Childhood obesity: a big problem for small people – Survey
Obesity is a major public health concern, with an ever-increasing prevalence in adult and child populations. The recent appearance of type 2 diabetes in children further emphasises the importance of the issue. As overweight children tend to become overweight adults, preventive strategies for diabetes should focus on this new generation of patients. This article examines the prevalence of obesity in young children in an English seaside community, providing an insight into certain lifestyle factors that could be contributing to the problem.
Obesity continues to increase in both adult and child populations throughout the world, with the prevalence having trebled over the past 20 years (Bourne et al, 2001). Currently, in the UK, one in four women and one in five men are obese (Bourne et al, 2001). The health and financial implications of this are huge; in 1998, 6% of all deaths in the UK were attributed to obesity compared with 10% from smoking and 1% from road traffic accidents. Obesity is also responsible for 1.5% of NHS expenditure, and accounts for 18 million sick days per year (Bourne et al, 2001). For a condition that, in most circumstances, is either preventable or reversible, the current health and economic costs are excessive.
The link between obesity, diabetes and cardiovascular disease is well documented (Chan et al, 1994). Worryingly, type 2 diabetes, a disease previously only seen in older adults, is starting to appear in children (Fagot-Campagne and Venet Narayan, 2001). Insulin resistance, a precursor of diabetes, has also been reported in obese children as young as five, irrespective of their ethnic origins (Sinha et al, 2002).
The next generation
Until recently, the prevalence of obesity among British school children was thought to be low. Body mass index (BMI), which assesses both height and weight, is used to classify obesity:
BMI = [weight (kg)]/[[height (m)].sup.2]
A child’s position on a BMI centile chart indicates the child’s ‘thinness’ or ‘fatness’ with respect to his/her age (Cole et al, 1995). The incidence of overweight children, using the definition of overweight and obesity proposed by the International Obesity Task Force (IOTF; Cole et al, 2000), has increased substantially since the mid-1980s. In 1994, 9% of boys were overweight, compared with 5% in 1984 (Chinn and Rona, 2001). The percentage of overweight girls was 9% in 1984 but reached 13% within the decade.
Obesity in childhood is known to be an independent risk factor for adult obesity (Campbell et al, 2002), and children who progress to become obese adults have a far greater risk of serious health problems, with a twofold risk of dying prematurely (before the age of 60) from ischaemic heart disease (Gunnell et al, 1998). Fortunately, if a child loses weight and becomes a slim adult, this could effectively protect him/her from the development of components of the metabolic syndrome and subsequent raised cardiovascular risk (Vanhala et al, 1998).
There are a variety of environmental and social factors that might contribute to the rise in obesity, although, in general, the cause is predominately environmental rather than genetic.
One important factor might be increased consumption of sugar-sweetened drinks (Ludwig et al, 2001). Children consume these drinks in addition to their normal energy intake, and consequently have a total energy intake that exceeds their requirements (Ludwig et al, 2001). For example, children who drink an average of 270 ml of soft drink per day have an energy intake that is 10% higher than that of their counterparts who do not consume soft drinks (Harnack et al, 1999).
The latest National Food Survey for children in the UK (Gregory and Lowe, 2000) has shown that soft drinks are one of the main sources of added sugars in the diets of children, and that the proportion of sugars provided by these drinks increases with age, rising from 27% for boys aged 4-6 years, to 42% for boys aged 15–18 years. This same survey found that, over a period of one week, only 46% of boys and 51% of girls drank fruit juice, whereas two-thirds of boys and girls consumed regular carbonated soft drinks. Only half the children surveyed drank tap water on a regular basis.
With the increasing consumption of sugar-sweetened fizzy drinks, there is also concern regarding their caffeine content. The physiological consequences of a caffeine containing soft drink (48 mg of caffeine) in an average 6-year-old child weighing 20kg are equal to those in an adult drinking two cups of filter coffee (170mg caffeine) (Goldstein and Wallace, 1997). Studies have shown that, following an oral glucose tolerance test, the addition of caffeine causes a rise in insulin and glucose, which is suggestive of a caffeine-associated increase in insulin resistance (Graham et al, 2001).
‘Screen watching’, including television, handheld computer games and personal computers, are very much part of our modern lifestyles. An American study has shown a direct correlation between adiposity and television watching in children (Crespo et al, 2001). However, the study failed to determine conclusively whether watching a lot of television caused obesity or whether obese children just watched more television.
Aim of the present study
Clearly, there is a need for interventions to promote a healthier lifestyle and prevent the prevalence of overweight and obesity from increasing further.
Schools provide an ideal environment in which to relay messages on nutrition to a large number of individuals (Atkinson and Nitzke, 2001). The aim of this study was to evaluate the prevalence of overweight and obesity in primary school children in our local community. We also wanted to gain insight into certain lifestyle factors, including preferred drinks and screen-watching behaviour.
A local junior school, from a middle class, southern English seaside community, was contacted, and permission was sought from the head teacher, board of governors and local council for the school to participate in the study. Ethical approval was also obtained from the local research and ethics committee, and written consent was obtained from each child and his/her parents.
Children were measured for height (without shoes, to the nearest 0.1 cm) and weight (in light clothes, to the nearest 0.1 kg). The prevalence of overweight and obesity in this population was established using the age-and gender-specific BMI centile charts.
Comparison of the results of different studies can be misleading because of the lack of agreement on a standard method for assessing and evaluating childhood overweight and obesity. There are three recognised methods for comparing rates of overweight and obesity in children:
* The British BMI chart, in which the 91st centile defines overweight and the 98th centile defines obesity (Cole et al, 1995).
* The recent internationally agreed cut-off points for BMI devised by the IOTF. These cut-off points for childhood overweight and obesity are based on international data and are linked to the adult cut-off points of overweight (BMI > 25kg/[m.sup.2]) and obesity (BMI > 30kg/[m.sup.2]) (Cole et al, 2000).
* The commonly used American definition of the 85th centile for overweight and the 95th centile for obese (Barlow and Dietz, 1998).
The children were also asked to complete 3-day drink and activity diaries. Dietary data can be collected using a variety of methods, including recall after a 24-hour period, and food frequency checklists. To obtain best estimates of actual intake, data should be collected in a diary over 3 days, including one weekend day (Campbell et al, 2002).
In the current study, children were each given their own diary and wrote down every drink they consumed over the 3-day period, from Thursday to Saturday. They also recorded each television programme they watched and for how long they watched it.
Of a possible 278 children between the ages of 7 and 11 years, parental consent was obtained for 56%. Four children withheld their consent. Overall, measurements were obtained for 54% of the 278 children, including 77 girls and 72 boys. The prevalences of overweight and obesity found by this study are shown in Tables 1 and 2. The three definitions for establishing overweight and obesity are listed, highlighting the different results obtained when different definitions are used.
Our data were compared with the national average for childhood overweight and obesity from 1994 (Figure 1), using the internationally agreed cut-off points (from the IOTF) for BMI in both cases. Interestingly, when this method was used, none of our boys was obese but we had far greater rates of overweight than the national averages and a higher proportion of obese girls.
Drink and activity diaries were returned and completed by 71% (n=108) of the participating children. Over the 3-day period, 52% (95% confidence interval; 43-61%) of the children consumed varying amounts of fizzy drinks, the majority drinking the sugar-sweetened variety. Forty-three per cent of the children drank just over one glass of a sugar-sweetened fizzy drink each day. One third of the children regularly drank caffeine-containing sugar-sweetened fizzy drinks. Figure 2 shows the average volume of fizzy, sugar-sweetened drinks (caffeine-and non-caffeine-containing) consumed on a daily basis; the standard deviation (SD) of 128 demonstrates the huge variation in the volumes consumed by the children.
The children also recorded how much time they spent watching television and were asked whether they had access to a television in their own bedroom. Forty-one per cent had a television in their own room and these children watched an average of 83 minutes (SD 50) of television per day, which was 22% more than that watched by children who shared a television with their family (P=0.05, using independent samples t-test).
Our data from a small sample of children showed that there is a significant problem of childhood overweight and obesity in our local area. Unfortunately, we only succeeded in obtaining consent from just over half the sample. The cause of this low return rate is unknown, but parents of more overweight children might have been less inclined to allow their children to participate.
Diet diaries are fraught with difficulties: there is a tendency for respondents to under-report energy intake, and underreporting is greater in obese and overweight individuals (Campell et al, 2002). Hence, the accuracy of diaries is debatable; however, they still showed that a large proportion of the children consumed sugar-sweetened drinks on a regular basis, highlighting the need for education on this issue.
How to deliver education
The home is an ideal environment for health education and could potentially provide the best results. However, this is impractical for large-scale implementation of health education strategies (Fruhbeck, 2000).
Schools provide an environment in which the nutrition message can be relayed to a large number of individuals, but the effectiveness of a school-based programme is controversial (Atkinson and Nitzke, 2001).
A recent school-based study in Leeds that aimed to the reduce risk factors of obesity successfully implemented changes at school level, but, following intensive education, achieved only very modest behavioural changes in the children (Sahota et al, 2001). Although the children did not change their lifestyles, those who participated in the education had a greater knowledge and awareness about healthy nutrition.
The Planet Health Study from America, another intensive school-based education programme, successfully reduced obesity in girls but had no effect in boys (Gortmaker et al, 1999). Conversely, a school-based study in Singapore showed very impressive results in reducing obesity and overweight among both genders (Mui Toh, 2002). The interventions in this study were intensive and included changes to the food sold in school canteens and extra education on nutrition in the classroom. In addition, overweight children participated in an extra exercise and health education programme.
All these studies took a very broad approach and focused on all areas relating to a healthy diet and increased exercise. Clearly, there is a need for interventions to promote a healthier lifestyle and prevent childhood overweight and obesity.
Childhood obesity is a significant problem, and can be attributed to the unhealthy lifestyles that children are adopting today. It is a multisystem disease, with potentially devastating medical and psychosocial consequences, including a clustering of risk factors for the later development of cardiovascular disease and diabetes. It is essential to promote health education, and schools provide an in ideal environment for this. Childhood obesity is a major public health issue, and interventions need to be found to try to combat the problem.
[FIGURE 1 OMITTED]
[FIGURE 2 OMITTED]
Prevalence of overweight status (95% confidence interval) in children
aged 7-11 years
International Obesity >91st centile >85th centile
Subject Task Force (British) (American)
Girls (n=77) 22% (14%, 33%) 14% (8%, 24%) 21% (13%, 31%)
Boys (n=72) 18% (11%, 29%) 13% (7%, 22%) 11% (6%, 20%)
Prevalence of obesity in children aged 7-11 years
International Obesity >98th centile >95th centile
Subject Task Force (British) (American)
Girls (n=77) 3% (1%, 9%) 4% (1%, 11%) 8% (4%, 16%)
Boys (n=72) 0% (0%, 5%) 8% (4%, 17%) 13% (7%, 22%)
Atkinson R, Nitzke S (2001) School based programmes on obesity. British Medical Journal 323: 1018-19
Barlow SE, Dietz WH (1998) Obesity evaluation and treatment: expert committee recommendations. Pediatrics 102: E29
Bourne J et al (2001) Tackling Obesity in England. National Audit Office
Campbell K, Waters E, O’Meara S. Kelly S, Summerbell C (2002) Interventions for preventing obesity in children (Cochrane Review). In: The Cochrane Library, Issue 4, 2002. Oxford: Update Software
Chan JM, Rimm EB, Colditz GA (1994) Obesity, fat distribution and weight gain as risk factors for clinical diabetes in men. Diabetes Care 17: 961-9
Chinn 5, Rona R (2001) Prevalence and trends in overweight and obesity in three cross sectional studies in British children, 1974-94. British Medical Journal 322: 24-6
Cole TJ, Freeman JV, Preece MA (1995) Body mass index reference curves for the UK, 1990. Archives of Disease in Childhood 73(1): 25-9
Cole TJ, Bellizzi MC, Flegal K, Deitz WH (2000). Establishing a standard definition for child overweight and obesity worldwide: international survey. British Medical Journal 320: 1240-3
Crespo CJ, Smit E, Troiano RP at al (2001) Television watching, energy intake, and obesity in US children. Archives of Pediatrics and Adolescent Medicine 155: 360-5
Fagot-Campagne A, Venet Narsyan KM (2001) Type 2 diabetes in children. British Medical Journal 322: 377-8
Fruhbeck G (2000) Childhood obesity: a time for action, not complacency. British Medical Journal 320: 328-9
Gortmaker S, Peterson K, Wiecha J et al (1999) Reducing obesity via a school-based interdisciplinary intervention among youth. Archives of Pediatrics and Adolescent Medicine 153: 409-18
Graham TE, Sathasivam P, Rowland M et al (2001) Caffeine ingestion elevates plasma insulin in humans during an oral glucose tolerance test. Canadian Journal of Physiology and Pharmacology 79: 559-65
Gregory J, Lowe S (2000) National Diet and Nutrition Survey: young people aged 4 to 18 years. The Stationery Office, London
Goldstein A, Wallace M (1997) Caffeine dependence in schoolchildren? Experimental and Clinical Psychophannacology 5(4): 388-92
Gunnell DJ, Frankel SJ, Nanchahal K, Peters TJ, Smith GD (1998) Childhood obesity and adult cardiovascular mortality: a 57-year follow-up study based on Boyd Orr cohort. American Journal af Clinical Nutrition 67: 1111-18
Harnack L, Stang J, Story M (1999) Soft drink consumption among US children and adolescents: nutritional consequences. Journal of the American Dietetic Association 99(4): 436-41
Ludwig DS, Peterson KE, Gortmaker SL (2001) Relation between consumption of sugar-sweetened drinks and childhood obesity: a prospective, observational analysis. The Lancet 357: 505-8
Mui Toh C (2002) School based intervention has reduced obesity in Singapore. British Medical Journal 324:427
Sahota P. Rudolf MCJ, Dixey R at al (2001) Evaluation of implementation and effects of a primary school based intervention to reduce risk factors for obesity. British Medical Journal 323: 1027-9
Sinha R, Fisch G, Teague B at al (2002) Prevalence of impaired glucose tolerance among children and adults with marked obesity. New England Journal of Medicine 346: 802-10
Vanhala M, Vanhala P, Kumpusalo E, Halonen P, Takala J (1998) Relation between obesity from childhood to adulthood and the metabolic syndrome: population based study. British Medical Journal 317: 319
RELATED ARTICLE: ARTICLE POINTS
1 Obesity is on the increase in adult and child populations.
2 The causes are multifactorial and related to changing lifestyles.
3 The appearance of type 2 diabetes in children recently emphasises the importance of this issue.
4 Consumption of caffeinated sugar-sweetened drinks is increasing in children.
5 Interventions need to be found to reduce childhood obesity.
* Sugar-sweetened drinks
1 Soft drinks are one of the main sources of added sugars in the diets of children.
2 A direct correlation as been shown between adiposity and television in children.
3 Schools provide an ideal environment to relay nutrition messages to a large number of individuals.
4 The aim of the study was to evaluate the prevalence of overweight and obesity among primary school children in a local community.
1 Over a 3-day period, 1 children recorded every drink they had and how much television they watched.
2 Measurements were obtained for 149 children, aged between 7 and 11 years.
3 Forty-three percent of the children drank just over one glass of sugar-sweetened fizzy drink each day.
4 Compared with children who shared a television with their family, those with a television in their own room watched 22% more television per day.
1 Childhood obesity can be attributed to the unhealthy lifestyles that children are adopting today.
2 It has potentially devastating medical and psychosocial consequences, including a clustering of risk factors for the development of cardiovascular disease and diabetes.
3 There is a clear need for interventions to promote a healthier lifestyle and prevent childhood overweight and obesity.
Janet James is Diabetes Development Nurse at Bournemouth Diabetes and Endocrine Centre, Royal Bournemouth Hospital; Peter Thomas is Professor of Health Care Statistics and Epidemiology at the Institute of Health and Community Studies, Bournemouth University and Dorset Research and Development Support Unit, Poole Hospital; David Kerr is Consultant Physician at Bournemouth Diabetes and Endocrine Centre, Royal Bournemouth Hospital.
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