Dietary diversity and food variety scores and their association with nutrition and health status of Indian children and adolescents: A multicenter study.

BACKGROUND: The objectives of this study were to 1) evaluate the dietary diversity scores (DDS) and food variety scores (FVS) among Indian children and adolescents aged 9-18 y; 2) compare the DDS and FVS in association with demographic, socioeconomic, and health characteristics (growth and hemoglobin [Hb] concentrations); and 3) determine DDS and FVS cutoffs to identify dietary micronutrient adequacy. METHODS: This study was performed in a subset (n = 1845) of children and adolescents enrolled in a multicenter study (2016-2017) from urban and rural areas of six Indian states. Height, weight, and Hb were measured, and anthropometric Z-scores were computed. Sociodemographic data were collected using a structured questionnaire. Dietary data collected by 24-h dietary recall were used to calculate the DDS and FVS. The mean adequacy ratio (MAR) for 10 micronutrients was computed. Receiver operating characteristic analysis was performed to define cutoffs of DDS and FVS. RESULTS: In comparison with children and adolescents from rural areas, urban children and adolescents consumed more diverse diets (urban, 4.1 ± 1.1; rural, 3.5 ± 1; P < 0.01) and had a higher mean FVS (urban, 19.9 ± 5.7; rural, 15.9 ± 4.5; P < 0.01). Both the DDS and FVS were significantly correlated with each other (r = 0.860; P < 0.01) and were positively correlated with MAR, growth, and Hb (P < 0.001) and mother's educational level (P < 0.01). The cutoffs of ≥6.5 (DDS) and ≥17 (FVS) were determined to predict micronutrient adequacy. CONCLUSIONS: Both the DDS and FVS can be used interchangeably for assessing growth, health status, and nutritional adequacy. Single cutoff values of the DDS and FVS may aid in prompt identification of children and adolescents with micronutrient inadequacy.

Establishing a Unique, Single Cutoff Value for Body Frame Size for Screening for Risk of Hypertension in Indian Children and Adolescents-A Multicenter Study.

OBJECTIVES: To evaluate the strength of association of two measures of BFS: frame-size one (FS1; height ÷ wrist circumference) and frame-size two (FS2; elbow breadth), with body-fat indices, body composition, and hypertension in Indian children and adolescents, and to determine age and sex-specific cutoffs of BFS to predict hypertension. METHODS: This was a cross-sectional, multicenter, school-based study in 9- to 18-y-old healthy children (n = 1423) randomly selected from 3 Indian states. Based on tertiles, FS1 and FS2 were categorized as small, medium, and large. RESULTS: Greater BFS (both FS1 and FS2) was associated with higher body-fat indices, BP (r = -0.424 for FS1 and r = 0.282 for FS2, p < 0.01) and lower muscle mass (MM). A significantly greater percentage of children classified as having large BFS according to FS1 were found to be overweight/obese (46% vs. 25%), hypertensive (34% vs. 17%) than FS2 (p < 0.01). FS1 showed strong to very strong association (Cramer's V 0.15 to > 0.25) with body-fat indices, MM, and BP as opposed to FS2 (For BP X2 = 120.9 for FS1 vs. 9.06 for FS2). FS1 better identified obesity and hypertension, and a value of 10.6 was determined to be the optimum cutoff for predicting hypertension in both genders (sensitivity 71%, specificity 75%, AUC 0.795, and NPV 95%). CONCLUSIONS: Height-to-wrist circumference is a novel, simple, and precise BFS measure for predicting hypertension and muscle mass (9-18 y) and a single cutoff value (< 10.6) may contribute to rapid screening and prompt identification of children at risk of hypertension.

Influence of ecoregional and lifestyle factors on growth and body composition of Indian children and adolescents aged 9-18 years-A multicenter study.

OBJECTIVES: Ecoregion comprises all the environmental factors such as climate, vegetation, geomorphology, and soil taken together. The objectives of this study were to (1) assess differences in growth and body composition (BC) in 9-18-year-old children and adolescents (CA), across six ecoregions of India, (2) evaluate and compare the magnitude of the effect of ecoregional and lifestyle factors (LSF) on growth and BC in urban (U) and rural (R) children and adolescents, and (3) reassess the applicability of Bergmann's Rule and Allen's Rule to humans. SUBJECTS AND METHODS: Data on 1845 CA (925 boys; 920 girls) were collected (2016-2017) from urban and rural areas of six ecoregions of India. Anthropometric and BC parameters were measured; Z-scores were computed. Lifestyle Index score (LIS) based on LSF-(socioeconomic status [SES], diet, physical activity) was computed (categorized as low, medium, high-indicates better LSF). Univariate analysis was performed to estimate effect size. RESULTS: Significant differences were observed in growth and BC across urban and rural ecoregions. CA with high LIS were taller and heavier than those with low LIS (p < .05). Ecoregion had greater effect on growth (Partial eta square (η2 ) for R = 0.136 vs. U = 0.057) and BC (η2 for R = 0.094 vs. U = 0.058) of rural CA than urban (p < .01). LSF had more effect on the BC of urban CA (η2  = 0.017) than rural (η2  = 0.002, p < .01). CONCLUSION: Disparities among the six ecoregions were not large enough to fully support Bergmann's Rule and Allen's Rule. Ecoregion had greater effect on growth and BC of rural CA than urban, while lifestyle factors had more effect on the BC of urban CA.

Prevalence and determinants of primary hypertension in urban and rural children from six Indian states: A multicenter study.

OBJECTIVES: Among urban and rural Indian children ages 9 to 18 y, we aimed to assess the prevalence and determinants of primary hypertension (PH), and explore the relationship of fat indices and body composition with hypertension. METHODS: Data from a multicenter study (2016-2017), representative of children (age 9-18 y) from six states were analyzed (n = 1818; urban n = 895). All anthropometric parameters (Z-scores), blood pressure (BP), body composition, and resting metabolic rate (RMR) were measured. Information from a 2-d 24-h diet recall was collected, nutrient and food group intakes were calculated, and physical activity (PA) was assessed. Children were categorized as normotensive or pre-/hypertensive (>90th percentile), and a regression analysis was carried out for determinants. RESULTS: Urban children were significantly taller, heavier, more overweight or obese (25% vs. 11%), pre-/hypertensive (18% vs. 10%), adipose, and had lower RMR/weight than rural children. All hypertensive children had higher fat indices, lower muscle mass, and RMR/weight than those who were normotensive (P < 0.05). Rural hypertensive children consumed more junk food, simple carbohydrate (CHO), fat, and sodium than those who were normotensive. RMR (R2 = 33%) was found to be an important predictor of BP in rural children and body mass index (R2 = 46%) in urban children, followed by central and peripheral obesity, PA, and diet. CONCLUSIONS: Our study highlights that rural children are also at risk of developing PH, especially those with a higher intake of junk food and carbohydrate. Another interesting finding was the negative association of PH with RMR/weight, increasing PA, as well as a micronutrient-rich diet with calcium and magnesium vital to prevent PH. Health care policies need to focus on the increasing prevalence of obesity and PH, not only in urban, but also rural children where different strategies may have to be applied.

Differential Relationship of Grip Strength with Body Composition and Lifestyle Factors Between Indian Urban and Rural Boys and Girls.

OBJECTIVES: To assess grip strength and gender differences in grip strength in 9-18-y-old urban and rural Indian children, to study association of grip strength with body composition, and assess determinants of grip strength. METHODS: This was part of a multicenter, cross-sectional, school-based study (n = 1978, mean age 13.3 ± 2.2 y) from three urban and rural states. Anthropometry, body composition, dietary intake, physical activity, sunlight exposure, and grip strength (in kg) were measured. RESULTS: Mean grip strength increased with age but plateaued in girls after 12 y and was higher in boys (19.6 ± 9.2) than girls (14.3 ± 5.3) (p < 0.05). Mean grip strength was higher in urban (21.05 ± 9.7) than in rural boys (17.8 ± 8.2) (p < 0.05), and comparable in urban (14.9 ± 5.2) and rural girls (13.8 ± 5.5). Grip strength in girls remained lower than boys after adjusting for muscle mass. Difference between boys and girls reduced after body size [body mass index (BMI)] correction, but remained low in girls, plateauing after 15 y. Muscle mass and age were significant determinants of grip strength in all children. On addition of lifestyle factors to the model, grip strength was explained to varied degrees in the children. CONCLUSION: In boys, nutrition through body size and composition was largely responsible for the differences in grip strength, and in girls, additionally, sociocultural factors also possibly impacted grip strength.

Inter-regional differences in body proportions in Indian children and adolescents-a cross-sectional multicentric study.

Background: Sitting height (SH) and leg length (LL) help in assessing disproportionate growth. Anthropometric dissimilarity has been observed in different ethnicities.Aim: To (1) study sitting height and body proportions in children from different regions of India; and (2) compare sitting height and body proportions with data from other countries.Subjects and methods: This was a cross-sectional multicentric observational study, where 7961 (4328 boys) 3-18 year old children from five regions (north, south, east, west and central) were measured (height, weight and SH).Results: Boys from north India and girls from central India were taller and heavier (mean height 153.2 ± 18, 146.4 ± 11), while western boys and girls were the shortest (131.1 ± 20.7, 129.8 ± 19.5) (p < 0.05 for all). The highest SH was observed in the north (79.2 ± 8.5) and the lowest in the west (68.8 ± 9.1). Mean SH:LL ratio was highest in children from the northeast (1.13) followed by those from western, northern and central India (1.12, 1.10 and 1.07, respectively) and the ratio was the least in children from south India (1.05) (p < 0.0.5 for all except northeast and west). Children from the north and west were similar to the Dutch, children from the south were similar to South (black) Africans and the north-eastern children were similar to Chinese children.Conclusion: There were inter-regional differences in body proportions; similarities in body proportions with children from other ethnicities may throw light on the migration history of Indian people.

Random Blood Glucose Concentrations and their Association with Body Mass Index in Indian School Children.

OBJECTIVE AND AIMS: Overweight/obese children are at risk of developing type 2 diabetes mellitus. Random glucose elevations provide early warning signs of glycemic dysregulation. To assess random blood glucose (RBG) concentrations and risk factors associated with prediabetes in children aged 3-18 years from six Indian regions. METHOD: Multicenter, cross sectional, observational school-based study; multi-stage stratified random sampling was carried out. Height and weight measured; body mass index (BMI) was computed. RBG measured using a glucometer. National sample survey was used for dietary patterns. Data were analyzed using SPSS 25.0 for Windows. SETTING: Study centers were from Maharashtra, Gujarat, Chhattisgarh, Assam, Tamil Nadu and Punjab from 40 selected schools. PARTICIPANT: Children aged 3-18 years were measured. RESULTS: Data on 14339 subjects (7413 boys) were analyzed. Prevalence of obesity was 5.8% and overweight-10.6%. Overall, 1% had low (<3 mmol/L), 93.7% in reference range (3.9-7.2 mmol/L) and 5.3% had elevated RBG (>7.2 mmol/L). With increasing mean BMI, there was increase in RBG concentrations. Children from Tamil Nadu were more likely to have RBG outside reference range compared to other regions (P < 0.05). Assam and Punjab had highest prevalence of RBG and BMI within reference range. Energy intake partly explained regional variations. Multivariate analysis showed male gender, urban residency, age >10 yrs (girls) and 13 yrs (boys), and overweight or obesity were predictive of prediabetes. CONCLUSION: Increased prevalence of overweight, obesity and prediabetes in Indian children are a matter of concern. Regional differences suggest that strategies to prevent obesity and combat perturbations in blood sugar may have to be customized.

Sitting height percentiles in 3-17-year-old Indian children: a multicentre study.

Background: Sitting height (StH) percentiles are not described for the Indian paediatric population.Aim: To generate multicentre StH percentile values for Indian children.Subjects and methods: A total of 7961 apparently healthy children (3-17 years old, Boys: 4328) randomly selected from 10 schools from six states of India were measured for height (ht), StH and weight during July 2016-October 2017.Results: The StH:Ht ratio was 0.52 (0.02) and was similar between boys and girls (p > 0.1). The ratio decreased in boys until the age of 14 years and then slightly increased; the lowest ratio was observed during 13-15 years. In girls, however, the StH:Ht ratio decreased until the age of 9 years and then plateaued until 15 years of age with a slight increase at 16 years; the lowest ratio was observed at the age of 12-13 years. Sitting height percentiles (3rd, 10th, 25th, 50th, 75th, 90th and 97th) were computed using LMS chartmaker.Conclusions: The results indicate that, during the pubertal years, the lower limb growth is more predominant than trunk growth. Further, this study provides smoothened percentile curves for sitting height in Indian children for the first time.