Body Composition Analysis of University Students by Anthropometry and Bioelectrical Impedance Analysis
Background: Worldwide, at least 2.8 million people
die each year as a result of being overweight or obese, and 35.8
million (2.3%) of global DALYs are caused by overweight or
obesity. Obesity is acknowledged as one of the burning public
health problems reducing life expectancy and quality of life. The
body composition analysis of the university population is essential
in assessing the nutritional status, as well as the risk of developing
diseases associated with abnormal body fat content so as to make
nutritional recommendations. Objectives: The main aim was to
determine the prevalence of obesity and overweight in University
students using Anthropometric analysis and BIA methods. Material
and Methods: In this cross-sectional study, 283 university students
participated. The body composition analysis was undertaken by
using mainly: i) Anthropometric Measurement: Height, Weight,
BMI, waist circumference, hip circumference and skin fold
thickness, ii) Bio-electrical impedance was used for analysis of
body fat mass, fat percent and visceral fat which was measured by
Tanita SC-330P Professional Body Composition Analyzer. The
data so collected were compiled in MS Excel and analyzed for
males and females using SPSS 16. Results and Discussion: The
mean age of the male (n= 153) studied subjects was 25.37 ±2.39
years and females (n=130) was 22.53 ±2.31. The data of BIA
revealed very high mean fat per cent of the female subjects i.e.
30.3±6.5 per cent whereas mean fat per cent of the male subjects
was 15.60±6.02 per cent indicating a normal body fat range. The
findings showed high visceral fat of both males (12.92±3.02) and
females (16.86±4.98). BMI, BF% and WHR were higher among
females, and BMI was higher among males. The most evident
correlation was verified between BF% and WHR for female
students (r=0.902; p<0.001). The correlation of BFM and BF%
with thickness of triceps, sub scapular and abdominal skin folds
and BMI was significant (P<0.001). Conclusion: The studied data
made it obvious that there is a need to initiate lifestyle changing
strategies especially for adult females and encourage them to
improve their dietary intake to prevent incidence of noncommunicable
diseases due to obesity and high fat percentage.
[1] Stein CJ, Colditz GA. The epidemic of obesity. J Clin Endocrinol
Metab. 2004;89:2522–5. (PubMed)
[2] Lau DC. The Obesity Canada Clinical Practice Guidelines Steering
Committee and Expert Panel. Synopsis of the 2006 Canadian clinical
practice guidelines on the management and prevention of obesity in
adults and children. Can Med Assoc J. 2007;176: 1103–6. (PMC free
article) (PubMed).
[3] Centers for Disease Control and Prevention, “Overweight and obesity
2012, http://www.cdc.gov/obesity/adult/causes/index.html.
[4] Kastorini CM, Milionis HJ, Ioannidi A, et al. Adherence to the
Mediterranean diet in relation to acute coronary syndrome or stroke
nonfatal events: A comparative analysis of a case/case-control study.
Am Heart J. 2011;162:717–724. (PubMed)
[5] WHO. Obesity: preventing and managing the global epidemic. Report
of a WHO Consultation. WHO Technical Report Series No. 894.
Geneva: World Health Organisation, 2000.
[6] D. J. Hoffman, “Upper limits in developing countries: warning against
too much in lands of too little,” Journal of the American College of
Nutrition, vol. 23, no. 6, pp. 610S–615S, 2004. View at Google
Scholar • View at Scopus
[7] de Koning L, Merchant AT, Pogue J, Anand SS (2007) Waist
circumference and waist-to-hip ratio as predictors of cardiovascular
events: meta-regression analysis of prospective studies. Eur Heart J
28: 850–856. doi: 10.1093/eurheartj/ehm026
[8] Krakauer NY, Krakauer JC (2014) Dynamic association of mortality
hazard with body shape. PLOS ONE 9: e88793. doi:
10.1371/journal.pone.0088793
[9] Stevens J, McClain JE, Truesdale KP (2008) Selection of measures in
epidemiologic studies of the consequences of obesity. Int J Obes
(Lond) 32: Suppl 3, S60–66. doi: 10.1038/ijo.2008.88
[10] Brown P (2009) Waist circumference in primary care. Prim Care
Diabetes 3: 259–261. doi: 10.1016/j.pcd.2009.09.006
[11] Mason C, Katzmarzyk PT (2009) Variability in waist circumference
measurements according to anatomic measurement site. Obesity 17:
1789–1795. doi: 10.1038/oby.2009.87
[12] Lee SY, Gallagher D (2008) Assessment methods in human body
composition. Curr Opin Clin Nutr Metab Care 11: 566–572.
[13] Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, et al.
(2004) Bioelectrical impedance analysis-part II: utilization in clinical
practice. Clin Nutr 23: 1430–1453. doi: 10.1016/j.clnu.2004.09.012
[14] Ricciardi R, Talbot LA (2007) Use of bioelectrical impedance
analysis in the evaluation, treatment, and prevention of overweight
and obesity. J Am Acad Nurse Pract 19: 235–241. doi:
10.1111/j.1745-7599.2007.00220
[15] Avenell A, Broom J, Brown TJ, Poobalan A, Aucott L, Stearns SC,
Smith WC, Jung RT, Campbell MK and Grant AM. Systematic
review of the long-term effects and economic consequences of
treatments for obesity and implications for health improvement.
Health Technol Assess. 2004; 8:iii-iv, 1-182. | PubMed Abstract |
PubMed Full Text
[16] Merten S, MPH and Julia Dratva, et al. Do baby-friendly hospitals
influence breastfeeding duration on a national level?. Pediatrics. 2005;
116:702–708. | Article.
[17] Bosy-Westphal A, Booke CA, Blocker T, Kossel E, Goele K, et al.
(2010) Measurement site for waist circumference affects its accuracy
as an index of visceral and abdominal subcutaneous fat in a Caucasian
population. J Nutr 140: 954–961. doi: 10.3945/jn.109.118737
[18] Siri W.E. Body composition from fluid spaces and density analysis of
methods. In: Brozek J, Henschel A.Techniques for measuring body
composition. Washington, DC: National Research Council; 1961. p.
223-44.
[19] Lee S.Y., Gallagher D. Assessment methods in human body
composition. Curr Opin Clin Nutr Metab Care. 2008;11(5):566–
572. (PMC free article) (PubMed).
[20] Gibson R.S. Food and Nutrition Guidelines for Healthy Children and
Young People (Aged 2–18 years): A background paper. Principle of nutritional assessment (2nd ed.) Oxford: Oxford University Press,
2005: 20-30.
[21] Flegal KM, Graubard B I, Williamsen D F, Mitchell G H. Excess
deaths associated with underweight, overweight, and obesity. JAMA
2005; 293: 1861-67.
[22] Jackson AS, Stanforth PR, Gagnon J, Rankinen T, Leon AS, Rao DC,
et al. The effect of sex, age and race on estimating percentage body
fat from body mass index: the heritage family study. Int J Obes Relat
Metab Disord 2002; 26: 789-96.
[23] Gallagher D., Heymsfield S. B., Heo M., Jebb S. A., Murgatroyd P.
R., and Sakamoto Y.,. Healthy percentage body fat ranges: an
approach for developing guidelines based on body mass index1–3.
Am. J. Clin. Nutr., September 2000; 72 (3): 694-701.
[24] Zeng Q, Dong SY, Sun XN, Xie J, Cui Y. Percent body fat is a better
predictor of cardiovascular risk factors than body mass index. Braz J
Med Biol Res 2012; 45: 591-600.
[25] Gómez-Ambrosi J, Silva C, Galofré JC, Escalada J, Santos S, Millán
D, et al. Body mass index classification misses subjects with
increased cardiometabolic risk factors related to elevated adiposity.
Int J Obes (Lond) 2012; 36: 286-94.
[26] Chris Burslem, October. The Changing Face of Malnutrition. IFPRI
Forum, International Food Policy Research Institute: Washington,
D.C. 2004. | PdfFuzzy Sets and Systems. Vol. 49, No. 1, 1992.
[27] Amani R. Comparison between bioelectrical impedance analysis and
body mass index methods in determination of obesity prevalence in
Ahvazi women. Eur J Clin Nutr. 2007;61:478–82. (PubMed).
[28] Pecoraro P, Guida B, Caroli M, et al. Body mass index and skinfold
thickness versus bioimpedance analysis: fat mass prediction in
children. Acta Diabetol.2003; 40:S278–81. (PubMed).
[1] Stein CJ, Colditz GA. The epidemic of obesity. J Clin Endocrinol
Metab. 2004;89:2522–5. (PubMed)
[2] Lau DC. The Obesity Canada Clinical Practice Guidelines Steering
Committee and Expert Panel. Synopsis of the 2006 Canadian clinical
practice guidelines on the management and prevention of obesity in
adults and children. Can Med Assoc J. 2007;176: 1103–6. (PMC free
article) (PubMed).
[3] Centers for Disease Control and Prevention, “Overweight and obesity
2012, http://www.cdc.gov/obesity/adult/causes/index.html.
[4] Kastorini CM, Milionis HJ, Ioannidi A, et al. Adherence to the
Mediterranean diet in relation to acute coronary syndrome or stroke
nonfatal events: A comparative analysis of a case/case-control study.
Am Heart J. 2011;162:717–724. (PubMed)
[5] WHO. Obesity: preventing and managing the global epidemic. Report
of a WHO Consultation. WHO Technical Report Series No. 894.
Geneva: World Health Organisation, 2000.
[6] D. J. Hoffman, “Upper limits in developing countries: warning against
too much in lands of too little,” Journal of the American College of
Nutrition, vol. 23, no. 6, pp. 610S–615S, 2004. View at Google
Scholar • View at Scopus
[7] de Koning L, Merchant AT, Pogue J, Anand SS (2007) Waist
circumference and waist-to-hip ratio as predictors of cardiovascular
events: meta-regression analysis of prospective studies. Eur Heart J
28: 850–856. doi: 10.1093/eurheartj/ehm026
[8] Krakauer NY, Krakauer JC (2014) Dynamic association of mortality
hazard with body shape. PLOS ONE 9: e88793. doi:
10.1371/journal.pone.0088793
[9] Stevens J, McClain JE, Truesdale KP (2008) Selection of measures in
epidemiologic studies of the consequences of obesity. Int J Obes
(Lond) 32: Suppl 3, S60–66. doi: 10.1038/ijo.2008.88
[10] Brown P (2009) Waist circumference in primary care. Prim Care
Diabetes 3: 259–261. doi: 10.1016/j.pcd.2009.09.006
[11] Mason C, Katzmarzyk PT (2009) Variability in waist circumference
measurements according to anatomic measurement site. Obesity 17:
1789–1795. doi: 10.1038/oby.2009.87
[12] Lee SY, Gallagher D (2008) Assessment methods in human body
composition. Curr Opin Clin Nutr Metab Care 11: 566–572.
[13] Kyle UG, Bosaeus I, De Lorenzo AD, Deurenberg P, Elia M, et al.
(2004) Bioelectrical impedance analysis-part II: utilization in clinical
practice. Clin Nutr 23: 1430–1453. doi: 10.1016/j.clnu.2004.09.012
[14] Ricciardi R, Talbot LA (2007) Use of bioelectrical impedance
analysis in the evaluation, treatment, and prevention of overweight
and obesity. J Am Acad Nurse Pract 19: 235–241. doi:
10.1111/j.1745-7599.2007.00220
[15] Avenell A, Broom J, Brown TJ, Poobalan A, Aucott L, Stearns SC,
Smith WC, Jung RT, Campbell MK and Grant AM. Systematic
review of the long-term effects and economic consequences of
treatments for obesity and implications for health improvement.
Health Technol Assess. 2004; 8:iii-iv, 1-182. | PubMed Abstract |
PubMed Full Text
[16] Merten S, MPH and Julia Dratva, et al. Do baby-friendly hospitals
influence breastfeeding duration on a national level?. Pediatrics. 2005;
116:702–708. | Article.
[17] Bosy-Westphal A, Booke CA, Blocker T, Kossel E, Goele K, et al.
(2010) Measurement site for waist circumference affects its accuracy
as an index of visceral and abdominal subcutaneous fat in a Caucasian
population. J Nutr 140: 954–961. doi: 10.3945/jn.109.118737
[18] Siri W.E. Body composition from fluid spaces and density analysis of
methods. In: Brozek J, Henschel A.Techniques for measuring body
composition. Washington, DC: National Research Council; 1961. p.
223-44.
[19] Lee S.Y., Gallagher D. Assessment methods in human body
composition. Curr Opin Clin Nutr Metab Care. 2008;11(5):566–
572. (PMC free article) (PubMed).
[20] Gibson R.S. Food and Nutrition Guidelines for Healthy Children and
Young People (Aged 2–18 years): A background paper. Principle of nutritional assessment (2nd ed.) Oxford: Oxford University Press,
2005: 20-30.
[21] Flegal KM, Graubard B I, Williamsen D F, Mitchell G H. Excess
deaths associated with underweight, overweight, and obesity. JAMA
2005; 293: 1861-67.
[22] Jackson AS, Stanforth PR, Gagnon J, Rankinen T, Leon AS, Rao DC,
et al. The effect of sex, age and race on estimating percentage body
fat from body mass index: the heritage family study. Int J Obes Relat
Metab Disord 2002; 26: 789-96.
[23] Gallagher D., Heymsfield S. B., Heo M., Jebb S. A., Murgatroyd P.
R., and Sakamoto Y.,. Healthy percentage body fat ranges: an
approach for developing guidelines based on body mass index1–3.
Am. J. Clin. Nutr., September 2000; 72 (3): 694-701.
[24] Zeng Q, Dong SY, Sun XN, Xie J, Cui Y. Percent body fat is a better
predictor of cardiovascular risk factors than body mass index. Braz J
Med Biol Res 2012; 45: 591-600.
[25] Gómez-Ambrosi J, Silva C, Galofré JC, Escalada J, Santos S, Millán
D, et al. Body mass index classification misses subjects with
increased cardiometabolic risk factors related to elevated adiposity.
Int J Obes (Lond) 2012; 36: 286-94.
[26] Chris Burslem, October. The Changing Face of Malnutrition. IFPRI
Forum, International Food Policy Research Institute: Washington,
D.C. 2004. | PdfFuzzy Sets and Systems. Vol. 49, No. 1, 1992.
[27] Amani R. Comparison between bioelectrical impedance analysis and
body mass index methods in determination of obesity prevalence in
Ahvazi women. Eur J Clin Nutr. 2007;61:478–82. (PubMed).
[28] Pecoraro P, Guida B, Caroli M, et al. Body mass index and skinfold
thickness versus bioimpedance analysis: fat mass prediction in
children. Acta Diabetol.2003; 40:S278–81. (PubMed).
@article{"International Journal of Medical, Medicine and Health Sciences:70079", author = "Vinti Davar", title = "Body Composition Analysis of University Students by Anthropometry and Bioelectrical Impedance Analysis", abstract = "Background: Worldwide, at least 2.8 million people
die each year as a result of being overweight or obese, and 35.8
million (2.3%) of global DALYs are caused by overweight or
obesity. Obesity is acknowledged as one of the burning public
health problems reducing life expectancy and quality of life. The
body composition analysis of the university population is essential
in assessing the nutritional status, as well as the risk of developing
diseases associated with abnormal body fat content so as to make
nutritional recommendations. Objectives: The main aim was to
determine the prevalence of obesity and overweight in University
students using Anthropometric analysis and BIA methods. Material
and Methods: In this cross-sectional study, 283 university students
participated. The body composition analysis was undertaken by
using mainly: i) Anthropometric Measurement: Height, Weight,
BMI, waist circumference, hip circumference and skin fold
thickness, ii) Bio-electrical impedance was used for analysis of
body fat mass, fat percent and visceral fat which was measured by
Tanita SC-330P Professional Body Composition Analyzer. The
data so collected were compiled in MS Excel and analyzed for
males and females using SPSS 16. Results and Discussion: The
mean age of the male (n= 153) studied subjects was 25.37 ±2.39
years and females (n=130) was 22.53 ±2.31. The data of BIA
revealed very high mean fat per cent of the female subjects i.e.
30.3±6.5 per cent whereas mean fat per cent of the male subjects
was 15.60±6.02 per cent indicating a normal body fat range. The
findings showed high visceral fat of both males (12.92±3.02) and
females (16.86±4.98). BMI, BF% and WHR were higher among
females, and BMI was higher among males. The most evident
correlation was verified between BF% and WHR for female
students (r=0.902; p", keywords = "Anthropometry, bioelectrical impedance, body fat
percentage, obesity.", volume = "9", number = "6", pages = "492-5", }
