A 2024 Update. Global Heart, 20(1), 1–23. https://doi.org/10.5334/gh.1399

Tsai, C., & Ho, C. (2017). Acute and Recovery Effects of Aerobic Exercise on Serum Interleukin-6 in Adult Male Smokers. Biophysical Chemistry, 1–7. https://doi.org/10.5812/jjcdc.63837.Research

Voutilainen, A., Setti, M. O., & Tuomainen, T. P. (2020). Estimating maximal oxygen uptake from the ratio of heart rate at maximal exercise to heart rate at rest in middle-aged men. World Journal of Men’s Health, 38, 1–7. https://doi.org/10.5534/WJMH.200055

Webster, L. R., & Karan, S. (2020). The Physiology and Maintenance of Respiration: A Narrative Review. Pain and Therapy, 9(2), 467–486. https://doi.org/10.1007/s40122-020-00203-2

Yoda, I. K., Tisna MS, G. D., Suwiwa, I. G., Kusuma, K. C. A., & Junior, N. K. M. (2024). Recovery methods to reduce fatigue among athletes: A systematic review and future directions. Journal Sport Area, 9(2), 217–234. https://doi.org/10.25299/sportarea.2024.vol9(2).16928