Short Communication

Adaptation Potential and Body Mass Index in Assessing the Vital Activity of the Population in Mountain Regions

Abstract

Background: We aimed to evaluate the functional state of the population of the midlands and highlands of Alai region (Kyrgyzstan) on the basis of body mass index (BMI) and adaptation potential (AP). The characteris- tic of people with overweight and underweight are presented. A clean dependence of AP on BMI was revealed. Methods: In Alai region (Kyrgyzstan), 285 citizens of Gulcha village (1.540 m above sea level) and 312 citizens of Sary-Tash village (3.200 m above sea level) were examined in July-August 2023. Blood pressure (BP) was generally measured at rest in the seated position. The BMI and AP were calculated.
Results: In the midlands and highlands BP correspond to the physiological norm. The AP scores in the mid- lands region for men was 2.32 points, for women - 2.38 points, but in highlands areas these values were slightly higher: for men – 2.52 points, for women – 2.42 points. The total BMI values for men in the midlands and highlands were 23.39 and 23.24 kg/m2 respectively, for women in the midlands this indicator became higher than normal (26.53 kg/m2), but in the highlands it corresponded to the norm (24.78 kg/m2).
Conclusion: It is necessary to determine the value of AP, BMI and type of self-regulation of blood circulation when assessing the functional state of residents living in mountain areas. In the highlands overweight, which is one of the significant risk factors for health disorders, with tension of regulatory mechanisms can become a trigger for the development of cardiovascular diseases.

1. Danilova-Danilyan VI, Piskunova NA (2015). Sustainable development: new challenges. Publishing house Asspekt-Press, 336 pp.
2. Lim JU, Lee JH, Kim JS, et al (2017). Comparison of World Health Organization and Asia-Pacific body mass index classifications in COPD patients. Int J Chron Obstruct Pulmon Dis, 12:2465-2475.
3. Baevsky RM (2003). The physiological norm and the concept of health. Ross Fiziol Zh Im I M Sechenova, 4(89):473-89.
4. Chen Y, Copeland WK, Vedanthan R, et al (2013). Association between body mass index and cardiovascular disease mortality in east Asians and south Asians: pooled analysis of prospective data from the Asia Cohort Consortium. BMJ, 347:f5446.
5. Hirakawa Y, Lam TH, Welborn T, et al (2016). The impact of body mass index on the associations of lipids with the risk of coronary heart disease in the Asia Pacific region. Prev Med Rep, 3:79-82.
6. Hiramatsu Y, Ide H, Furui Y (2023). Associations of Lifestyle-Related Factors With Body Mass Index and Blood Pressure in the Middle-Aged and Older Population-Based Cohort in Japan: A Longitudinal Study. Asia Pac J Public Health, 35(5):358-365.
7. Ni Mhurchu C, Rodgers A, Pan WH, Gu DF, Woodward M (2004). Asia Pacific Cohort Studies Collaboration. Body mass index and cardiovascular disease in the Asia-Pacific Region: an overview of 33 cohorts involving 310 000 participants. Int J Epidemiol, 33(4):751-8.
8. Matsumura T, Sankai T, Yamagishi K, et al (2023). Trends for the Association be-tween Body Mass Index and Risk of Cardiovascular Disease among the Jap-anese Population: The Circulatory Risk in Communities Study (CIRCS). J Athero-scler Thromb, 30(4):335-347.
9. Tesfaye F, Nawi NG, Van Minh H, et al (2007). Association between body mass index and blood pressure across three populations in Africa and Asia. J Hum Hypertens, 21(1):28-37.
Files
IssueVol 53 No 8 (2024) QRcode
SectionShort Communication(s)
DOI https://doi.org/10.18502/ijph.v53i8.16296
Keywords
Adaptation potential Body mass index Midlands Highlands Kyrgyzstan
Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
1.
Satarkulova AM, Keneshova KS, Aisaeva SY, Usenova AA, Bakirova SS. Adaptation Potential and Body Mass Index in Assessing the Vital Activity of the Population in Mountain Regions. Iran J Public Health. 2024;53(8):1898-1902.