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Relationship between pulmonary function and anthropometric measurements and body composition in young women

Year 2021, , 1379 - 1386, 30.12.2021
https://doi.org/10.17826/cumj.978037

Abstract

Purpose: This study was planned to evaluate the relationship between pulmonary function and some anthropometric measurements and body composition in healthy young women with different body mass index (BMI).
Materials and Methods: One hundred seventeen (n:117) women, aged between 19-30 years, participated in this study. Some anthropometric measurements of the participants (body weight, height, waist circumference, hip circumference, and neck circumference) and body composition were evaluated by the researchers.
Results: There was no difference in forced vital capacity (FVC), forced expiratory volume in 1 second (FEV1) and FEV1/FVC values of individuals according to BMI classification. In terms of disease risk according to anthropometric measurements, no difference was found between the groups in the pulmonary function test values (except for the waist circumference). Participants whose waist circumference were 80-88 cm were found to have a significantly higher FEV1/FVC value than participants whose waist circumference were >88 cm. It was determined that there was a positive correlation between body weight, lean body mass, body fat mass, total body water values, and FVC, FEV1 values.
Conclusion: Differences in body composition and anthropometric measurements and pulmonary function assessment may be due to methodological and group-specific changes in the studies. Long-term studies that question the body composition of individuals, food consumption and physical activity levels, will be beneficial.

References

  • 1. Arkanshu A, Sanjay A. Relationship between certain pulmonary function tests and anthropometric measures in normal male MBBS students. Int J Health Inf Med Res. 2014;1:21-24.
  • 2. Sebastian JC. Respiratory physiology and pulmonary complications in obesity. Best Prac Res Cl En. 2013;27:157-161.
  • 3. Whitrow MJ, Harding S. Ethnic differences in adolescent lung function: anthropometric, socioeconomic, and psychosocial factors. Am J Respir Crit Care Med. 2008;177:1262-1267.
  • 4. Christian SB, Chavda B, Trivedi SP, Sorani A, Panchal B. Effect of BMI on pulmonary function tests in young adults. International Journal of Basic & Applied Physiology. 2014;3:165.
  • 5. Gabrielsen A-M, Lund MB, Kongerud J, Viken KE, Røislien J, Hjelmesæth J. The relationship between anthropometric measures, blood gases, and lung function in morbidly obese white subjects. Obes Surg. 2011;21:485-491.
  • 6. Mafort TT, Rufino R, Costa CH, Lopes AJ. Obesity: systemic and pulmonary complications, biochemical abnormalities, and impairment of lung function. Multidiscip Resp Med. 2016;11:28.
  • 7. Soundariya K, Neelambikai N. Influence of anthropometric indices on pulmonary function tests in young individuals. World J Med Sci. 2013;9:157-161.
  • 8. Azad A, Zamani A. Lean body mass can predict lung function in underweight and normal weight sedentary female young adults. Tanaffos. 2014;13:20.
  • 9. Chen Y, Rennie D, Cormier YF, Dosman J. Waist circumference is associated with pulmonary function in normal-weight, overweight, and obese subjects. Am J Clin Nutr. 2007;85:35-39.
  • 10. Harik-Khan RI, Wise RA, Fleg JL. The effect of gender on the relationship between body fat distribution and lung function. J. Clin. Epidemiol. 2001;54:399-406.
  • 11. Mehari A, Afreen S, Ngwa J, et al. Obesity and pulmonary function in African Americans. PLoS One. 2015;10.
  • 12. Gonçalves MJ, do Lago STS, de Paiva Godoy E, de Freitas Fregonezi GA, Bruno SS. Influence of neck circumference on respiratory endurance and muscle strength in the morbidly obese. Obes Surg. 2011;21:1250-1256.
  • 13. Crummy F, Piper A, Naughton MT. Obesity and the lung: 2· Obesity and sleep-disordered breathing. Thorax. 2008;63:738-746.
  • 14. Littleton SW, Tulaimat A. The effects of obesity on lung volumes and oxygenation. Respir. Med. 2017;124:15-20.
  • 15. Do JG, Park C-H, Lee Y-T, Yoon KJ. Association between underweight and pulmonary function in 282,135 healthy adults: A cross-sectional study in Korean population. Sci Rep. 2019;9:1-10.
  • 16. Lohman T, Roche A, Martorell R. Measurement Descriptions and Techniques. Anthropometric Standardization Reference Manual. Champaign, Ill: Human Kinetics; 1988.
  • 17. World Health Organization. BMI classification. Available from: http://www.euro.who.int/en/health-topics/disease-prevention/nutrition/a-healthy-lifestyle/body-mass-index-bmi (006.02.2020). Accessed June 26,2020.
  • 18. World Health Organization. Waist circumference and waist-hip ratio: Report of a WHO expert consultation. 2008; 5-7.
  • 19. Ashwell M, Gibson S. Waist-to-height ratio as an indicator of ‘early health risk’: simpler and more predictive than using a ‘matrix’based on BMI and waist circumference. BMJ open. 2016;6:e010159.
  • 20. Ben‐Noun L, Sohar E, Laor A. Neck circumference as a simple screening measure for identifying overweight and obese patients. Obes. Res. 2001;9:470-477.
  • 21. Graham BL, Steenbruggen I, Miller MR, et al. Standardization of spirometry 2019 update. An official American thoracic society and European respiratory society technical statement. Am J Respir Crit Care Med. 2019;200:e70-e88.
  • 22. World Health Organisation. Joint WHO/FAO Expert Consultation on Diet, nutrition and the prevention of chronic diseases: WHO Technical Report Series 916. 2003; 30-41.
  • 23. Thyagarajan B, Jacobs DR, Apostol GG, et al. Longitudinal association of body mass index with lung function: the CARDIA study. Respir Res. 2008;9:31.
  • 24. Wang S, Sun X, Hsia T-C, Lin X, Li M. The effects of body mass index on spirometry tests among adults in Xi’an, China. Medicine. 2017;96.
  • 25. Jeon Y, Shin M, Kim M, et al. Low pulmonary function is related with a high risk of sarcopenia in community-dwelling older adults: the Korea National Health and Nutrition Examination Survey (KNHANES) 2008–2011. Osteoporosis Int. 2015;26:2423-2429.
  • 26. Park C-H, Yi Y, Do JG, Lee Y-T, Yoon KJ. Relationship between skeletal muscle mass and lung function in Korean adults without clinically apparent lung disease. Medicine. 2018;97.
  • 27. Lewis MI, Sieck GC, Fournier M, Belman MJ. Effect of nutritional deprivation on diaphragm contractility and muscle fiber size. J. Appl. Physiol. 1986;60:596-603.
  • 28. Chen Y-Y, Kao T-W, Fang W-H, et al. Body fat percentage in relation to lung function in individuals with normal weight obesity. Sci. Rep. 2019;9:1-7.
  • 29. Wannamethee SG, Shaper AG, Whincup PH. Body fat distribution, body composition, and respiratory function in elderly men. Am. J Clin Nutr. 2005;82:996-1003.
  • 30. De Lorenzo A, Petrone-De Luca P, Sasso GF, Carbonelli MG, Rossi P, Brancati A. Effects of weight loss on body composition and pulmonary function. Respiration. 1999;66:407-412.

Sağlıklı genç kadınlarda solunum fonksiyon testleri ile antropometrik ölçümler ve vücut bileşimi ilişkisi

Year 2021, , 1379 - 1386, 30.12.2021
https://doi.org/10.17826/cumj.978037

Abstract

Amaç: Bu çalışma, farklı beden kütle indeksine (BKİ) sahip genç kadınlarda solunum fonksiyon testleri ile bazı antropometrik ölçümler ve vücut bileşimi arasındaki ilişkinin değerlendirilmesi amacıyla planlanmıştır.
Gereç ve Yöntem: Çalışmaya yaşları 19-30 yaş arasında olan 117 kadın dahil edilmiştir. Katılımcıların bazı antropometrik ölçümleri (vücut ağırlığı, boy uzunluğu, bel çevresi, kalça çevresi ve boyun çevresi) ve vücut kompozisyonu araştırmacılar tarafından değerlendirilmiştir.
Bulgular: Bireylerin BKİ sınıflamasına göre zorlu vital kapasite (FVC), 1. saniye zorluekspiratuvar volüm (FEV1) ve FEV1/FVC değerlerinde fark yoktur. Solunum fonksiyon testi değerlerinde (bel çevresi hariç) antropometrik ölçümlere göre hastalık riski açısından gruplar arasında fark bulunmamıştır . Bel çevresi 80-88 cm olan bireylerin FEV1/FVC değeri, bel çevresi >88 cm olan bireylere göre anlamlı olarak daha yüksek bulunmuştur. Vücut ağırlığı, yağsız vücut kütlesi, vücut yağ kütlesi ve toplam vücut suyu değerleri ile FVC, FEV1 değerleri arasında pozitif bir ilişki olduğu belirlenmiştir.
Sonuç: Vücut kompozisyonu ve antropometrik ölçümler ile solunum fonksiyon değerlendirmesindeki farklılıklar, çalışmalardaki metodolojik ve gruba özgü değişikliklerden kaynaklı olabilir. Bu nedenle bireylerin vücut bileşimlerinin yanı sıra, besin tüketimi ve fiziksel aktivite düzeylerinin sorgulandığı uzun süreli çalışmaların faydalı olacağı düşünülmektedir.

References

  • 1. Arkanshu A, Sanjay A. Relationship between certain pulmonary function tests and anthropometric measures in normal male MBBS students. Int J Health Inf Med Res. 2014;1:21-24.
  • 2. Sebastian JC. Respiratory physiology and pulmonary complications in obesity. Best Prac Res Cl En. 2013;27:157-161.
  • 3. Whitrow MJ, Harding S. Ethnic differences in adolescent lung function: anthropometric, socioeconomic, and psychosocial factors. Am J Respir Crit Care Med. 2008;177:1262-1267.
  • 4. Christian SB, Chavda B, Trivedi SP, Sorani A, Panchal B. Effect of BMI on pulmonary function tests in young adults. International Journal of Basic & Applied Physiology. 2014;3:165.
  • 5. Gabrielsen A-M, Lund MB, Kongerud J, Viken KE, Røislien J, Hjelmesæth J. The relationship between anthropometric measures, blood gases, and lung function in morbidly obese white subjects. Obes Surg. 2011;21:485-491.
  • 6. Mafort TT, Rufino R, Costa CH, Lopes AJ. Obesity: systemic and pulmonary complications, biochemical abnormalities, and impairment of lung function. Multidiscip Resp Med. 2016;11:28.
  • 7. Soundariya K, Neelambikai N. Influence of anthropometric indices on pulmonary function tests in young individuals. World J Med Sci. 2013;9:157-161.
  • 8. Azad A, Zamani A. Lean body mass can predict lung function in underweight and normal weight sedentary female young adults. Tanaffos. 2014;13:20.
  • 9. Chen Y, Rennie D, Cormier YF, Dosman J. Waist circumference is associated with pulmonary function in normal-weight, overweight, and obese subjects. Am J Clin Nutr. 2007;85:35-39.
  • 10. Harik-Khan RI, Wise RA, Fleg JL. The effect of gender on the relationship between body fat distribution and lung function. J. Clin. Epidemiol. 2001;54:399-406.
  • 11. Mehari A, Afreen S, Ngwa J, et al. Obesity and pulmonary function in African Americans. PLoS One. 2015;10.
  • 12. Gonçalves MJ, do Lago STS, de Paiva Godoy E, de Freitas Fregonezi GA, Bruno SS. Influence of neck circumference on respiratory endurance and muscle strength in the morbidly obese. Obes Surg. 2011;21:1250-1256.
  • 13. Crummy F, Piper A, Naughton MT. Obesity and the lung: 2· Obesity and sleep-disordered breathing. Thorax. 2008;63:738-746.
  • 14. Littleton SW, Tulaimat A. The effects of obesity on lung volumes and oxygenation. Respir. Med. 2017;124:15-20.
  • 15. Do JG, Park C-H, Lee Y-T, Yoon KJ. Association between underweight and pulmonary function in 282,135 healthy adults: A cross-sectional study in Korean population. Sci Rep. 2019;9:1-10.
  • 16. Lohman T, Roche A, Martorell R. Measurement Descriptions and Techniques. Anthropometric Standardization Reference Manual. Champaign, Ill: Human Kinetics; 1988.
  • 17. World Health Organization. BMI classification. Available from: http://www.euro.who.int/en/health-topics/disease-prevention/nutrition/a-healthy-lifestyle/body-mass-index-bmi (006.02.2020). Accessed June 26,2020.
  • 18. World Health Organization. Waist circumference and waist-hip ratio: Report of a WHO expert consultation. 2008; 5-7.
  • 19. Ashwell M, Gibson S. Waist-to-height ratio as an indicator of ‘early health risk’: simpler and more predictive than using a ‘matrix’based on BMI and waist circumference. BMJ open. 2016;6:e010159.
  • 20. Ben‐Noun L, Sohar E, Laor A. Neck circumference as a simple screening measure for identifying overweight and obese patients. Obes. Res. 2001;9:470-477.
  • 21. Graham BL, Steenbruggen I, Miller MR, et al. Standardization of spirometry 2019 update. An official American thoracic society and European respiratory society technical statement. Am J Respir Crit Care Med. 2019;200:e70-e88.
  • 22. World Health Organisation. Joint WHO/FAO Expert Consultation on Diet, nutrition and the prevention of chronic diseases: WHO Technical Report Series 916. 2003; 30-41.
  • 23. Thyagarajan B, Jacobs DR, Apostol GG, et al. Longitudinal association of body mass index with lung function: the CARDIA study. Respir Res. 2008;9:31.
  • 24. Wang S, Sun X, Hsia T-C, Lin X, Li M. The effects of body mass index on spirometry tests among adults in Xi’an, China. Medicine. 2017;96.
  • 25. Jeon Y, Shin M, Kim M, et al. Low pulmonary function is related with a high risk of sarcopenia in community-dwelling older adults: the Korea National Health and Nutrition Examination Survey (KNHANES) 2008–2011. Osteoporosis Int. 2015;26:2423-2429.
  • 26. Park C-H, Yi Y, Do JG, Lee Y-T, Yoon KJ. Relationship between skeletal muscle mass and lung function in Korean adults without clinically apparent lung disease. Medicine. 2018;97.
  • 27. Lewis MI, Sieck GC, Fournier M, Belman MJ. Effect of nutritional deprivation on diaphragm contractility and muscle fiber size. J. Appl. Physiol. 1986;60:596-603.
  • 28. Chen Y-Y, Kao T-W, Fang W-H, et al. Body fat percentage in relation to lung function in individuals with normal weight obesity. Sci. Rep. 2019;9:1-7.
  • 29. Wannamethee SG, Shaper AG, Whincup PH. Body fat distribution, body composition, and respiratory function in elderly men. Am. J Clin Nutr. 2005;82:996-1003.
  • 30. De Lorenzo A, Petrone-De Luca P, Sasso GF, Carbonelli MG, Rossi P, Brancati A. Effects of weight loss on body composition and pulmonary function. Respiration. 1999;66:407-412.
There are 30 citations in total.

Details

Primary Language English
Subjects Clinical Sciences
Journal Section Research
Authors

Hilal Yıldıran 0000-0001-7956-5087

Eda Köksal 0000-0002-7930-9910

Feride Ayyıldız 0000-0003-2828-3850

Büşra Ayhan 0000-0001-8617-8552

Publication Date December 30, 2021
Acceptance Date September 1, 2021
Published in Issue Year 2021

Cite

MLA Yıldıran, Hilal et al. “Relationship Between Pulmonary Function and Anthropometric Measurements and Body Composition in Young Women”. Cukurova Medical Journal, vol. 46, no. 4, 2021, pp. 1379-86, doi:10.17826/cumj.978037.