Clinical and Experimental Pediatrics

Search

Search

Close


Warning: fopen(/home/virtual/pediatrics/journal/upload/ip_log/ip_log_2024-11.txt) [function.fopen]: failed to open stream: Permission denied in /home/virtual/pediatrics/journal/ip_info/view_data.php on line 93

Warning: fwrite(): supplied argument is not a valid stream resource in /home/virtual/pediatrics/journal/ip_info/view_data.php on line 94

All issues > Volume 62(5); 2019

Nonboonyawat, Pusanasuwannasri, Chanrat, Wongthanavimok, Tubngern, Panutrakul, Mungthin, Nivesvivat, Hatthachote, Rangsin, and Piyaraj: Prevalence and associates of obesity and overweight among school-age children in a rural community of Thailand

Prevalence and associates of obesity and overweight among school-age children in a rural community of Thailand

Teechaya Nonboonyawat, MD1, Wuttipat Pusanasuwannasri, MD1, Nattanon Chanrat, MD1, Natta Wongthanavimok, MD1, Danutanut Tubngern, MD1, Piengkwan Panutrakul, MD1, Mathirut Mungthin, MD, PhD2, Thirapa Nivesvivat, MD3, Panadda Hatthachote, PhD4, Ram Rangsin, MD, PhD5, Phunlerd Piyaraj, MD, PhD2
Corresponding author: Phunlerd Piyaraj, MD, PhD Department of Parasitology, Phramongkutklao College of Medicine, 315 Rajchavithe Rd, Rajchathevi, Phayathai, Bangkok 10400, Thailand Tel: +66914144644 Fax: +6623547761 E-mail: p_phunlerd@yahoo.com
Received March 28, 2018       Revised January 29, 2019       Accepted February 8, 2019
Abstract
Purpose
Purpose
Information about overweight and obesity among students in rural areas of Thailand is limited. Therefore, we aimed to determine overweight and obesity prevalences and associated factors among school-aged children in a rural community of Thailand.
Methods
Methods
We selected 9 public schools through cluster sampling in 2 provinces located in central Thailand in 2016. Anthropometric measurements were measured using standard techniques, classified as overweight (>1 standard deviation [SD]) and obese (>2 SD) with respect to their age and sex using 2007 World Health Organization reference charts. Standardized questionnaires on risk factors were sent to parents to be completed together with their child.
Results
Results
Among 1,749 students, 8.98% had overweight and 7.26% had obesity. Mean age (range) was 11.5 years (5–18 years). Independent factors associated with overweight and obesity included primary school student (reference as secondary school) (adjusted odds ratio [aOR], 2.25; 95% confidence interval [CI], 1.24–4.08; P=0.07), mother’s body mass index (aOR, 1.07; 95% CI, 1.02–1.12; P=0.001), self-employed father (aOR, 1.99; 95% CI, 1.12–3.55; P=0.018), number of siblings (aOR, 0.61; 95% CI, 0.47–0.81; P=0.001), having sibling(s) with obesity (aOR, 1.82; 95% CI, 1.20–2.77; P=0.005), more than one (aOR, 7.16; 95% CI, 2.40–21.32; P<0.001), consuming 2–3 ladles of rice/meal (aOR, 2.14; 95% CI, 1.38–3.32; P=0.001), consuming >3 ladles of rice/meal (aOR, 2.69; 95% CI, 1.11–6.46; P= 0.27), watching <2 hours of television/day (aOR, 2.18; 95% CI, 1.19–4.01; P=0.012), and watching >2 hours of television/day (aOR, 2.60; 95% CI, 1.36–4.96; P=0.004).
Conclusion
Conclusion
Many sociodemographic, dietary, and behavioral factors were related to overweight and obesity among school-aged children not only in urban but also rural communities of Thailand.
Introduction
Introduction
The World Health Organization (WHO) described the prevalence of overweight and obesity as having increased substantially over the past three decades and now being considered one of the most serious health challenges of the early 21st century [1]. Overweight and obesity are major risk factors for noncommunicable diseases such as cardiovascular disease, diabetes, musculoskeletal disorder, and some cancers. In addition to these risks, childhood obesity is associated with a high chance of obesity, premature death, and disability in adulthood as well as experiencing breathing difficulties, increased risk of fractures, hypertension, early markers of cardiovascular disease, insulin resistance and, psychological effects [2].
In Thailand, the prevalence of childhood overweight and obesity has risen (4th Thailand Health Survey 2008–2009) to be 8.5% among those aged 1–5 years, 8.7% among those aged 6–11 years, and 11.9% among those aged 12–14 years, constituting the highest rate of all age groups [3]. Studies in many parts of the world have generally agreed that the factors contributing to increased childhood obesity are multiple interactions between genetic factors and the environment [4]. These associated factors include higher socioeconomic status [5,6], higher birth weight [7,8], dieting [9,10], skipping breakfast [11,12], physical inactivity including less active modes of transportation to and from school, lack of participation in sports activities at school or at home [9,13-15], as well as long hours spent watching TV and playing video games [7,9,16]. In contrast to the genetic factors, the relationship between lifestyle and other factors have been found to be inconclusive. These inconsistencies are likely to result from differences in methods and the cultural and social backgrounds of the studied populations. Better understanding of the factors associated with obesity would help general public healthcare providers and healthcare professionals to deal with the epidemic more efficiently.
Very little data is available concerning the prevalence of overweight and obesity among school children and adolescents in rural areas of Thailand. The present study aimed to assess the prevalence of overweight, obesity, and associated risk factors among school children and adolescents in rural areas of Chachoengsao and Sa Kaeo provinces, Eastern Thailand.
Materials and methods
Materials and methods
1. Study design
1. Study design
This cross-sectional study was performed, from June to December 2016, to assess the prevalence and risk factors associated with overweight and obesity among school-aged children in rural area of Chachoengsao and Sa Kaeo provinces, Eastern Thailand, using a cluster sampling and a survey of 2,246 students in 9 schools located in Na Yao Community, Sanam Chai Khet District, Chachoengsao Province and Sai Thong Community, Khao Cha Kan District, Sa Kaeo Province in Thailand.
2. Study populations
2. Study populations
Students aged 6 to 18 years first to twelfth grade who studied in 1 of the 9 schools who had with no mental health issues, and who were able to communicate and willing to participate with the consent of their guardians, were included in the research while students who did not meet these criteria were excluded.
3. Ethical statement
3. Ethical statement
This study was reviewed and approved by the Ethics Committee of the Royal Thai Army, Medical Department (approval number: 1514/2559). The researchers informed subjects and their parents of the objective and asked for permission from each school’s principals and teachers to collect data from participants. Informed consent was obtained from enrolled participants for actions in which participants’ height and weight were measured and questionnaires were voluntarily answered.
4. Study procedures
4. Study procedures
The study comprised two sections, anthropometric measurement and the questionnaire. The questionnaires consisted of general information, parental information, and associated risk factors of overweight and obesity such as lifestyle, diet, and physical activities. To collect body mass index (BMI) from each participant, the school’s advisors were asked and taught to measure students’ weight and height properly. Body weight and height were measured with standardized 101 balance scales (DETECTO, St. Webb City, MO, USA) (to the nearest 0.1 kg) and stadiometer (DETECTO) (to the nearest 0.1 cm), respectively. Students’ weight and height were measured while students were wearing school uniforms without shoes and socks while waist circumference was not measured. BMI, the weight in kilograms divided by the square of height in meters, was calculated. Overweight, obesity, thinness, and severe thinness were defined using BMI reference (2007) for age and sex cutoff points developed by the WHO and using >2 SD to define obesity, >1 SD as overweight, -<2 SD as thinness, and -<3 SD as severe thinness [17]. Then questionnaires were distributed to participants without personal identification. The participants filled in the data with their parents or guardians voluntarily. The completed questionnaires were collected in sealed boxes placed in selected schools. After collection of the data, pamphlets with general information about obesity and overweight including healthy practices, were distributed to every student in the selected schools to educate the students regarding obesity and overweight.
5. Statistical analysis
5. Statistical analysis
The data was collected and analyzed using IBM SPSS Statistics ver. 22.0 (IBM Co., Armonk, NY, USA), and STATA SE ver. 13 (StataCorp LP., College Station, TX, USA). The t test was used in quantitative indices and was expressed as mean±standard deviations. The relationship between each factor of interest and the students’ BMI group (severe thinness, thin, normal, and overweight or obesity) was explored with percentages (%) or chi-square tests (categorical variables). Univariate logistic regression analysis was performed to evaluate the strength of the relationship between overweight in students and each of those variables of interest. Variables with significant associations (P<0.05) with students’ BMI group in the chi-square tests were considered for logistic regression. Odds ratios (ORs) and the 95% confidence interval (95% CI) were calculated for each factor. Using a mixed method model of multivariate analysis with random effect of school type variable, adjustment was made for parental obesity to control for possible familial influences. A 2-tailed P<0.05 was considered statistically significant.
Results
Results
From a total number of 2,246 students from 9 schools aged 6 to18 years from 9 schools (mean±SD, 11.8±3.6), 1,749 students participated in this study, because 497 did not complete questionnaires or did not agree to have their height and weight measured. Thus, the total response rate was 77.9%. Of the total respondents, 981 (56.1%) were females, and the number of primary school students (first through sixth grades) was 1,114 (63.7%), while the remaining 635 (36.3%) comprised secondary school students (seventh through twelfth grades).
Table 1 show the background characteristics of children who participated in the study and their BMI. Of the 1,749 children who participated, 157 (8.9%) were overweight and 127 (7.3%) were obese. Among the boys, 64 (8.3%) were overweight and 76 (9.9%) were obese, while among the girls, 93 (9.5%) were overweight and 51 (5.2%) were obese. Prevalence of overweight and obesity significantly differed among primary school students and secondary school students.
As shown in Table 2, after adjusting for the potential confounding factors, we found that these family-related factors were significantly associated with overweight and obesity, including maternal BMI (adjusted odds ratio [aOR], 1.07; 95% CI, 1.02–1.12; P=0.001) and parents’ running their own business (aOR, 1.99; 95% CI, 1.12–3.55; P=0.018). In addition, in Table 3, after adjusting for the potential confounding factors, we found that these child behavioral factors were significantly associated with overweight and obesity, including students who were in primary school (adjusted odds ratio [aOR], 2.25; 95% confidence interval [CI], 1.24–4.08; P=0.07), number of siblings (aOR, 0.61; 95% CI, 0.47–0.81; P=0.001), obesity in one sibling (aOR, 1.82; 95% CI, 1.20–2.77; P=0.005), obesity in more than one sibling (aOR, 7.16; 95% CI, 2.40–21.32; P<0.001), consuming two to three ladles of rice per meal (aOR, 2.14; 95% CI, 1.38–3.32; P=0.001), consuming 2 to, 3 ladles of rice per meal (aOR, 2.69; 95% CI, 1.11–6.46; P=0.27), spending 2 hours or less per day with a television or smartphone (aOR, 2.18; 95% CI, 1.19–4.01; P=0.012), spending 2 hours or more per day with a television or smartphone (aOR, 2.60; 95% CI, 1.36–4.96; P=0.004).
Discussion
Discussion
The prevalence of overweight and obesity among school-aged children in the current study were 8.98% and 7.26%, respectively, resulting in a prevalence of overweight and obesity together at 16.24%. From the 4th Thailand Health Survey 2008 to 2009, the prevalence of childhood overweight and obesity increased to 8.5% among children aged 1–5 years, 8.7% among children aged 6–11 years, and 11.9% among children aged 12–14 years.
From the study of prevalence of overweight and obesity in Thai population: results of “the National Thai Food Consumption Survey” [18]. The data showed; overall, among children and adolescents aged 3 to 18 years, 9.1% were overweight and 6.5% were obese. Also, the prevalence of overweight and obesity in urban areas were 3.5% and 3.9%, respectively and in rural areas 5.6% and 2.6% respectively. Our findings on the prevalence of overweight and obesity among school-aged children were quite similar to these of these 2 studies. Although prevalence of overweight and obesity was commonly found in urban communities, there was no statistically significant difference in overweight and obesity rates between those who lived in urban areas and those who lived in rural areas. Our findings are in agreement that in both genders, the highest prevalence of overweight was found in school-aged children (6–11 years) and decreased with age.
The findings of the current study indicated that family history of obesity was obviously related, and maternal obesity was independently associated with overweight or obesity among school-aged children. Those having a positive maternal obesity had 1.07 times the risk of overweight or obesity. A similar finding was also reported in other studies in Hong Kong, China, and western India [8,19,20]. Also, having overweight or obese siblings made overweight or obesity more likely for subjects. Students with one overweight or obese sibling had 1.82 times the risk of being overweight or obese themselves and those who had more than one overweight or obese sibling had 7.16 times the risk. These findings may have resulted from many factors, including socioeconomic factors. As reported in studies conducted in rural areas of Thailand, the bond between children and their mothers in rural societies is unyielding. This affects children’s way of life, with children tending to have the same preferences, eating habits, and level of physical activities as their mothers. Thus, children with obese mothers tend to grow up to be overweight or obese, like their mothers, and this tendency extends to siblings living in the same family environment.
Students with more siblings had 0.61 times the risk of being overweight or obese than those with fewer siblings. Similar findings have been reported by studies conducted in Norway and Tanzania [21,22]. The explanation of this result is that it depends on the economic status of the family. A higher number of family members means more expenses affecting the quality of life of each family member, namely decreasing the total amount of food available for each family member at each meal
Overweight and obesity prevalence were also higher among students who spent more time doing sedentary activities such as watching TV, playing computer games, or using electronic devices. Students who spent less than 2 hours and at least 2 hours watching TV, playing computer games, or using electronic devices exhibited a risk of overweight or obesity that was 2.18 times and 2.60 times higher, respectively. Several studies have reported a positive association between increased BMI and decreased physical activity [7,9,16,23].
The relation between grade level and prevalence of obesity in this study indicated that primary school students (first through sixth grades) were 2.25 times more likely to develop overweight or obesity compared with those in secondary school (seventh through twelfth grades). This study was conducted in a rural area of Thailand where the major occupation of the community was in agriculture. Grown-up children tended to follow their parents’ path as farmers or were at least expected to help the family to farm. The outcomes included decreased sedentary activities and increased high energy consuming activities, relatively lowering their body weight. Hence, ways of livings impacted the obesity trends in the communities.
Our study also revealed that parents’ occupation was significantly associated with overweight and obesity. Children with parents who ran their own business had a risk that was 1.99 times higher than the risk in students whose parents had other occupations. Families running their own businesses tended to have higher incomes, meaning that their children had a greater potential to spend money on more food, to have better welfare, to use more sedentary transportation, to perform less housework, and to do less active work, which created a higher risk of developing childhood obesity. This was supported by other studies wherein higher socioeconomic status was associated with obesity and overweight [5,6].
Diet-related variables were also studied using multivariate analysis. Overweight and obesity were significantly associated with the amount of rice consumed at each meal, with rice measured in ladles at 70 g per ladle. The number of ladles was associated with students’ overweight or obesity: 2 to 3 ladles of rice per meal increased the risk of being overweight or obese by 2.14 times, and consuming more than three ladles of rice per meal increased the risk by as much as 2.69 times. Basically a higher energy intake coupled with the same daily living activities resulted in weight gain. In addition, the relationship between family income and number of ladles per meal was shown in the Table 3, but there was no association between these 2 variables. This might be explained by the relatively homogenous study population in terms of family incomes. The majority of the participants had relatively low economic statuses, as only 25 families had a reported income of more than 50,000 baht per month (about USD 1,500). In addition, as most of the participants were from farming families, there was more than enough rice for the whole family’s consuming. Therefore, the number of ladles per meal might not have been associated with the family income since every family had enough rice for their consumption
From the study, factors not associated with overweight and obesity in this population included skipping breakfast, similar to one study in Tianjin, China [19]. That study revealed that having breakfast, snacks, and carbonated drinks had no relationship with childhood obesity and overweight because the study population had been consuming these unhealthy foods previously. In addition, one study of other factors including physical activity, birth weight, and transportation to school found no significant association between these factors and obesity and overweight in these populations. This was in contrast to another study in China, where these factors were significantly associated with overweight or obesity.
Furthermore, this study showed that 198 school-aged children (11.28%) presented thinness or severe thinness. It suggested that some associated factors could be further studied. Moreover, interventions like nutrition education for patients, school cafeteria menu planning, and family member involvement would be helpful for this study population to develop a better nutrition status.
This study employed a cross-sectional design which had its own limitations. An obvious limitation stemmed from the fact that the nature of the study precluded statements of cause and effect and explanations of temporal relationships. Also, BMI calculation, from weight and height measurement, sometimes could not determine whether an increase in body weight was truly derived from an increase in fat because a body composition monitor device was not used. In addition, parent BMI data was collected using questionnaires, and not by actual measurement but by recall response. Moreover, data errors tended to occur because information for absent family members needed to be completed, so recall bias or missing data would have occurred when other family members could not remember or misremembered the absent individual’s information.
Using the WHO 2007 reference, the prevalence of overweight and obesity among school-aged children in Baan Na Yao, Chachoengsao Province and Baan Sai Thong, Sa Kaeo Province in Thailand was 8.98% and 7.26%, respectively, making the total prevalence of overweight and obesity 16.24%. Sociodemographic predictors related to overweight or obesity included maternal and sibling obesity, number of siblings, and parents’ occupation (running their own business), where the number of ladles of rice per meal was a significant diet-related variable, and sedentary activities such as watching TV, playing computer games, or using electronic devices were found to be significant predictors of overweight and obesity. Yet the prevalence of underweight was 11.28%. Household members, especially mothers and children, should be motivated to have sufficient healthy food and be physically active by limiting sedentary activities and enjoying outdoor activities with other family members. Good quality, healthy food should be regulated by school policy, and outdoor sports and related activities should be mandated as well.
Conflicts of interest

No potential conflict of interest relevant to this article was reported.

Acknowledgments

We wish to express our appreciation to all participants for their enthusiastic support in this study. In addition, I would also like to extend our sincere thanks to Thananan Nijjak, Nattanon Mekawanith, Bodin Chokdamrongsuk, Pasin Charnviboon, Pochong Uthaitas, Patcha Jeandejaporn, Ratchanon Buakhwan, Vutthikorn Khingmontri, Sirada Udombhakdibongse, Supphanut Sukkasem, Sinsup Wanikawetch, and Ruengwit Tantibhedhyangkul for their helpful suggestions and data collection.

Table 1.
Sociodemographic characteristics of participants according to anthropometric status
Characteristic Severe thinness Thinness Normal Overweight Obesity Total
No. of patients 66 (3.77) 136 (7.58) 1,263 (72.21) 157 (8.98) 127 (7.26) 1,749 (100)
Sex
 Male 39 (5.08) 66 (8.59) 523 (68.10) 64 (8.33) 76 (9.90) 768 (100)
 Female 27 (2.75) 70 (7.14) 740 (75.43) 93 (9.48) 51 (5.20) 981 (100)
School
 Primary school 45 (4.04) 86 (7.72) 782 (70.20) 105 (9.43) 96 (8.62) 1,114 (100)
 Secondary school 21 (3.31) 50 (7.87) 481 (75.75) 52 (8.19) 31 (4.88) 635 (100)
Fathers’ education
 Less than primary school 4 (4.08) 10 (10.2) 71 (72.45) 9 (9.18) 4 (4.08) 98 (100)
 Primary school 36 (4.02) 69 (7.70) 647 (72.21) 81 (9.04) 63 (7.03) 896 (100)
 Secondary school 11 (3.23) 25 (7.33) 248 (72.73) 28 (8.21) 29 (8.5) 341 (100)
 Vocational certificate 4 (2.72) 11 (7.48) 109 (74.15) 11 (7.48) 12 (8.16) 147 (100)
 Bachelor or higher 0 (0) 4 (7.69) 35 (67.31) 9 (17.31) 4 (7.69) 52 (100)
Fathers’ occupation
 Unemployed 2 (3.92) 3 (5.88) 37 (72.55) 5 (9.80) 4 (7.84) 51 (100)
 Agriculture 27 (3.67) 53 (7.2) 535 (72.69) 67 (9.10) 54 (7.34) 736 (100)
 Fishery 1 (9.09) 3 (27.27) 7 (63.64) 0 (0) 0 (0) 11 (100)
 Laborer 20 (3.58) 51 (9.12) 403 (72.09) 44 (7.87) 41 (7.33) 559 (100)
 Officer 4 (4.44) 10 (11.11) 62 (68.89) 10 (11.11) 4 (4.44) 90 (100)
 Running own business 3 (4.76) 3 (4.76) 43 (68.25) 7 (11.11) 7 (11.11) 63 (100)
 Others 0 (0) 3 (10.71) 21 (75.00) 2 (7.14) 2 (7.14) 28 (100)
Fathers’ BMI (kg/m2)
 <25 42 (4.0) 87 (8.2) 769 (72.5) 89 (8.4) 73 (6.9) 1,060 (100)
 ≥25 7 (2.6) 19 (6.9) 191 (69.7) 25 (9.1) 32 (11.7) 274 (100)
Mothers’ BMI (kg/m2)
 <25 36 (3.88) 75 (8.08) 689 (74.25) 72 (7.76) 56 (6.03) 928 (100)
 ≥25 13 (2.71) 29 (6.04) 317 (66.04) 63 (13.13) 58 (12.08) 480 (100)
Mothers’ education
 Less than primary school 2 (1.83) 7 (6.42) 74 (67.89) 18 (16.51) 8 (7.34) 109 (100)
 Primary school 33 (4.00) 63 (7.64) 608 (73.7) 63 (7.64) 58 (7.03) 825 (100)
 Secondary school 17 (3.28) 37 (7.13) 377 (72.64) 53 (10.21) 35 (6.74) 519 (100)
 Vocational certificate 3 (3.26) 10 (10.87) 56 (60.87) 10 (10.87) 13 (14.13) 92 (100)
 Bachelor or higher 1 (2.78) 3 (8.33) 25 (69.44) 6 (16.67) 1 (2.78) 36 (100)
Income/month (Baht)
 <10,000 11 (4.82) 19 (8.33) 159 (69.74) 24 (10.53) 15 (6.58) 228 (100)
 10,000–25,000 17 (3.42) 39 (7.85) 349 (70.22) 50 (10.06) 42 (8.45) 497 (100)
 25,000–50,000 4 (3.17) 4 (3.17) 100 (79.37) 9 (7.14) 9 (7.14) 126 (100)
 More than 50, 000 0 (0) 2 (8.00) 20 (80.00) 3 (12.00) 0 (0) 25 (100)

Values are presented as number (%).

Table 2.
Univariate and multivariate analysis of family-related risk factors associated with overweight and obesity among school-aged children in a rural community in Thailand
Variable Normal Overweight and obesity Univariate analysis
Multivariate analysis
cOR 95% CI P value cOR 95% CI P value
Fathers’ age (yr) 42.5±8.5 42.38±8.4 0.99 0.98–1.01 0.856 1.01 0.98–1.04 0.283
Fathers’ BMI (kg/m2) 22.4±3.6 23.0±3.5 1.04 1.00–1.08 0.030 0.98 0.93–1.03 0.528
Fathers’ education
 Less than primary school 85 (86.7) 13 (13.3) 1.00 -
 Primary school 753 (83.9) 144 (16.1) 1.25 0.68–2.30 0.470
 Secondary school 284 (83.3) 57 (16.7) 1.31 0.68–2.51 0.412
 Vocational certificate 124 (84.4) 23 (15.6) 1.21 0.58–2.52 0.606
 Bachelor or higher 39 (75.0) 13 (25.0) 2.17 0.92–5.13 0.075
Fathers’ occupation
 Unemployed 42 (82.4) 9 (17.6) 1.00 -
 Agriculture 615 (83.6) 121 (16.4) 0.91 0.43–1.93 0.822
 Fishery 11 (100) 0 (0) 1.00 -
 Labor worker 474 (84.8) 85 (15.2) 0.83 0.39–1.78 0.644
 Officer 76 (84.4) 14 (15.6) 0.85 0.34–2.15 0.747
 Running own business 49 (77.8) 14 (22.2) 1.33 0.52–3.39 0.546 1.99 1.12–3.55 0.018
 Others 24 (85.7) 4 (14.3) 0.77 0.21–2.79 0.700
 Mothers’ age (yr) 38.9±7.9 37.8±7.8 0.98 0.96–0.99 0.039 0.98 0.95–1.02 0.471
 Mothers’ BMI (kg/m2) 23.31±4.01 24.87±4.28 1.09 1.05–1.13 <0.001 1.07 1.02–1.12 0.001
Mothers’ occupation
 Unemployed 102 (80.3) 25 (19.7) 1.00 -
 Agriculture 616 (83.5) 122 (16.5) 0.80 0.50–1.30 0.383
 Fishery 6 (85.7) 1 (14.3) 0.68 0.07–5.90 0.727
 Laborer 410 (84.4) 76 (15.6) 0.75 0.45–1.24 0.275
 Officer 71 (80.7) 17 (19.3) 0.97 0.49–1.94 0.947
 Running own business 66 (75.9) 21 (24.1) 1.29 0.67–2.50 0.437
 Others 32 (84.2) 6 (15.8) 0.76 0.28–2.02 0.590
No. of sibling (mean) 2.71 2.50 0.82 0.71–0.95 0.008 0.61 0.47–0.81 0.001
No. of siblings’ obesity
 0 962 (85.9) 158 (14.1) 1.00 - 1.00
 1 168 (76.4) 52 (23.6) 1.88 1.32–2.68 <0.001 1.82 1.20–2.77 0.005
 More than 1 12 (60.0) 8 (40.0) 4.05 1.63–10.08 0.003 7.16 2.40–21.32 <0.001

Values are presented as mean±standard deviation or number (%).

cOR, crude odds ratio; CI, confidence interval; aOR, adjusted odds ratio; BMI, body mass index.

The final model of multivariate analysis was adjusted for sex, academic level, school, fathers’ age, fathers’ BMI, mothers’ age, mothers’ BMI, fathers’ occupation, number of siblings, number of siblings with obesity, birth weight, breakfast habits, number of ladles of rice per meal, mode of transportation to and from school, and time spent in watching television, using smartphones, and performing physical activities.

Boldface indicates a statistically significant difference with P<0.05.

Table 3.
Univariate and multivariate analysis of child behavioral factors associated with overweight and obesity among school-aged children in a rural community in Thailand
Variable Normal Overweight and obesity Univariate analysis
Multivariate analysis
cOR 95% CI P value cOR 95% CI P value
Sex
 Female 837 (85.3) 144 (14.7) 1.00 - 1.00 -
 Male 628 (81.7) 140 (18.3) 1.29 1.00–1.67 0.046 1.13 0.79–1.61 0.496
Age (yr) 11.86±3.2 11.48±2.8 0.96 0.92–1.00 0.063
Academic level
 Secondary school 552 (86.9) 83 (13.1) 1.00 - 1.00 -
 Primary school 913 (82.0) 201 (18.0) 1.46 1.11–1.93 0.007 2.25 1.24–4.08 0.007
Breast feeding
 Instant formula 109 (87.2) 16 (12.8) 1.00 -
 Breast feeding only 1,060 (84.1) 200 (15.9) 1.28 0.74–2.21 0.368
 Breastfeeding and instant formula 293 (81.4) 67 (18.6) 1.55 0.86–2.80 0.140
Birth weight (kg) 2.95±0.5 3.08±0.5 1.78 1.17–2.70 0.006 1.54 0.92–2.60 0.099
No. of meals per day
 3 Meals 1,228 (83.3) 246 (16.7) 1.00 -
 Less than 3 meals 184 (86.8) 28 (13.2) 0.75 0.49–1.15 0.200
 More than 3 meals 52 (85.2) 9 (14.8) 0.86 0.42–1.77 0.691
Breakfast
 Not having breakfast 414 (87.2) 61 (12.8) 1.00 1.00 -
 Regularly having breakfast 1,050 (82.5) 222 (17.5) 1.43 1.05–1.94 0.020 1.48 0.95–2.29 0.078
No. of ladle per meal
 1 519 (88.3) 69 (11.7) 1.00 1.00 -
 2-3 864 (81.5) 196 (185) 1.70 1.27–2.29 <0.001 2.14 1.38–3.32 0.001
 >3 82 (81.2) 19 (18.8) 1.74 0.99–3.04 0.051 2.69 1.11–6.49 0.027
Amount of soft drink (per week)
 None 112 (84.2) 21 (15.8) 1.00
 1-2 Times 917 (85.2) 159 (14.8) 0.92 0.56–1.51 0.757
 3-5 Times 341 (80.8) 81 (19.2) 1.26 0.74–2.14 0.377
 >5 Times 95 (80.5) 23 (19.5) 1.29 0.67–2.47 0.442
Amount of snacks and sweet taken (per week)
 None 60 (84.5) 11 (15.5) 1.00
 1-2 Times per week 355 (82.9) 73 (17.1) 1.12 0.56–2.23 0.745
 >3 Times per week 1,048 (84.0) 200 (16.0) 1.04 0.53–2.01 0.905
Distances between home and supermarket (m)
 ≤100 416 (82.7) 87 (17.3) 1.00
 >100 1,047 (84.2) 197 (15.8) 0.89 0.68–1.18 0.454
Mode of transportation to and from school
 Activity 309 (88.0) 42 (12.0) 1.00 1.00 -
 No activity 1,131 (82.5) 240 (17.5) 1.56 1.09–2.21 0.013 1.16 0.72–1.86 0.524
Spending time with television and smartphone
 Not at all 262 (89.1) 32 (10.9) 1.00 - 1.00 -
 Yes but less than 2 hr/day 624 (80.1) 155 (19.9) 2.03 1.35–3.05 0.001 2.18 1.19–4.01 0.012
 Yes and more than 2 hr/day 554 (85.4) 95 (14.6) 1.40 0.91–2.15 0.119 2.60 1.36–4.96 0.004
Physical activity
 Yes 1,067 (84.8) 93 (15.2) 1.00 - 1.00 -
 No 397 (81.0) 191 (19.0) 1.30 0.99–1.71 0.054 1.19 0.79–1.78 0.394

Values are presented as mean±standard deviation or number (%).

cOR, crude odds ratio; CI, confidence interval; aOR, adjusted odds ratio.

The final model of multivariate analysis was adjusted for sex, academic level, school, fathers’ age, fathers’ body mass index, mothers’ age, mothers’ body mass index, fathers’ occupation, number of siblings, number of siblings with obesity, birth weight, breakfast habits, number of ladles of rice per meal, mode of transportation to and from school, time spent watching television, using smartphones, and performing physical activities.

Boldface indicates a statistically significant difference with P<0.05.

References

1. Obesity: preventing and managing the global epidemic. Report of a WHO consultation. World Health Organ Tech Rep Ser 2000;894:i–xii. 1–253.
[PubMed]
2. World Health Organization. Obesity and overweight fact sheet. Geneva (Switzerland): World Health Organization, 2016.
3. Mo-Suwan L, Nontarak J, Aekplakorn W, Satheannoppakao W. Computer game use and television viewing increased risk for overweight among low activity girls: fourth Thai National Health Examination Survey 2008-2009. Int J Pediatr 2014;2014:364702
[Article] [PubMed] [PMC]
4. Skelton JA, Irby MB, Grzywacz JG, Miller G. Etiologies of obesity in children: nature and nurture. Pediatr Clin North Am 2011;58:1333–54. ix.
[Article] [PubMed] [PMC]
5. Neutzling MB, Taddei JA, Rodrigues EM, Sigulem DM. Overweight and obesity in Brazilian adolescents. Int J Obes Relat Metab Disord 2000;24:869–74.
[Article] [PubMed]
6. Sobal J, Stunkard AJ. Socioeconomic status and obesity: a review of the literature. Psychol Bull 1989;105:260–75.
[Article] [PubMed]
7. Sharma A, Sharma K, Mathur KP. Growth pattern and prevalence of obesity in affluent schoolchildren of Delhi. Public Health Nutr 2007;10:485–91.
[Article] [PubMed]
8. Hui LL, Nelson EA, Yu LM, Li AM, Fok TF. Risk factors for childhood overweight in 6- to 7-y-old Hong Kong children. Int J Obes Relat Metab Disord 2003;27:1411–8.
[Article] [PubMed]
9. Chan JC, Malik V, Jia W, Kadowaki T, Yajnik CS, Yoon KH, et al. Diabetes in Asia: epidemiology, risk factors, and pathophysiology. JAMA 2009;301:2129–40.
[Article] [PubMed]
10. Nielsen SJ, Popkin BM. Patterns and trends in food portion sizes, 1977-1998. JAMA 2003;289:450–3.
[Article] [PubMed]
11. Maddah M, Nikooyeh B. Factors associated with overweight in children in Rasht, Iran: gender, maternal education, skipping breakfast and parental obesity. Public Health Nutr 2010;13:196–200.
[Article] [PubMed]
12. Henríquez Sánchez P, Doreste Alonso J, Laínez Sevillano P, Estévez González MD, Iglesias Valle M, López Martín G, et al. Prevalence of obesity and overweight in adolescents from Canary Islands, Spain. Relationship with breakfast and physical activity. Med Clin (Barc) 2008;130:606–10.
[Article] [PubMed]
13. Duncan S, Duncan EK, Fernandes RA, Buonani C, Bastos KD, Segatto AF, et al. Modifiable risk factors for overweight and obesity in children and adolescents from São Paulo, Brazil. BMC Public Health 2011;11:585
[Article] [PubMed] [PMC]
14. Pabayo R, Gauvin L, Barnett TA, Nikiéma B, Séguin L. Sustained active transportation is associated with a favorable body mass index trajectory across the early school years: findings from the Quebec Longitudinal Study of Child Development birth cohort. Prev Med 2010;50 Suppl 1:S59–64.
[Article] [PubMed]
15. Liebman M, Pelican S, Moore SA, Holmes B, Wardlaw MK, Melcher LM, et al. Dietary intake, eating behavior, and physical activity-related determinants of high body mass index in rural communities in Wyoming, Montana, and Idaho. Int J Obes Relat Metab Disord 2003;27:684–92.
[Article] [PubMed]
16. Khader Y, Irshaidat O, Khasawneh M, Amarin Z, Alomari M, Batieha A. Overweight and obesity among school children in Jordan: prevalence and associated factors. Matern Child Health J 2009;13:424–31.
[Article] [PubMed]
17. Turck D, Michaelsen KF, Shamir R, Braegger C, Campoy C, Colomb V, et al. World Health Organization 2006 child growth standards and 2007 growth reference charts: a discussion paper by the committee on Nutrition of the European Society for Pediatric Gastroenterology, Hepatology, and Nutrition. J Pediatr Gastroenterol Nutr 2013;57:258–64.
[Article] [PubMed]
18. Jitnarin N, Kosulwat V, Rojroongwasinkul N, Boonpraderm A, Haddock CK, Poston WS. Prevalence of overweight and obesity in Thai population: results of the National Thai Food Consumption Survey. Eat Weight Disord 2011;16:e242–9.
[Article] [PubMed] [PMC]
19. Andegiorgish AK, Wang J, Zhang X, Liu X, Zhu H. Prevalence of overweight, obesity, and associated risk factors among school children and adolescents in Tianjin, China. Eur J Pediatr 2012;171:697–703.
[Article] [PubMed]
20. Macwana JI, Mehta KG, Baxi RK. Predictors of overweight and obesity among school going adolescents of Vadodara city in Western India. Int J Adolesc Med Health 2016;29(3): pii: /j/ijamh.2017.29.issue-3/ijamh-2015-0078/ijamh-2015-0078.xml. https://doi.org/10.1515/ijamh-2015-0078.
[Article]
21. Júlíusson PB, Eide GE, Roelants M, Waaler PE, Hauspie R, Bjerknes R. Overweight and obesity in Norwegian children: prevalence and socio-demographic risk factors. Acta Paediatr 2010;99:900–5.
[Article] [PubMed]
22. Mwaikambo SA, Leyna GH, Killewo J, Simba A, Puoane T. Why are primary school children overweight and obese? A cross sectional study undertaken in Kinondoni district, Dar-es-salaam. BMC Public Health 2015;15:1269
[Article] [PubMed] [PMC]
23. Anteneh ZA, Gedefaw M, Tekletsadek KN, Tsegaye M, Alemu D. Risk factors of overweight and obesity among high school students in Bahir Dar City, North West Ethiopia: School Based Cross-Sectional Study. Adv Prev Med 2015;2015:294902
[Article] [PubMed] [PMC]

Go to Top