Unfeasible body mass index and its association with low haemoglobin concentration: a correlation study among undergraduate medical students

Authors

  • Tazeen Khan Department of Physiology, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India
  • Zahid A. Khan Department of Community Medicine, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India
  • Sonia Kochhar Department of Physiology, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India
  • Baljinder Singh Department of Physiology, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India
  • Gurdev L. Goyal Department of Physiology, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India
  • Ruby Sharma Department of Physiology, MM Institute of Medical Sciences and Research, Mullana, Ambala, Haryana, India

DOI:

https://doi.org/10.18203/2320-6012.ijrms20184898

Keywords:

Anemia, Body mass index, Correlation, Gender, Hemoglobin, Iron, Overweight, Obesity, Students

Abstract

Background: Low hemoglobin concentration and unfeasible body mass index adversely affect the health of people, consequently increasing morbidity and mortality among them. Hemoglobin concentration among individuals is associated with their body mass index. The prevalence of iron deficiency anemia is higher among underweight and overweight/obese people compared to those with normal BMI. Thus, the present study aimed to determine the correlation between hemoglobin concentration and BMI of undergraduate medical students.

Methods: A cross-sectional study was carried out among 210 undergraduate medical students. Body mass index was calculated and hemoglobin estimation was done by Sahli's hemoglobinometer. Correlation between hemoglobin concentration and body mass index of subjects was assessed by Pearson’s correlation coefficient.

Results: Underweight students had lowest mean hemoglobin concentration and the mean hemoglobin concentrations increased significantly (p<0.001) with increase in the BMI of subjects. A highly significant positive correlation (r=0.307, p<0.001) between BMI and hemoglobin concentration was observed. Further, significant positive correlation was observed among males (r=0.268, p=0.013), students with normal BMI (r=0.283, p=0.003) and overweight students (r=0.415, p=0.035) only.

Conclusions: Hemoglobin concentration and BMI show a positive correlation, however this correlation tends to become negative in obese individuals. As both low hemoglobin concentration and unfeasible body mass index have detrimental effects on the health, diligent screening and management of both is essential for better outcome.

References

Haas JD, Brownlie T. Iron deficiency and reduced work capacity: a critical review of the research to determine a causal relationship. J Nutr. 2001;131:676S-88S.

Halterman JS, Kaczorowski JM, Aligne CA, Auinger P, Szilagyi PG. Iron deficiency and cognitive achievement among school-aged children and adolescents in the United States. Pediatrics. 2001;107(6):1381-6.

Brabin BJ, Hakimi M, Pelletier D. An analysis of anaemia and pregnancy-related maternal mortality. J Nutr. 2001;131:604S-15S.

Zhang Q, Ananth CV, Rhoads GG, Li Z. The impact of maternal anemia on perinatal mortality: a population based, prospective cohort study in China. Ann Epidemiol. 2009;19:793-9.

Steer PJ. Maternal hemoglobin concentration and birth weight. Am J Clin Nutr. 2000;71(5 Suppl):1285S-7S.

Han Z, Mulla S, Beyene J, Liao G, McDonald SD. Maternal underweight and the risk of preterm birth and low birth weight: A systematic review and meta-analyses. Int J Epidemiol. 2011;40:65-101.

Gjesdal CG, Halse JI, Eide GE, Brun JG, Tell GS. Impact of lean mass and fat mass on bone mineral density: The Hordaland Health Study. Maturitas. 2008;59(2):191-200.

Biro FM, Wien M. Childhood obesity and adult morbidities. Am J Clin Nutr. 2010;91(5):1499S-1505S.

Must A, Jacques PF, Dallal GE, Bajema CJ, Dietz WH. Long-term morbidity and mortality of overweight adolescents. A follow-up of the Harvard Growth Study of 1922 to 1935. N Engl J Med. 1992;327:1350-5.

Caird J, Kavanagh J, O'Mara-Eves A. Does being overweight impede academic attainment? A systematic review. Health Educ J. 2014;73:497-521.

Kassebaum NJ, Jasrasaria R, Naghavi M, Wulf SK, Johns N, Lozano R, et al. A systematic analysis of global anaemia burden from 1990 to 2010. Blood. 2014;123(5):615-24.

WHO. The global prevalence of anaemia in 2011. Geneva: World Health Organization;2015.

DiMeglio G. Nutrition in adolescence. Pediatrics in Review. 2000;21:32-3.

Keikhaei B, Askari R, Aminzadeh M. Adolescent with Unfeasible Body Mass Index: A Risk Factor for Iron Deficiency Anemia. J Health Med Informat. 2012;3:109.

Khan ZA, Khan T, Bhardwaj A, Aziz SJ, Sharma S. Underweight as a risk factor for nutritional anaemia-a cross-sectional study among undergraduate students of a medical college of Haryana. Indian J Comm Health. 2018;30(1):63-9.

Sumarmi S, Puspitasari N, Handajani R, Wirjatmadi B. Underweight as a risk factor for iron depletion and iron-deficient erythropoiesis among young women in rural areas of East Java, Indonesia. Mal J Nutr. 2016;22(2):219-32.

Aigner E, Feldman A, Datz C. Obesity as an emerging risk factor for iron deficiency. Nutrients. 2014;6(9):3587-600.

Moayeri H, Bidad K, Zadhoush S, Gholami N, Anari S. Increasing prevalence of iron deficiency in overweight and obese children and adolescents (Tehran Adolescent Obesity Study). Euro J Pediatrics. 2006;165(11):813-4.

Nead KG, Halterman JS, Kaczorowski JM, Auinger P, Weitzman M. Overweight children and adolescents: a risk group for iron deficiency. Pediatrics. 2004;114(1)104-8.

Gozkaman A, Okuturlar Y, Mert M, Harmankaya O, Kumbasar A. The relationship between haemoglobin and BMI in overweight and obese patients. In17th European Congress of Endocrinology 2015 May 1 (Vol. 37). BioScientifica.

Misra A, Chowbey P, Makkar BM, Vikram NK, Wasir JS, Chadha D, et al. Consensus statement for diagnosis of obesity, abdominal obesity and the metabolic syndrome for Asian Indians and recommendations for physical activity, medical and surgical management. J Assoc Physicians India. 2009;57:163-70.

Beard JL. Iron biology in immune function, muscle metabolism and neuronal functioning. J Nutr. 2001;131:568S-580S.

Jamali NH, Jamali AH, Khand AA, Mahesar H, Arain MI. Factors affecting the body mass index, haemoglobin and serum ferritin level in students. Am J Blood Res. 2017;7(3):18-28.

Kalyanshetti SB, Kallur R. Association of anemia with BMI in medical students, a cross-sectional study. Indian J Basic App Med Res. 2016;6(1):371-7.

Saxena Y, Shrivastava A, Saxena V. Effect of gender on correlation of anaemia with body mass index in medical students. Indian J Physiol Pharmacol. 2011;55(4):364-9.

Yadav SS, Saini P, Khan ZA, Bachloo T, Kumar R, Singh J. Assessment of body mass index among undergraduate medical students-A cross-sectional study from the Medical College of Haryana. Int J Med Sci Public Health. 2016;5:705-8.

Kannan U, Achuthan A. Correlation of Hemoglobin concentration with Body Mass Index among medical students. Indian J Clin Anat Physiol. 2017;4(2):227-30.

Kurniawan YA, Muslimatun S, Achadi EL, Sastroamidjojo S. Anaemia and iron deficiency anaemia among young adolescent girls from the peri urban coastal area of Indonesia. Asia Pac J Clin Nutr. 2006;15:350e6.

Tesfaye M, Yemane T, Adisu W, Asres Y, Gedefaw L. Anemia and iron deficiency among school adolescents: burden, severity, and determinant factors in southwest Ethiopia. Adolesc Health Med Ther. 2015;6:189-96.

Ghadiri-Anari A, Nazemian N, Vahedian-Ardakani HA. Association of body mass index with hemoglobin concentration and iron parameters in Iranian population. ISRN Hematology. 2014 Feb 10;2014.

Sharmila P, Kumar RSR. Correlation between Prevalence of Anemia and Body Mass Index among Adolescent Girls. (IJSR). 2017;6(11):320-3.

Al-Sharbatti SS, Al-Ward NJ, Al-Timimi DJ. Anemia among adolescents. Saudi Med J. 2003;24(2):189-94.

Laghari ZA, Baig NM, Memon, F, Panhwar F, Qambarani MR, Palh ZA. Correlation of BMI and MUAC with anemia among Sindh University Students, Jamshoro, Pakistan. Sindh Univ Res J Sci Ser. 2017;49(3):553-6.

Peter R, Kumar R, Sangwan L, Pandey S. Prevalence of anemia and its correlation to body mass index: study among unmarried girls. Inter J Basic App Med Sci. 2012;2(3):58-62.

Sanad M., Osman M, Gharib A. Obesity modulate serum hepcidin and treatment outcome of iron deficiency anemia in children: A case control study. Ital J Pediatr. 2011;37:34.

Weisberg SP, McCann D, Desai M, Rosenbaum M, Leibel RL, Ferrante AW. Obesity is associated with macrophage accumulation in adipose tissue. J Clin Investig. 2003;112:1796-808.

Ganz T. Hepcidin, a key regulator of iron metabolism and mediator of anemia of inflammation. Blood. 2003;102:783-8.

Gong L, Yuan F, Teng J, Li X, Zheng S, Lin L, et al. Weight loss, inflammatory markers, and improvements of iron status in overweight and obese children. J Pediatr. 2014;164:795-800.

Amato A, Santoro N, Calabro P, Grandone A, Swinkels DW, Perrone L, et al. Effect of body mass index reduction on serum hepcidin levels and iron status in obese children. Int J Obes. 2010;34:1772-4.

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Published

2018-11-26

How to Cite

Khan, T., Khan, Z. A., Kochhar, S., Singh, B., Goyal, G. L., & Sharma, R. (2018). Unfeasible body mass index and its association with low haemoglobin concentration: a correlation study among undergraduate medical students. International Journal of Research in Medical Sciences, 6(12), 4002–4007. https://doi.org/10.18203/2320-6012.ijrms20184898

Issue

Vol. 6 No. 12 (2018): December 2018

Section

Original Research Articles