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The International Journal of Behavioral Nutrition and Physical Activity logoLink to The International Journal of Behavioral Nutrition and Physical Activity
. 2011 Feb 7;8:9. doi: 10.1186/1479-5868-8-9

Weight-related concerns and weight-control behaviors among overweight adolescents in Delhi, India: A cross-sectional study

Melissa H Stigler 1,, Monika Arora 2,3, Poonam Dhavan 1, Radhika Shrivastav 2, K Srinath Reddy 3, Cheryl L Perry 1
PMCID: PMC3045278  PMID: 21299879

Abstract

Background

Obesity is emerging as a public health problem among adolescents in India. The aim of this study was to describe specific weight-related concerns among school-going youth in Delhi, India and to assess the prevalence of weight control behaviors, including healthy and unhealthy ones. Differences by weight status, gender, grade level, and school-type (a proxy for SES in this setting) are considered.

Methods

This study is cross-sectional by design. A sample of eighth and tenth graders (n = 1818) enrolled in Private (middle-high SES) and Government (low SES) schools (n = 8) in Delhi, India participated. All students' height and weight were measured. Students participated in a survey of weight-related concerns and weight-control behaviors, as well. Mixed-effects regression models were used to test for differences in weight-related concerns and weight-control behaviors across key factors of interest (i.e., weight status, gender, grade level, and SES).

Results

The combined prevalence of obesity and overweight was 16.6%, overall. Controlling one's weight was important to overweight and non-overweight youth, alike (94.2% v. 84.8%, p < 0.001). Significantly more overweight or obese youth reported trying to control their weight last year, compared to those who were not overweight (68.1% v. 18.0%, p < 0.001). Healthy weight control behaviors were more common than unhealthy or extreme practices, although the latter were still prevalent. Half of the overweight or obese students misclassified their weight status, while about 1 in 10 non-overweight youth did the same. Body dissatisfaction was highest among overweight youth and girls.

Conclusions

Interventions to promote healthy weight control should be pertinent to and well-received by school-going youth in India. Healthy weight control practices need to be explicitly encouraged and unhealthy practices reduced. Future interventions should address issues specific to body image, too, as body dissatisfaction was not uncommon among youth.

Findings

Obesity is emerging as a serious public health problem in India, especially in urban regions of the country [1,2]. Here, obesity may ultimately prove to be more problematic than that being experienced in the United Kingdom and the United States, as its negative health sequelae, like diabetes, occur at least a decade earlier in the life course, by comparison [3]. At present, the prevalence of obesity among affluent adolescents in India is comparable to that among adolescents in many industrialized countries in the West [2,4-7]. There is a clear need for weight control interventions here, and young people should be an important target [2]. To date, no published study has evaluated the strategies adolescents use in India to control their weight. This paper reports on specific weight-related concerns and the prevalence of weight control behaviors among adolescents (13-17 years old) in Delhi, India. Differences by weight status, gender, grade level, and school type (which is a proxy for SES in India [8]) are explored.

This study is cross-sectional by design. In 2006, eight schools in Delhi, India were recruited to participate. Half (n = 4) were Private schools (which cater to middle-upper SES families) and half (n = 4) were Government schools (which cater to low SES families). Ethical clearances for the study were obtained from the appropriate human subjects boards in India and the US. All students enrolled in the 8th and 10th grades in these eight schools (n = 2339) were eligible and invited to participate in a survey and have their height and weight measured. Response rates for anthropometric measures and survey were 87.2% and 88.6%, respectively. Non-participants included parent refusals (<1%), student refusals (<1%), and student absentees (7-11%). The analysis sample includes 1,818 students who participated in both data collection efforts. Of these, 60% were boys, 52% were in Private schools, and 55% were in 8th grade. The mean age of these 8th and 10th graders was 13.9 years old and 15.8 years old, respectively.

Measured height and weight were collected from these students using standardized protocols adapted from Lohman [9]. These measures were used to compute each student's BMI (kg/m2), then their weight status was derived using new age- and gender-specific BMI cut-points provided by WHO [10]. This international standard is especially appropriate for school-going youth in India [6]. Measures of weight-related concerns and weight control behaviors were adapted from an instrument previously used in the United States [11]. Weight-related concerns included (a) perceived weight status, (b) body satisfaction, and (c) the importance of weight control. Weight control practices included both (a) healthy and (b) unhealthy behaviors. Surveys were administered in Hindi and English based on the medium of instruction in school. Further details about these measures, including item wording, are provided in Table footnotes.

Mixed-effects regression models were used to test for differences in weight-related concerns and weight control behaviors across factors of interest (e.g., weight status, gender, grade level, and school type). This type of regression is appropriate for study designs like this, where students are sampled within schools [12]. School was specified as a random effect. Differences in these variables were examined by weight status, for all students (Table 1) and within demographic sub-groups (Table 2). For the latter set of analyses, odds ratios and 95% confidence intervals were generated using logistic regression models, using underweight and normal weight students as the referent group. Finally, differences in weight-related concerns and weight control behaviors were examined by gender and school type, for overweight or obese adolescents only (Table 3). All analyses were conducted using xtmelogit in STATA v10. No differences in grade level for the analyses were noted, so these results are not reported.

Table 1.

Differences in weight-related concerns and weight-control behaviors, by weight status; Delhi, India; 2006 (n = 1818).

Overweight or obese1 (n = 300) Underweight or normal weight1 (n = 1518)
Percent (95% CI) Percent (95% CI) p-value2

WEIGHT-RELATED CONCERNS

Importance of weight control3

  Important 94.2 (90.2 - 96.6) 84.8 (79.8 - 88.7) <0.001

  Not important 5.8 (3.4 - 9.8) 15.2 (11.3 - 20.2) <0.001

Perceived weight status4

  Overweight 56.2 (47.8 - 64.4) 10.8 (8.4 - 13.7) <0.001

  About the right weight 25.0 (20.4 - 30.3) 49.3 (46.8 - 51.9) <0.001

  Underweight 16.4 (11.9 - 22.1) 39.4 (34.7 - 44.2) <0.001

Perceived body satisfaction5

  Low 55.1 (49.3 - 60.7) 26.7 (24.5 - 29.0) <0.001

  Moderate 22.8 (17.9 - 28.5) 36.8 (33.6 - 40.1) <0.001

  High 23.1 (17.6 - 29.7) 36.2 (31.7 - 40.9) <0.001

WEIGHT-CONTROL BEHAVIORS

  Tried to lose weight in the last year 6 71.9 (66.1 - 77.1) 34.5 (31.8 - 37.3) <0.001

Healthy behaviors (at least one)7 91.5 (87.5 - 94.4) 82.9 (79.9 - 85.5) <0.001

  Exercised more 76.7 (71.0 - 81.7) 55.2 (52.1 - 58.3) <0.001

  Ate less sweets 69.2 (62.7 - 75.1) 49.1 (45.1 - 53.2) <0.001

  Ate less high fat foods 63.2 (57.3 - 68.7) 42.1 (39.3 - 44.9) <0.001

  Ate more fruits and vegetables 65.2 (57.9 - 72.0) 64.3 (59.4 - 68.9) 0.772

Unhealthy behaviors (at least one)7 77.7 (69.8 - 84.0) 62.3 (54.5 - 69.6) <0.001

  Fasted 38.0 (28.2 - 48.9) 34.0 (26.1 - 42.8) 0.243

  Skipped meals 39.0 (29.0 - 50.0) 27.8 (20.8 - 36.0) 0.001

  Ate very little food 55.5 (47.5 - 63.2) 28.9 (24.3 - 33.9) <0.001

  Used food substitute 11.6 (7.5 - 17.5) 13.4 (9.7 - 18.1) 0.392

  Took diet pills 15.1 (10.0 - 22.1) 10.7 (7.6 - 14.7) 0.035

  Made myself vomit 8.3 (4.8 - 14.3) 6.9 (4.4 - 10.7) 0.357

1 Weight status determined using age- and gender-specific cut-points from WHO [10].

2 Test for differences performed using mixed-effects regression models, with school specified as a random effect [12]. Models were unadjusted.

3 Importance of weight control was measured with one item, "How important is controlling your weight (a) very important, (b) important, (c) not important, (d) not at all important?" The responses were collapsed into two categories: (1) important ("very important," "important") and (2) not important ("not important," "not at all important") [11].

4 Perceived weight status was measured by a single question, "At this time, do you feel that you are (a) very underweight, (b) somewhat underweight, (c) about the right weight, (d) somewhat overweight, or (e) very overweight?" The responses were collapsed to create three categories: (1) underweight ("very underweight" and "somewhat underweight"), (2) the right weight ("about the right weight"), and (3) overweight ("somewhat overweight" and "very overweight") [11].

5 Perceived body satisfaction was measured using a modified version of the Body Satisfaction Scale, which included five items assessing one's satisfaction with different parts of their body (i.e., height, weight, body shape, waist, hips) using a Likert scale that ranged from "not at all satisfied" to "very satisfied." Responses to these questions were summed and categorized as low, moderate, and high based on distributions within this study population, with one third of the population in each category [11].

6 Students who responded "yes" to "In the past year, have you done anything to try to lose weight or avoid gaining weight ... (a) yes, (b) no?" [11].

7 Students who responded "yes" to "During the past one year, have you done any of the following things in order to lose weight or avoid gaining weight ... [behaviors] ... (a) yes, (b) no?" [11].

Table 2.

Differences in weight-related concerns and weight-control behaviors, by weight status 1, within demographic sub-groups; Delhi, India; 2006 (n = 1818).

All students (n = 1818)
Girls (n = 722) Boys (n = 1096) Private (n = 949) Government (n = 869)

OR2 (95% CI) OR2 (95%CI) OR2 (95% CI) OR2 (95%CI)

WEIGHT-RELATED CONCERNS

Importance of weight control3

  Important 3.18 (1.23 - 8.23) 2.92 (1.66 - 5.15) 3.32 (2.01 - 5.49) 1.73 (0.41 - 7.41)

Perceived weight status4

  Overweight 10.16 (6.16 - 16.76) 12.73 (8.62 - 18.80) 10.52 (7.49 - 14.76) 8.23 (3.98 - 16.99)

Body satisfaction5

  Low 4.03 (2.52 - 6.42) 3.05 (2.20 - 4.23) 3.40 (2.51 - 4.59) 2.41 (1.22 - 4.77)

WEIGHT-CONTROL BEHAVIORS

  Tried to lose weight in the last year 6 5.20 (3.10 - 8.71 4.55 (3.19 - 6.50) 4.68 (3.39 - 6.44) 5.38 (2.48 - 11.67)

Healthy behaviors (at least one)7 5.24 (1.89 - 14.55) 1.75 (1.07 - 2.87) 2.06 (1.31 - 3.24) 6.46 (0.87 - 47.66)

  Exercised more 4.20 (2.35 - 7.50) 2.03 (1.42 - 2.90) 2.23 (1.61 - 3.09) 4.46 (1.83 - 10.87)

  Ate less sweets 4.27 (2.46 - 7.40) 1.75 (1.24 - 2.47) 2.36 (1.75 - 3.19) 3.24 (1.39 - 7.55)

  Ate less high fat foods 3.04 (1.94 - 4.77) 2.17 (1.54 - 3.06) 2.50 (1.85 - 3.37) 1.88 (0.93 - 3.79)

  Ate more fruits and vegetables 1.79 (1.11 - 2.87) 0.83 (0.59 - 1.18) 1.04 (0.76 - 1.42) 0.82 (0.40 - 1.66)

Unhealthy behaviors (at least one)7 4.09 (2.30 - 7.27) 1.51 (1.07 - 2.15) 2.23 (1.63 - 3.05) 1.70 (0.73 - 3.99)

  Fasted 1.78 (1.10 - 2.88) 0.90 (0.62 - 1.31) 1.23 (0.89 - 1.69) 1.18 (0.57 - 2.46)

  Skipped meals 2.05 (1.26 - 3.35) 1.45 (1.00 - 2.10) 2.19 (1.58 - 3.04) 0.58 (0.27 - 1.26)

  Ate very little food 4.37 (2.73 - 7.00) 2.56 (1.82 - 3.60) 2.82 (2.08 - 3.82) 6.12 (2.81 - 13.34)

  Used food substitute 1.49 (0.81 - 2.76) 0.64 (0.40 - 1.03) 0.81 (0.55 - 1.19) 0.95 (0.28 - 3.17)

  Took diet pills 2.26 (1.16 - 4.39) 1.20 (0.76 - 1.87) 1.38 (0.93 - 2.06) 1.92 (0.76 - 4.82)

  Made myself vomit 1.48 (0.64 - 3.38) 1.08 (0.64 - 1.82) 1.07 (0.66 - 1.72) 2.43 (0.90 - 6.57)

1 Weight status determined using age- and gender-specific cut-points from WHO [10].

2 Test for differences performed using mixed-effects regression models, with school specified as a random effect [12]. Models were unadjusted.

3 Importance of weight control was measured with one item, "How important is controlling your weight (a) very important, (b) important, (c) not important, (d) not at all important?" The responses were collapsed into two categories: (1) important ("very important," "important") and (2) not important ("not important," "not at all important") [11].

4 Perceived weight status was measured by a single question, "At this time, do you feel that you are (a) very underweight, (b) somewhat underweight, (c) about the right weight, (d) somewhat overweight, or (e) very overweight?" The responses were collapsed to create three categories: (1) underweight ("very underweight" and "somewhat underweight"), (2) the right weight ("about the right weight"), and (3) overweight ("somewhat overweight" and "very overweight") [11].

5 Perceived body satisfaction was measured using a modified version of the Body Satisfaction Scale, which included five items assessing one's satisfaction with different parts of their body (i.e., height, weight, body shape, waist, hips) using a Likert scale that ranged from "not at all satisfied" to "very satisfied." Responses to these questions were summed and categorized as low, moderate, and high based on distributions within this study population, with one third of the population in each category [11].

6 Students who responded "yes" to "In the past year, have you done anything to try to lose weight or avoid gaining weight ... (a) yes, (b) no?" [11].

7 Students who responded "yes" to "During the past one year, have you done any of the following things in order to lose weight or avoid gaining weight ... [behaviors] ... (a) yes, (b) no?" [11].

Table 3.

Differences in weight-related concerns and weight-control behaviors, by gender and school type; Delhi, India; 2006 (n = 300 overweight or obese students only).

Overweight or obese (n = 300)1
Girls (n = 107) Boys (n = 193) Private (n = 265) Government (n = 35)

Percent (95% CI) Percent (95%CI) p-value2 Percent (95% CI) Percent (95%CI) p-value2

Weight-related concerns

Importance of weight control3

  Important 95.5 (88.5 - 98.3) 91.6 (84.7 - 95.5) 0.212 92.8 (87.0 - 96.1) 94.0 (78.6 - 98.5) 0.804

  Not important 4.5 (1.7 - 11.5) 8.4 (4.5 - 15.3) 0.212 7.2 (3.9 - 13.0) 6.0 (1.5 - 21.5) 0.804

Perceived weight status4

  Overweight 66.7 (53.2 - 77.9) 54.2 (42.1 - 65.8) 0.047 64.4 (53.7 - 73.9) 43.3 (25.9 - 62.0) 0.054

  About the right weight 17.1 (11.1 - 25.6) 29.4 (23.3 - 36.3) 0.022 24.1 (19.3 - 29.7) 31.4 (18.3 - 48.3) 0.351

  Underweight 13.9 (5.8 - 29.6) 12.2 (5.4 - 25.4) 0.690 8.8 (3.6 - 20.0) 23.8 (9.2 - 49.2) 0.113

Body satisfaction5

  Low 62.6 (51.0 - 72.9) 50.4 (40.9 - 59.9) 0.052 57.4 (48.1 - 66.1) 45.1 (28.4 - 62.9) 0.237

  Moderate 23.5 (16.3 - 32.7) 23.8 (18.2 - 30.4) 0.961 25.4 (20.4 - 31.1) 11.4 (4.4 - 26.8) 0.078

  High 16.2 (7.7 - 31.0) 28.7 (16.6 - 44.9) 0.036 16.3 (9.8 - 25.8) 43.2 (25.0 - 63.4) 0.008

Weight-control behaviors

 Tried to lose weight in the last year 6 78.4 (68.5 - 85.9) 68.7 (61.1 - 77.1) 0.110 72.7 (64.8 - 79.4 73.7 (55.6 - 86.2) 0.913

Healthy behaviors (at least one)7 97.2 (90.8 - 99.2) 90.7 (80.8 - 95.7) 0.024 91.3 (84.1 - 95.4) 97.3 (82.2 - 99.6) 0.258

  Exercised more 85.3 (75.5 - 91.7) 74.3 (65.4 - 81.6) 0.031 76.8 (71.3 - 81.6) 82.4 (65.9 - 91.9) 0.471

  Ate less sweets 82.3 (72.0 - 89.3) 60.3 (50.6 - 69.3) <0.001 65.5 (59.5 - 71.1) 78.8 (61.7 - 89.5) 0.132

  Ate less high fat foods 70.2 (60.6 - 78.4) 59.1 (51.6 - 66.3) 0.060 63.9 (56.9 - 70.3) 58.8 (41.7 - 74.0) 0.577

  Ate more fruits and vegetables 75.8 (64.7 - 84.2) 61.9 (51.9 - 71.1) 0.018 69.2 (59.0 - 77.9) 58.5 (39.5 - 75.3) 0.306

Unhealthy behaviors (at least one)7 84.2 (75.9 - 89.9) 67.4 (60.4 - 73.6) 0.002 72.5 (66.8 - 77.5) 80.0 (63.6 - 90.2) 0.346

  Fasted 43.6 (26.6 - 62.2) 30.3 (17.7 - 46.7) 0.037 32.2 (15.6 - 55.0) 39.6 (14.5 - 71.7) 0.703

  Skipped meals 39.6 (30.6 - 49.4) 32.4 (26.1 - 39.5) 0.224 36.1 (30.4 - 42.2) 26.5 (14.4 - 43.5) 0.273

  Ate very little food 64.4 (54.8 - 73.0) 49.5 (42.3 - 56.6) 0.015 52.4 (46.2 - 58.4) 73.5 (56.5 - 85.6) 0.023

  Used food substitute 17.5 (11.3 - 26.0) 15.0 (10.5 - 20.8) 0.577 16.8 (12.7 - 21.9) 8.8 (2.9 - 24.0) 0.241

  Took diet pills 15.4 (9.5 - 24.2) 19.7 (14.2 - 26.6) 0.371 18.3 (13.6 - 24.1) 17.4 (7.8 - 34.5) 0.908

  Made myself vomit 7.1 (2.7 - 17.4) 11.4 (5.26 - 23.1) 0.216 9.9 (4.3 - 21.1) 9.9 (2.2 - 34.7) 0.998

1 Weight status determined using age- and gender-specific cut-points from WHO [10].

2 Test for differences performed using mixed-effects regression models, with school specified as a random effect [12]. Models were unadjusted.

3 Importance of weight control was measured with one item, "How important is controlling your weight (a) very important, (b) important, (c) not important, (d) not at all important?" The responses were collapsed into two categories: (1) important ("very important," "important") and (2) not important ("not important," "not at all important") [11].

4 Perceived weight status was measured by a single question, "At this time, do you feel that you are (a) very underweight, (b) somewhat underweight, (c) about the right weight, (d) somewhat overweight, or (e) very overweight?" The responses were collapsed to create three categories: (1) underweight ("very underweight" and "somewhat underweight"), (2) the right weight ("about the right weight"), and (3) overweight ("somewhat overweight" and "very overweight") [11].

5 Perceived body satisfaction was measured using a modified version of the Body Satisfaction Scale, which included five items assessing one's satisfaction with different parts of their body (i.e., height, weight, body shape, waist, hips) using a Likert scale that ranged from "not at all satisfied" to "very satisfied." Responses to these questions were summed and categorized as low, moderate, and high based on distributions within this study population, with one third of the population in each category [11].

6 Students who responded "yes" to "In the past year, have you done anything to try to lose weight or avoid gaining weight ... (a) yes, (b) no?" [11].

7 Students who responded "yes" to "During the past one year, have you done any of the following things in order to lose weight or avoid gaining weight ... [behaviors] ... (a) yes, (b) no?" [11].

The combined prevalence of overweight and obesity in our sample was 16.6% (n = 300). The prevalence of underweight, by comparison, was 15.4% (n = 281). The combined prevalence of overweight and obesity was more than six times higher in Private schools (higher SES) than Government schools (lower SES) (26.6% vs. 4.0%, p < 0.001), consistent with prior research [3]. No significant differences in the combined prevalence were noted by grade level or gender [6].

Almost all of these youth, regardless of weight status, reported that controlling their weight was important to them (Table 1). This was especially true for overweight or obese students (Table 1), and, within this group, was true for girls and boys and those enrolled in Private and Government schools (Table 3). Moreover, almost three-quarters of overweight or obese youth reported trying to lose weight in the last year, while almost one-third of non-overweight youth reported the same (71.9% vs. 34.5%, p < 0.001; Table 1). Among overweight or obese youth, no differences in this effort to lose weight in the last year were observed by gender or school type (Table 3). Given these findings, interventions designed to help students manage their weight appropriately would be pertinent, then, to a reasonably large and diverse audience in India and so should be well received by the adolescents here. By comparison, the percentage of young people in this study that reported trying to lose weight in the last year is on par with other countries in South East Asia, like Japan [13], but exceeds that of adolescents in the US [14] and young adults in Western Europe, Eastern Europe, and South America [13].

Healthy and unhealthy weight control behaviors were common for overweight and non-overweight youth alike (Table 1). Among overweight or obese youth, almost all youth (91.5%) engaged in at least one healthy weight control behavior over the last year, while about three-quarters (77.7%) engaged in at least one unhealthy weight control behavior (Table 1). Among overweight or obese youth, girls were more likely than boys to engage in unhealthy (84.2% vs. 67.4%, p = 0.002; Table 3) behaviors, particularly, but no differences were noted by school type. Among the unhealthy behaviors, fasting, skipping meals, and eating very little food were the most common. Alleviating these behaviors, therefore, should be an important target of future interventions. Longitudinal research suggests these behaviors will lead to increased weight gain, not weight loss [15]. Skipping breakfast, in particular, can be especially problematic for overweight and non-overweight youth alike, leading to nutritional problems and interfering with learning and academic performance [16]. Skipping meals increases future risk for more extreme weight control behaviors, like the use of diet pills and self-induced vomiting, too [15].

The prevalence of these extreme dieting behaviors were either on par with (e.g., self-induced vomiting) or exceeded (e.g., taking dieting pills) prevalence rates previously reported in similar studies in the United States [17,18], Australia [19], and Israel [20]. This is alarming, as eating-related pathologies are beginning to emerge in India, too [21]. Half of the overweight or obese youth had low body satisfaction, while one-quarter of the non-overweight youth felt the same (Table 1). Among overweight or obese youth, girls were more likely than boys to perceive themselves as overweight (p = 0.047) and to have low body satisfaction (p = 0.052) (see Table 3). Concerns about excess weight and poor body satisfaction are more common among girls than boys, globally [13,14]. Future interventions developed to promote healthy weight control in India will, therefore, need to address issues specific to body image, too. In India, as elsewhere in the world, adolescents will need help negotiating the socio-cultural determinants of body dissatisfaction supported by the media, particularly the movie industry (i.e., "Bollywood") here.

Limitations of this study include its cross-sectional design and reliance on a relatively simple set of indicators for these weight-related concerns and behaviors. A more detailed assessment of these variables is not typically feasible for use in a large-scale epidemiologic study such as this, so we relied on past inventories [11,13,14]. We measured weight status, instead of relying on self-report, which strengthens our confidence in findings reported here.

Given the high prevalence of obesity among students in Private schools, these schools would be an appropriate setting for preventive interventions. Both boys and girls could benefit from preventive interventions, though these programs might be tailored to suit their specific needs (e.g., implementing girls-only or boys-only PE classes). Many overweight youth in this study were motivated to lose weight or avoid gaining weight and were taking action to do so. It was encouraging to document that healthy weight control practices were more prevalent than unhealthy or extreme ones. Many of these healthy weight control practices are recommended for adolescents and are often a behavioral target in obesity interventions [16,22,23]. Given the rapidity with which this obesity epidemic appears to be emerging, "translating" evidence-based interventions from the West for use in India may be an efficient way to begin to combat this problem [24]. More formative research is needed to ensure that these interventions with school-going youth in India are culturally-appropriate and shall adequately address the context in which these youth face and deal with weight-related concerns to maintain a healthy weight.

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

MS led and conceptualized the study, designed the survey instruments, and drafted the manuscript. MA assisted in the conceptualization of the study, including the design of the survey. PD did the data analysis. RS led the data collection effort and assisted with data analysis. KSR and CP assisted in the conceptualization of the study, including the design of the survey. All authors read and approved the final manuscript.

Authors' information

This team of researchers in the US (MS, CP, PD) and India (MA, RS, KSR) have been engaged in collaborative, NIH-funded research on health promotion among adolescents in India for the last 10 years. They are in the process of currently extended their work in tobacco control to focus on obesity, which is now another emerging problem and risk factor for chronic disease in India.

Contributor Information

Melissa H Stigler, Email: melissa.h.stigler@uth.tmc.edu.

Monika Arora, Email: monika@hriday-shan.org.

Poonam Dhavan, Email: poonam.dhavan@uth.tmc.edu.

Radhika Shrivastav, Email: radhika@hriday-shan.org.

K Srinath Reddy, Email: k.srinath.reddy@phfi.org.

Cheryl L Perry, Email: cheryl.l.perry@uth.tmc.edu.

Acknowledgements and Funding

This study is supported by grants from (a) the Obesity Prevention Center at the University of Minnesota and (b) the School of Public Health at the University of Texas. The authors are extremely grateful for this support and the participation of schools and students in this study.

References

  1. Reddy KS, Shah B, Varghese C, Ramadoss A. Responding to the threat of chronic diseases in India. Lancet. 2005;366:1746–1751. doi: 10.1016/S0140-6736(05)67343-6. [DOI] [PubMed] [Google Scholar]
  2. Wang Y, Chen HJ, Shaikh S, Mathur P. Is obesity becoming a public health problem in India? Examine the shift from under- to overnutrition problems over time. Obes Rev. 2009;10:456–474. doi: 10.1111/j.1467-789X.2009.00568.x. [DOI] [PubMed] [Google Scholar]
  3. UK Prospective Diabetes Study Group. UK prospective diabetes study XII: Differences between Asian, Afro-Caribbean and white Caucasian type 2 diabetic patients at diagnosis of diabetes. Diabetes and Medicine. 1994;11:670–677. doi: 10.1111/j.1464-5491.1994.tb00331.x. [DOI] [PubMed] [Google Scholar]
  4. Aggarwal T, Bhatia RC, Singh D, Sobti PC. Prevalence of obesity and overweight in affluent adolescents from Ludhiana, Punjab. Indian Pediatr. 2008;45:500–502. [PubMed] [Google Scholar]
  5. Laxmaiah A, Nagalla B, Vijayaraghavan K, Nair M. Factors affecting prevalence of overweight among 12- to 17-year-old urban adolescents in Hyderabad, India. Obesity (Silver Spring) 2007;15:1384–1390. doi: 10.1038/oby.2007.165. [DOI] [PubMed] [Google Scholar]
  6. Stigler MH, Arora M, Dhavan P, Tripathy V, Shrivastav R, Reddy KS, Perry CL. Measuring obesity among school-aged youth in India: a comparison of three growth references. Indian Pediatrics. in press . [DOI] [PubMed]
  7. Raj M, Sundaram KR, Paul M, Deepa AS, Kumar RK. Obesity in Indian children: time trends and relationship with hypertension. Natl Med J India. 2007;20:288–293. [PubMed] [Google Scholar]
  8. Sharma N. Understanding Adolescence. Delhi, India: National Book Trust; 1999. [Google Scholar]
  9. Lohman T, Roche A, Martorell R. Anthropometric Standardization Reference Manual. Champaign, IL: Human Kinetics Books; 1988. [Google Scholar]
  10. de Onis M, Garza C, Onyango AW, Borghi E. Comparison of the WHO child growth standards and the CDC 2000 growth charts. J Nutr. 2007;137:144–148. doi: 10.1093/jn/137.1.144. [DOI] [PubMed] [Google Scholar]
  11. Neumark-Sztainer D, Hannan PJ. Weight-related behaviors among adolescent girls and boys: results from a national survey. Arch Pediatr Adolesc Med. 2000;154:569–577. doi: 10.1001/archpedi.154.6.569. [DOI] [PubMed] [Google Scholar]
  12. Raudenbush SW, Byrk AS. Hierarchical Linear Models: Applications and Data Analysis Methods. Thousand Oaks: Sage Publications; 2002. [Google Scholar]
  13. Wardle J, Haase AM, Steptoe A. Body image and weight control in young adults: international comparisons in university students from 22 countries. Int J Obesity. 2006;30:644–651. doi: 10.1038/sj.ijo.0803050. [DOI] [PubMed] [Google Scholar]
  14. Strauss RS. Self-reported weight status and dieting in a cross-sectional sample of young adolescents: National Health and Nutrition Examination Survey III. Arch Pediatr Adolesc Med. 1999;153:741–747. doi: 10.1001/archpedi.153.7.741. [DOI] [PubMed] [Google Scholar]
  15. Neumark-Sztainer D, Wall M, Guo J, Story M, Haines J, Eisenberg M. Obesity, disordered eating, and eating disorders in a longitudinal study of adolescents: how do dieters fare 5 years later? J Am Diet Assoc. 2006;106:559–568. doi: 10.1016/j.jada.2006.01.003. [DOI] [PubMed] [Google Scholar]
  16. Newby PK. Are dietary intakes and eating behaviors related to childhood obesity? A comprehensive review of the evidence. J Law, Med, Ethics. 2007;35:35–60. doi: 10.1111/j.1748-720X.2007.00112.x. [DOI] [PubMed] [Google Scholar]
  17. Krowchuk DP, Kreiter SR, Woods CR, Sinal SH, Durant RH. Problem dieting behaviors among young adolescents. Arch Pediatr Adolesc Med. 1998;152:884–888. doi: 10.1001/archpedi.152.9.884. [DOI] [PubMed] [Google Scholar]
  18. Neumark-Sztainer D, Story M, Hannan PJ, Perry CL, Irving LM. Weight-related concerns and behaviors among overweight and nonoverweight adolescents: implications for preventing weight-related disorders. Arch Pediatr Adolesc Med. 2002;156:171–178. doi: 10.1001/archpedi.156.2.171. [DOI] [PubMed] [Google Scholar]
  19. Grigg M, Bowman J, Redman S. Disordered eating and unhealthy weight reduction practices among adolescent females. Prev Med. 1996;25:748–756. doi: 10.1006/pmed.1996.0115. [DOI] [PubMed] [Google Scholar]
  20. Neumark-Sztainer D, Palti H, Butler R. Weight concerns and dieting behaviors among high school girls in Israel. J Adolesc Health. 1995;16:53–59. doi: 10.1016/1054-139X(94)00046-H. [DOI] [PubMed] [Google Scholar]
  21. Chugh R, Puri S. Affluent adolescent girls of Delhi: eating and weight concerns. Br J Nutr. 2001;86:535–542. doi: 10.1079/BJN2001418. [DOI] [PubMed] [Google Scholar]
  22. Institute of Medicine, Committee on Prevention of Obesity in Children and Youth. Preventing Childhood Obesity: Health in the Balance. Washington, D.C.: The National Academies Press; 2005. [Google Scholar]
  23. Institute of Medicine, Committee on Progress in Preventing Childhood Obesity. Progress in Preventing Childhood Obesity: How Do We Measure Up? Washington, DC: The National Academies Press; 2007. [Google Scholar]
  24. Perry CL, Stigler MH, Arora M, Reddy KS. Prevention in Translation: Tobacco Use Prevention in India. Health Promot Pract. 2006;9:378–386. doi: 10.1177/1524839906289222. [DOI] [PubMed] [Google Scholar]

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