|Year : 2021 | Volume
| Issue : 3 | Page : 508-510
Effect of long-term regular Yoga on physical health of Yoga practitioners
Manisha Kalpesh Gohel1, Ajay G Phatak2, Utpala N Kharod3, Bhanuprasad A Pandya4, Balvantkumar L Prajapati5, Utkarsh M Shah1
1 Department of Community Medicine, Pramukhswami Medical College, Karamsad, Gujarat, India
2 Department of Central Research Services, Bhaikaka University, Karamsad, Gujarat, India
3 Department of Aneshthesia, Bhaikaka University, Karamsad, Gujarat, India
4 Department of Education, Government of Gujarat, Anand, Gujarat, India
5 Department of Yoga, Shree Borsad Pragati Mandal Yoga Center, Borsad, Gujarat, India
|Date of Submission||02-Jul-2020|
|Date of Acceptance||21-Apr-2027|
|Date of Web Publication||13-Oct-2021|
Dr. Manisha Kalpesh Gohel
6 Punit Bungalows, Ganesh Chowkdi, Anand - 388 001, Gujarat
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Background: Yoga is a physical, mental, and spiritual discipline. The effect of yoga on mental health has been studied extensively in India but less in the context of physical health. Objective: The objective was to explore the effect of long-term regular yoga on physical health of yoga practitioners. Materials and Methods: It was an interventional study. Inclusion criteria were students who enrolled for 1-year diploma course at the yoga center. Exclusion criteria were nonregular yoga practitioners during the course. Physical health parameters considered for assessment before and after the yoga course were pulmonary function tests, maximum oxygen consumption (VO2 max) using Bruce treadmill test, flexibility, body composition analysis, and hemoglobin level. Paired sample t-test and Chi-square test were used for statistical analysis. Results: The aerobic capacity improved significantly in terms of mean (standard deviation [SD]) forced vital capacity (P < 0.001), forced expiration volume at the end of the first second (P < 0.001) as well as peak expiratory flow rate (P = 0.04). The mean (SD) flexibility score improved significantly (P < 0.001). Similarly, the endurance improved significantly in terms of mean (SD) Vo2 max (< 0.001) and treadmill time (P < 0.001). There was no significant change in body composition and hemoglobin level. Conclusions: Regular yoga practitioners demonstrated the improvement in pulmonary functions, cardiorespiratory fitness, endurance, and flexibility.
Keywords: Flexibility, long-term, physical health, pulmonary functions, VO2 max, yoga
|How to cite this article:|
Gohel MK, Phatak AG, Kharod UN, Pandya BA, Prajapati BL, Shah UM. Effect of long-term regular Yoga on physical health of Yoga practitioners. Indian J Community Med 2021;46:508-10
|How to cite this URL:|
Gohel MK, Phatak AG, Kharod UN, Pandya BA, Prajapati BL, Shah UM. Effect of long-term regular Yoga on physical health of Yoga practitioners. Indian J Community Med [serial online] 2021 [cited 2021 Nov 27];46:508-10. Available from: https://www.ijcm.org.in/text.asp?2021/46/3/508/328181
| Introduction|| |
Yoga is a physical, mental, and spiritual discipline which originated in India. The united nation realized that yoga is a holistic approach and needs a wider propagation of its benefits for the well-being of the community. Yoga is documented as one of several traditional therapeutic systems by the World Health Organization. Yoga provides strength and self-control to face the challenges in an individual's life. It has been practiced widely across the globe and becoming more relevant in today's conflict-ridden world. A study on evaluation of the therapeutic effects of yoga of selected articles findings indicates that it improves all over the quality of life and well-being of an individual. There is an activation of the parasympathetic system and its associated anti-stress mechanism in yoga therapy.
Review article by Arndt Bussing on the effects of yoga on mental and physical health summarizes that a number of areas where yoga may well be beneficial, but more research is required for virtually all of them to firmly establish such benefits. This study was planned taking into consideration the scarcity of information about the effects of long-term regular yoga practice on physical health. Hence, the present study was undertaken on a yoga diploma course student who practiced yoga regularly.
| Materials and Methods|| |
The study population comprised students who enrolled for 1-year diploma course at yoga center. The study was an interventional study, approved by the Institutional ethic committee. Inclusion criteria were students who enrolled for diploma course at yoga center. Exclusion criteria were to exclude the participants who did not practice yoga regularly during the course. Informed written consent was taken from the enrolled participants. Information was collected regarding sociodemographic data such as age, sex, education, and profession., and any disease. Physical health parameters considered for assessment before and after yoga course were pulmonary function tests (PFT), maximum oxygen consumption (VO2 max), flexibility, body composition analysis (Metabolic age, body fat, visceral fat, resting metabolism, and body mass index), and hemoglobin level (Hb). Body mass composition was assessed by body composition monitor with scale-Karada Scan (OMRON), HBF-362 model. PFT was done with a portable RMS HELIOS 401 PC-based spirometer as per the guidelines by Miller et al. PFT parameters were percentage of predicted forced vital capacity (%FVC), forced expiration volume at the end of the first second (%FEV1), FEV1/FVC ratio, peak expiratory flow rate (PEFR), and forced expiratory flow 25%–75%. The best value from the three measurements was considered as final value. Predicted values were calculated by the standard formulae programmed in computerized spirometry. The flexibility test was done by sit and reach flexometer machine. VO2 max assessment was done by motorized treadmill machine following Bruce protocol. At the end of the test, the total time of exercise was recorded and VO2 max was calculated.
Contents of diploma course were yoga, Human Science, Ayurveda, and Naturopathy. Yoga classes were conducted by yoga experts for 4 h (Theory and practical, 2 h each) on every Sunday. Practical class included prayer, yoga asanas, pranayama, mantra chanting, and meditation. Yogasanas included yogasanas of standing, sitting, prone, and supine positions. Participants were assigned to do self-practice of yoga for 1 h in 5 days a week at home. Participants who self-practiced yoga for 30 min or more time per day for 5 days a week were considered as “compliers” and eligible for postassessment after yoga course.
Descriptive statistics (mean [standard deviation (SD)], Frequency [%]) were used to present sociodemographic and baseline clinical/physiological profile of the study participants. Paired sample t-test and Chi-square test were used to assess the impact of the yoga training. A P < 0.05 was considered statistically significant. The data analysis was carried out using statistical software namely STATA (version 14.2, Stata Corporation, Texas, USA).
| Results|| |
All the 80 students enrolled for the 1-year diploma yoga course agreed to participate in the study. Seven students discontinued the course whereas 12 others could not practice yoga regularly. These 19 participants were excluded from the analysis. Further five females and six males could not visit for the end line assessment. Thus, pre and post records of 50 participants were analyzed whereas the demographic data of 61 participants is presented.
Of the 61 participants, 37 (60.7%) were females. About 49.2% of participants had education up to college and 47.5% was with higher education (master degree). Majority of the participants were professionals; job (52.5%), business (16.4%), students (9.8%), and homemakers (21.3%). Participants were free from cardiorespiratory illness and non-smokers. The mean (SD) (median [Q1, Q3]) age of the participants was 38.98 (12.18) (39 (29, 49]) years. Eleven females (35.5%) and nine males (37.5%) had mild anemia according to the World Health Organization classification of anemia.
The aerobic capacity (FVC, FEV1, PEFR, Flexibility score) and endurance (Vo2, tread mill time) improved significantly whereas body mass composition and haemoglobin levels were similar before and after the intervention. [Table 1].
|Table 1: Impact of long-term regular yoga practice on physical health parameters|
Click here to view
| Discussion|| |
Yoga is an applied science to bring harmony between man and nature. The respiratory process can be deliberately controlled, partly or totally through pranayama. The practice of asanas removes the obstructions which impede the flow of prana. In our study, there was a significant change in FVC, FEV1, and PEFR among participants. This could be because of the reduction of sympathetic activity attained with yogic training which may allow broncho-dilatation by correcting the abnormal breathing patterns and reducing the muscle tone of inspiratory and expiratory muscles. Yogic breathing involves three types of breathing, namely, abdominal, diaphragmatic, and thoracic breathing. Regular yogic breathing exercises lead to the use of respiratory muscles more efficiently with improving its tone and vital capacity of the lung.
Our findings are consistent with studies done by Vedala et al. and Shankarappa et al. which found significantly higher values of FVC, FEV1, and PEFR after yoga training., There was no significant change in FEV1/FVC ratio in our study. The same finding was observed by study by Madanmohan et al. where a significant increase in FEV, FEV1, and PEFR but no significant change in FEV1/FVC ratio after yoga training.
There is a significant increase in the pulmonary function parameters after yoga practice which involved the regular combined practice of pranayama, yogasanas, and meditation for 1 year, whereas other studies reported the impact of each individually for different durations.
The assessment of cardiorespiratory fitness was done by VO2 max, measured by Bruce treadmill test which is an indirect method to estimate VO2 max. There was significant increase inVO2 max and in both gender among participants. Yogic training stimulates parasympathetic activity which leads to a generalized decrease in vascular tone. Yoga postures (asanas) involve isometric contraction which is known to increase skeletal muscle strength. Improvement in both lung functions as well as cellular machinery explains raised VO2 max after regular practice of yoga. Similar findings were observed by Udhan et al. where yoga intervention among healthy individuals resulted significant increase in VO2 max (P < 0.0001). Similar findings were also observed by Doijad et al. among M. B. B. S students for both genders.
Flexibility is an important component of fitness. Regular yoga practice improves flexibility and balance which leads to positive changes in physical performance and well-being. Regular yoga practice involves gentle stretching of muscle, connective tissues around bones and joints which enhance flexibility. In our study, there was a significant improvement in measures of flexibility. Similar results were observed in a quasi-experimental study by Iftekher et al. where yoga training improved the balance and flexibility of shooting athletes.
There was no significant change in the hemoglobin level of participants, even in anemic participants. A study by Sharma et al. observed significant increase in hemoglobin of anemic individuals after yoga training. A study by Carranque et al. observed higher hemoglobin levels (P > 0.01) as the effects of long-term yoga practice (more than three years) but preintervention Hb level was not done. Our study duration was 1 year. It may require longer follow-up of regular yoga practitioners to see the change in hemoglobin level. Diet assessment was also not part of our study. There was no significant change in body mass composition. There is scarcity of scientific literature on the yoga effect on body mass composition which directed us to the scope of research. The limitation of our study is that the dietary intake of participants was not tracked, but healthy and balanced diet advised to follow.
| Conclusions|| |
The intended purpose of this study was to explore the impact of long-term regular yoga practice on physical health. Regular yoga practitioners demonstrated the improvement in pulmonary functions, cardiorespiratory fitness, endurance, and flexibility. Our findings suggest that the regular yoga practice enhances the physical health of yoga practitioner. Future studies in this area should explore the role of long-term regular yoga practice in the field of preventive medicine.
Financial support and sponsorship
Financial support of Rs 50000 from Charutar Arogya Mandal, Karamsad.
Conflicts of interest
There are no conflicts of interest.
| References|| |
Ministry of AYUSH, Certificate of Yoga Professionals: Official Guidebook for Level I (Instructor) and Level II (teacher). New Delhi: Excel Books; 2016.
Büssing A, Michalsen A, Khalsa SB, Telles S, Sherman KJ. Effects of yoga on mental and physical health: A short summary of reviews. Evid Based Complement Alternat Med 2012;2012:165410.
Miller MR, Hankinson J, Brusasco V, Burgos F, Casaburi R, Coates A. et al.
Standardization of spirometry. Eur Respir J 2005;26:319-38.
Bruce RA, Lovejoy FW Jr. Normal respiratory and circulatory pathways of adaptation in exercise. J Clin Invest 1949;28:1423-30.
Park K, editor. Nutrition and health. In: Park's Textbook of Preventive and Social Medicine. 24th
ed. Jabalpur: Bhanot Publishers; 2015. p. 661.
Muni SR. Pranayam, the Percept of Breath Control. Classical Hatha Yoga. 2nd
ed. Vadodara: Life Mission Publications; 2011. p. 42.
Sengupta P. Health impacts of yoga and pranayama: A state-of-the-art review. Int J Prev Med 2012;3:444-58.
Vedala SR, Mane AB, Paul CN. Pulmonary functions in yogic and sedentary population. Int J Yoga 2014;7:155-9.
] [Full text]
Shankarappa V, Prashanth P, Annamalai N, Malhotra V. The short term effect of pranayama on the lung parameters. Clin Diagn Res 2012;6:27-30.
Madanmohan T, Jatiya L, Udupa K, Bhavanani AB. Effect of yoga training on handgrip, respiratory pressures and pulmonary function. Indian J Physiol Pharmacol 2003;47:387-92.
Madanmohan T, Thombre DP, Balakumar B, Nambinarayanan TK, Thakur S, Krishnamurthy N, et al.
Effect of yoga training on reaction time, respiratory endurance and muscle strength. Indian J Physiol Pharmacol 1992;36:229-33.
Udhan VD, Wankhede SG, Phatale SR. Effect of yoga on cardio-respiratory health markers: Physical fitness index and maximum oxygen consumption (VO2 max). J Clin Diagn Res 2018;12:21-3.
Doijad VP, Kamble P, Surdi AD. Effect of yogic exercises on aerobic capacity (VO2 max). Int J Recent Trends Sci Technol 2013;6:119-21.-
Woodyard C. Exploring the therapeutic effects of yoga and its ability to increase quality of life. Int J Yoga 2011;4:49-54.
] [Full text]
Iftekher SN, Bakhtiar M, Rahaman KS. Effects of yoga on flexibility and balance: A quasi-experimental study. Asian J Med Biol Res 2017;3:276-81.
Sharma KK, Thirumaleshwara PH, Udayakumara K, Savitha B. A study on the effect of yoga therapy on anaemia in women. Eur Sci J 2015;10:1857-81.
Carranque GA, Maldonado EF, Vera FM, Manzaneque JM, Blanca MJ, Soriano G, et al.
Hematological and biochemical modulation in regular yoga practitioners. Biomed Res 2012;23:176-82.