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Overweight and obesity among Ghanaian residents in The Netherlands: how do they weigh against their urban and rural counterparts in Ghana?

Published online by Cambridge University Press:  01 July 2009

Charles Agyemang*
Affiliation:
Department of Social Medicine, Academic Medical Centre, University of Amsterdam, Meibergdreef 9, 1105 AZ Amsterdam, The Netherlands
Ellis Owusu-Dabo
Affiliation:
Department of Community Health, School of Medical Sciences, Kwame Nkrumah University of Science & Technology, Kumasi, Ghana
Ank de Jonge
Affiliation:
TNO Quality of Life, Leiden, The Netherlands
David Martins
Affiliation:
Clinical Research Center, Charles R. Drew University, Los Angeles, CA, USA
Gbenga Ogedegbe
Affiliation:
Behavioral Cardiovascular Health & Hypertension Program, Division of General Medicine, Columbia University College of Physicians & Surgeons, New York, NY, USA
Karien Stronks
Affiliation:
Department of Social Medicine, Academic Medical Centre, University of Amsterdam, Meibergdreef 9, 1105 AZ Amsterdam, The Netherlands
*
*Corresponding author: Email [email protected]
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Abstract

Objective

To investigate differences in overweight and obesity between first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana.

Design

Cross-sectional study.

Subjects

A total of 1471 Ghanaians (rural Ghanaians, n 532; urban Ghanaians, n 787; Dutch-Ghanaians, n 152) aged ≥17 years.

Main outcome measures

Overweight (BMI ≥ 25 kg/m2) and obesity (BMI ≥ 30 kg/m2).

Results

Dutch-Ghanaians had a significantly higher prevalence of overweight and obesity (men 69·1 %, women 79·5 %) than urban Ghanaians (men 22·0 %, women 50·0 %) and rural Ghanaians (men 10·3 %, women 19·0 %). Urban Ghanaian men and women also had a significantly higher prevalence of overweight and obesity than their rural Ghanaian counterparts. In a logistic regression analysis adjusting for age and education, the odds ratios for being overweight or obese were 3·10 (95 % CI 1·75, 5·48) for urban Ghanaian men and 19·06 (95 % CI 8·98, 40·43) for Dutch-Ghanaian men compared with rural Ghanaian men. Among women, the odds ratios for being overweight and obese were 3·84 (95 % CI 2·66, 5·53) for urban Ghanaians and 11·4 (95 % CI 5·97, 22·07) for Dutch-Ghanaians compared with their rural Ghanaian counterparts.

Conclusion

Our current findings give credence to earlier reports of an increase in the prevalence of overweight/obesity with urbanization within Africa and migration to industrialized countries. These findings indicate an urgent need to further assess migration-related factors that lead to these increases in overweight and obesity among migrants with non-Western background, and their impact on overweight- and obesity-related illnesses such as diabetes among these populations.

Type
Research Paper
Copyright
Copyright © The Authors 2008

Obesity is now reaching epidemic proportions and is increasingly recognized as an important public health burden(1, Reference Swinburn, Gill and Kumanyika2). Recent WHO global projections indicate that about 1·6 billion adults (age ≥15 years) were overweight and at least some 400 million adults were obese in 2005. WHO further projects that by 2015, approximately 2·3 billion adults will be overweight and more than 700 million will be obese(3). Once considered a problem only in wealthy countries, WHO estimates also indicate that the prevalence of overweight and obesity is now increasing dramatically in low-income countries. The increasing prevalence of obesity is worrying because epidemiological studies have consistently shown it to be associated with increased risks of morbidity, disability and mortality(Reference Visscher and Seidell4Reference Deslypere11). For example, obesity is a well-known risk factor for type 2 diabetes mellitus and is associated with some of the major risk factors for CVD, such as hypertension(Reference Seidell5, Reference Field, Coakley, Must, Spadano, Laird, Dietz, Rimm and Colditz6). Overweight and obesity (BMI ≥ 25 kg/m2) has been estimated to account for about 65–80 % of new cases of type 2 diabetes(Reference Seidell5).

In Western countries, overweight and obesity is highly prevalent in ethnic minority groups, particularly in women, as compared with the people of the host countries(Reference Agyemang and Bhopal12Reference Kumar, Meyer, Wandel, Dalen and Holmboe-Ottesen15). The explanations for these high prevalence rates among ethnic minority people are speculative, as empirical studies underpinning such observations are rare. Understanding the mechanism underlying the increasing prevalence of overweight and obesity among ethnic minority people is crucial for appropriate intervention strategies for prevention. Earlier studies comparing various populations of African descent in diverse geographical settings found a positive gradient in the prevalence of CVD risk factors from rural Africa to urban North America(Reference Cooper, Rotimi, Kaufman, Owoaje, Fraser, Forrester, Wilks, Riste and Cruickshank16Reference Cooper, Rotimi and Ataman18). Migration studies may therefore have the potential to increase our understanding about the increasing prevalence of overweight and obesity among these populations in Western countries. For example, comparison between first-generation migrants and their counterparts in their country of origin may help to provide important clues about the increasing prevalence of overweight and obesity among these populations in Western countries. However, migration studies on overweight and obesity are rare.

The main objective of the present paper was therefore to assess differences in overweight and obesity between first-generation Ghanaian migrants in The Netherlands and their counterparts living in rural and urban Ghana. Our prior hypothesis was that overweight and obesity would be substantially higher among Ghanaian residents in The Netherlands as compared with residents in urban and rural Ghana.

Methods

Study area

Urban and rural data for the present study were collected in the Ashanti region of Ghana. Ghana is situated on West Africa’s Gulf of Guinea, only a few degrees north of the Equator with a total area of 238 540 square kilometres. According to the Population Reference Bureau(19), the total population in mid-2007 was about 23 million with an annual growth rate of 2·3 %. The life expectancy was 58 years for men and 59 years for women. About 44 % of the population live in urban while 56 % live in rural areas.

The Netherlands data were collected in four cities: Amsterdam, Dordrecht, Rotterdam and The Hague. The majority of Ghanaians in The Netherlands originate from the Ashanti tribe in Ghana. They came to The Netherlands in the 1980s due to economic downturn in Ghana and Nigeria, where many were working(Reference Nimako20). In 2003 there were approximately 18 000 officially recorded Ghanaians in The Netherlands. However, there are a large number of undocumented Ghanaians in The Netherlands, which suggests that this number was underestimated. A more reliable estimate in 2000 was 40 000 based on Ghanaians in The Netherlands who registered to vote at the Ghanaian embassy for the presidential elections in Ghana in 2000(Reference Nimako20).

Study design

Data collection in Ghana

Details of the study methods in Ghana have been published elsewhere(Reference Agyemang21, Reference Agyemang, Bruijnzeels and Owusu-Dabo22). In short, data were collected in the regional capital city (Kumasi) and four villages in the Ashanti region of Ghana between August and September 2004 among adults aged 18 years and above. In the city, six churches with different denominations, teachers from seven schools and two banks (one bank had four branches) were selected randomly from lists of churches, schools and banks. Because of financial constraints, four villages were selected based on the recommendations from local advisors. In the villages, following the local rules, the chiefs and elders were contacted in advance to obtain their permission. In each village, the elders fixed an appropriate date for the community and reminded them prior to the data collection date. To ensure that everybody in each village had an equal chance of being selected, measurements were restricted to every other house. The villages have no main water supply, and the main occupation is subsistence farming. Because only physical measurements were made, only verbal informed consent was sought from the subjects before measurements were taken. In all the churches, data collection was done in the church in a special room provided by the church leaders. The bank managers and school principals also provided special rooms where weight and height were measured. The participation rates were high in all sites. For example, among 122 bank workers, only one person refused to participate and none of the teachers refused to participate. The response rate in the churches ranged from 82 % to 95 %. In all the villages, only two people present at the time of data collection refused his/her measurements to be taken.

Data collection in The Netherlands

In The Netherlands, a snowballing approach was used because of the difficulties in reaching this community. Leaders of three churches in three cities (Amsterdam, Dordrecht and Rotterdam) and one Ghanaian organization in The Hague were approached about the study. After discussions about the importance of the study, all leaders agreed to participate after consultations with their members. With leaders from each church and the organization, special dates were arranged for data collection by a trained Ghanaian nurse. At each site, all people present at the time agreed to have their measurements taken. About 98 % of our study participants in The Netherlands originated from the Ashanti region of Ghana. In line with Dutch legislation, the study was approved by the Netherlands Organization for Health Research and Development and judged to need no further review by a medical ethics committee as participants were recruited on a volunteer basis and were not required to undergo clinical examination.

The target sample size was mostly determined by the resources available. However, it was also based on our power calculations that showed that this sample size would achieve reasonably precise estimates of the mean values of key risk factors and would detect differences of the expected magnitude between the groups.

Measurements

Weight was measured to the nearest 0·1 kg after removal of shoes, jackets, heavier clothing and pocket contents (using an Electronic Korona Profimed scale, Germany) by trained staff. Height was measured without shoes with a measuring tape to the nearest 0·5 cm. BMI was calculated as weight (kg) divided by the square of height (m2). Overweight and obesity were defined as BMI ≥ 25 kg/m2 and BMI ≥ 30 kg/m2, respectively(23). In addition, information on demographics and education level was collected.

The Committee on Human Research Publication and Ethics, Kwame Nkrumah University of Science and Technology, Ghana approved the study protocols.

Data analysis

The χ 2 test was used to assess differences in categorical variables. Continuous variables were analysed using t tests. Differences in overweight/obesity were assessed by means of logistic regression analysis. All results from the logistic regression model are shown as odds ratios with corresponding 95 % confidence intervals. All statistical tests were two-tailed and P values ≤0·05 were considered statistically significant. All statistical analyses were performed using the SPSS for Windows statistical software package version 14·0·1 (SPSS Inc., Chicago, IL, USA).

Results

Table 1 shows the characteristics of the study population. Among men, urban Ghanaians were younger and had a higher level of education compared with rural Ghanaians and Dutch-Ghanaians. The Dutch-Ghanaians were taller than the rural and urban Ghanaians. Urban Ghanaians and Dutch-Ghanaians were heavier than rural Ghanaians. Among women, rural Ghanaians were older and less educated compared with urban Ghanaians and Dutch-Ghanaians. Rural Ghanaian women were shorter and lighter than both urban Ghanaians and Dutch-Ghanaians.

Table 1 Characteristics of the study population by location: first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Figures 1(a) and 1(b) show mean BMI by locality in men and women. In both men and women, there were positive gradients in mean BMI from rural Ghana to urban Ghana and to The Netherlands. The Dutch-Ghanaian men and women had higher BMI than their urban Ghanaian and rural Ghanaian counterparts. The urban Ghanaian men and women also had higher BMI than their rural Ghanaian counterparts.

Fig. 1 Mean BMI by locality in men (a) and women (b): first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Figures 2(a) and 2(b) show the prevalence rates of overweight and obesity (BMI ≥ 25 kg/m2) by locality and age group. Among men, the prevalence of overweight/obesity was higher in the older age group than the younger age group in all localities. However, the rates were higher in both younger and older Dutch-Ghanaian men (50·0 % and 84·2 %) than their urban Ghanaian (14·1 % and 39·2 %) and rural Ghanaian counterparts (5·6 % and 16·7 %). Similarly, a higher prevalence of overweight and obesity was also found among younger and older Dutch-Ghanaian women (65·0 % and 94·7 %) than in their urban Ghanaian (44·5 % and 61·0 %) and rural Ghanaian counterparts (17·8 % and 28·4 %).

Fig. 2 Overweight/obesity (BMI ≥ 25 kg/m2) by age group (▒, <40 years; ▓, ≥40 years) and locality in men (a) and women (b): first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Table 2 shows adjusted odds ratios and 95 % confidence intervals of overweight and obesity by locality in men and women. In an age-adjusted model, the Dutch-Ghanaian men were 18·8 times and urban Ghanaian men were 3·3 times more likely than rural Ghanaian men to be overweight or obese. Further adjustment for education did not have much influence on the differences. Among women, the Dutch-Ghanaians were 12·3 times and urban Ghanaians were 4·1 times more likely than rural Ghanaians to be overweight or obese. Further adjustment for educational level attenuated the differences slightly, but the Dutch-Ghanaians were still 11·5 times and urban Ghanaian 3·8 times more likely than their rural Ghanaian counterparts to be overweight or obese.

Table 2 Adjusted odds ratios and 95 % confidence intervals of overweight/obesity (BMI ≥ 25 kg/m2) by location in men and women: first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Model I adjusted for age; Model II adjusted for age plus education.

Discussion

The main purpose of the present study was to assess differences in overweight and obesity between first-generation Ghanaian residents in The Netherlands and their Ghanaian counterparts living in rural and urban Ghana. Our findings clearly indicate that the prevalence of overweight and obesity is much higher among the Dutch-Ghanaians than among their urban and rural counterparts in Ghana. The urban Ghanaians also have a higher prevalence of overweight and obesity than their rural counterparts. These differences persisted even after differences in educational level had been taken into account.

This is one of the few studies that have compared differences in overweight and obesity among first-generation migrants with their counterparts from the same region of their country of birth. Reasons for the increasing prevalence of overweight and obesity among ethnic minority groups have been speculative since empirical studies underpinning such observations are rare. Our present study provides a new insight into the possible role of migration-related factors on overweight and obesity in Western countries. The huge differences found between the first-generation Ghanaian residents in The Netherlands and their counterparts in urban and rural Ghana clearly indicate that environmental factors are at play, and suggest the need to tackle overweight and obesity among migrant populations living in Western countries. It also provides an important foundation for further studies to determine migration-related lifestyle changes and factors that result in increases in body sizes among these populations in Western countries.

Cultural perceptions regarding overweight and obesity may also play a role in the increasing prevalence of overweight and obesity among migrant populations. In most parts of Africa, being overweight or obese was and still is, at least in some part, associated with prestige, happiness and good healthy living, especially in women(Reference Holdsworth, Gartner, Landais, Maire and Delpeuch24, Reference Siervo, Grey, Nyan and Prentice25). It has been reported that, traditionally, Ghanaians in general associate fatness with beauty(Reference Amoah26). It has also been documented that Ghanaian men in general prefer overweight and obese women to thin ones(Reference Amoah26) although recent evidence suggests that these purported perceptions are no longer the case(Reference Duda, Jumah, Hill, Seffah and Biritwum27). Many Ghanaians came to The Netherlands in the 1980s, at a time when these perceptions were very strong. It is possible that they have held on to these perceptions in The Netherlands, which might contribute to the high rates of overnutrition and subsequently higher prevalence of overweight and obesity found among this group in The Netherlands. This, indeed, requires further studies.

Our findings have important implications for health-care delivery not only for The Netherlands but also other Western countries such as the UK with large proportions of migrants. The risk of hypertension is up to five times higher among obese people than among people of normal weight(Reference Wolf, Tuomilehto, Kuulasmaa, Domarkiene, Cepaitis, Molarius, Sans, Dobson, Keil and Rywik28). Obesity is also closely related to type 2 diabetes(Reference Stevens, Couper, Pankow, Folsom, Duncan, Nieto, Jones and Tyroler29, Reference Wannamethee and Shaper30); it is reported(Reference Wannamethee and Shaper30) that about 90 % of individuals who develop type 2 diabetes have BMI higher than 23·0 kg/m2. The strong relationship between obesity and hypertension and diabetes among populations of African descent has been well described(Reference Agyemang and Bhopal12, Reference Cooper, Rotimi, Kaufman, Owoaje, Fraser, Forrester, Wilks, Riste and Cruickshank16Reference Cooper, Rotimi and Ataman18). Although there is no information on obesity-related illnesses such as type 2 diabetes and hypertension among Ghanaian residents in The Netherlands, a recent report indicates that the incidence of malignant hypertension and related renal complications is higher in African-descent people (mainly Ghanaians and Nigerians) in Amsterdam than in white Dutch people(Reference van den Born, Koopmans, Groeneveld and van Montfrans31). The prevalence of overweight and obesity found among the Ghanaian population in The Netherlands exceeds the prevalence rates reported among their white Dutch male (overweight 40·2 % and obesity 14·3 %) and female (overweight 34·2 % and obesity 15·3 %) counterparts(Reference Agyemang, Bindraban, Mairuhu, Montfrans, Koopmans and Stronks13), and this may contribute, at least in part, to the higher incidence of malignant hypertension and related renal complications reported among this group in The Netherlands(Reference van den Born, Koopmans, Groeneveld and van Montfrans31). Given the high prevalence of overweight and obesity among this population in The Netherlands, there is a strong case to study this population further to assess the impact of overweight- and obesity-related illnesses among this population in The Netherlands. Left unchecked, the increasing prevalence of overweight and obesity among these populations may take its toll as chronic diseases with huge consequences for these communities and the health-care services.

Our findings also show a higher prevalence of overweight and obesity among urban Ghanaians than their rural counterparts. This is consistent with recent studies in West African countries(Reference Fezeu, Assah, Balkau, Mbanya, Kengne, Awah and Mbanya32, 33). Our study also confirms the earlier findings of a positive gradient in CVD risk factors from less developed to highly developed communities(Reference Cooper, Rotimi, Kaufman, Owoaje, Fraser, Forrester, Wilks, Riste and Cruickshank16Reference Cooper, Rotimi and Ataman18). Urbanization is associated with the adoption of lifestyles commonly referred to as ‘Westernization’, the consequence of which is the increased consumption of energy-dense foods and refined sugars complemented by less energy-demanding jobs in the urban centres(Reference Popkin34Reference Prentice37). Urbanization has also been associated with increased television ownership and viewing, as well as changes in traditional food preparation and the adoption of unhealthy eating habits including increased consumption away from home(Reference Eckel38). With increasing economic development in urban areas in Ghana, many urban Ghanaians have cheap means of transport. Fast-food chains are also on the increase. All of this may contribute to the higher prevalence of overweight and obesity in urban Ghana. The increasing prevalence of overweight and obesity comes with a rise in several overweight- and obesity-related illnesses(Reference Wild, Roglic, Green, Sicree and King39Reference Ezzati, Lopez, Danaei, Rodjers and Mathers41). Recent compiled data in Ghana, for example, clearly indicate that the prevalence of diabetes(Reference Amoah, Owusu and Adjei42, Reference Osei, Schuster, Amoah and Owusu43) and cardiovascular risk factors such as hypertension(Reference Agyemang and Bhopal12, Reference Agyemang, Bindraban, Mairuhu, Montfrans, Koopmans and Stronks13, Reference Agyemang and Owusu-Dabo44Reference Amoah46) are correspondingly on the increase. Ghana, like many low-income countries, is now faced with the health threat of non-communicable diseases while still battling with the unfinished agendas of communicable diseases.

In 2003, the World Health Assembly adopted the Global Strategy on Diet, Physical Activity, and Health, which targets lifestyle modifications that can combat the increase in non-communicable diseases(47). The WHO also issued objectives for low-income countries regarding healthy living. The present findings clearly indicate that there is a need for preventive measures to encourage and facilitate physical activity and healthy eating to control and prevent overweight and obesity in urban Ghana, in line with the WHO objectives.

There are limitations and strengths in our study. First, the differential sample techniques may bias our study conclusion. The urban Ghana sample, for example, was based on teachers, bank workers and church goers, whereas the Netherlands sample was based on churches and one community organization. Although this approach was used to ensure that people from different social and religious backgrounds were represented, it is possible that some people who did not fall into any of these groups may have been omitted, which may affect the study conclusions. However, most Ghanaians who originate from the Ashanti region are Christians and attend church regularly in both Ghana and The Netherlands. In addition, none of the people present at the time of measurement in The Netherlands refused to participate. Furthermore, the prevalence of overweight and obesity was consistently high across all churches and the one organization in all four cities. Second, our socio-economic indicator was based on educational level only and there was no information on lifestyle factors, which limits our ability to assess the possible determinants of obesity in different localities. Furthermore, we had no information on socio-economic circumstances and lifestyle factors prior to migration to The Netherlands. It is possible that the better-off Ghanaians migrated to The Netherlands, and perhaps were, given the phase of economic development in Ghana, more prone to develop overweight and obesity. The higher height of the Dutch-Ghanaians may reflect this possibility. Nevertheless, many of the Dutch-Ghanaians first migrated to Nigeria before coming to The Netherlands due to economic hardship in Ghana in the 1980s(Reference Nimako20). It is also possible that they benefited from the nutritional richer environment in Nigeria at the time, which may explain the higher height found among this group in The Netherlands. Future studies should assess the possible factors that may contribute to these locality differentials. Third, the sample of the Ghanaians in The Netherlands was relatively small compared with their counterparts in Ghana. Nevertheless, notwithstanding these limitations, the findings provide important information about the possible role of migration-related factors and their impact on the overweight and obesity pandemic among migrant populations in Western countries, and provide an important foundation for further studies. It is also one of the few studies that have compared overweight and obesity differences between first-generation migrants living in a Western country and their counterparts living in urban and rural settings from the same region of their country of origin.

Conclusion

Our findings demonstrate that the prevalence of overweight and obesity is overly high among first-generation Ghanaian residents in The Netherlands compared with their urban and rural Ghanaian counterparts in Ghana. These findings clearly indicate an urgent need to further assess migration-related factors that lead to these increases in overweight and obesity, and their impact on related illnesses such as diabetes and cardiovascular risk factors among this population in The Netherlands. Such information is essential for designing appropriate interventions for prevention.

The high prevalence of overweight and obesity among urban Ghanaian dwellers may contribute to the recently reported increases in diabetes and CVD in urban Ghana. Further increases in overweight and obesity will be seriously detrimental to the already overburdened health-care resources in Ghana. Preventive measures are needed to control and prevent overweight and obesity in urban Ghana. Implementation and evaluation of the WHO directives will be a good starting point(Reference Amoah, Owusu and Adjei42).

Acknowledgements

Conflict of interest:None.

Sources of funds:This project was supported by the Health Research and Development Council of the Netherlands (ZonMw). C.A. was supported by a VENI fellowship (grant number 916.76.130) awarded by the Board of the Council for Earth and Life Sciences (ALW) of the Netherlands Organisation for Scientific Research (NWO).

Author contributions:C.A., E.O.-D, A.d.J. and K.S. conceived and designed this study. C.A. and A.d.J. did the statistical analysis. C.A. wrote the first draft of the paper and all co-authors commented on the draft, with major contributions from E.O.-D., A.d.J., D.M., G.O. and K.S. All other authors provided comments and approved the final manuscript.

Acknowledgements:We thank all the nurses, the study participants and the community leaders for making this study possible. We are also grateful to Miss Betty Kusi for recruiting participants and taking measurements in the various places in The Netherlands. We also thank Dr Mary Nicolaou for providing useful comments on an earlier draft.

References

1.World Health Organization (2000) Obesity: Preventing and Managing the Global Epidemic. Report of a WHO Consultation. WHO Technical Report Series no. 894. Geneva: WHO; available at http://whqlibdoc.who.int/trs/WHO_TRS_894.pdfGoogle Scholar
2.Swinburn, B, Gill, T & Kumanyika, S (2005) Obesity prevention: a proposed framework for translating evidence into action. Obes Rev 6, 2333.CrossRefGoogle ScholarPubMed
3.World Health Organization (2006) The World Health Report 2006: Working Together for Health. Geneva: WHO.Google Scholar
4.Visscher, TL & Seidell, JC (2001) The public health impact of obesity. Annu Rev Public Health 22, 355375.CrossRefGoogle ScholarPubMed
5.Seidell, JC (1997) Time trends in obesity: an epidemiological perspective. Horm Metab Res 29, 155158.CrossRefGoogle ScholarPubMed
6.Field, AE, Coakley, EH, Must, A, Spadano, JL, Laird, N, Dietz, WH, Rimm, E & Colditz, GA (2001) Impact of overweight on the risk of developing common chronic diseases during a 10-year period. Arch Intern Med 161, 15811586.CrossRefGoogle ScholarPubMed
7.Ferrannini, E (1995) Physiological and metabolic consequences of obesity. Metabolism 44, Suppl. 3, S15S17.CrossRefGoogle ScholarPubMed
8.Stern, M (1995) Epidemiology of obesity and its link to heart disease. Metabolism 44, Suppl. 3, S1S3.CrossRefGoogle ScholarPubMed
9.Bjorntorp, P (1995) Endocrine abnormalities in obesity. Metabolism 44, Suppl. 3, S21S30.CrossRefGoogle Scholar
10.Burton, BT, Foster, WR, Hirsch, J & Vanitallie, TB (1998) Health implications of obesity: NIH consensus development conference. Int J Obes Relat Metab Disord 22, 3943.Google Scholar
11.Deslypere, JP (1995) Obesity and cancer. Metabolism 44, Suppl. 3, S24S27.CrossRefGoogle ScholarPubMed
12.Agyemang, C & Bhopal, R (2003) Is the blood pressure of people from African origin adults in the UK higher or lower than that in European origin white people? A review of cross-sectional data. J Hum Hypertens 17, 523534.CrossRefGoogle ScholarPubMed
13.Agyemang, C, Bindraban, N, Mairuhu, G, Montfrans, G, Koopmans, R & Stronks, K (2005) Prevalence, awareness, treatment, and control of hypertension among Black Surinamese, South Asian Surinamese and White Dutch in Amsterdam, The Netherlands: the SUNSET study. J Hypertens 23, 19711977.CrossRefGoogle ScholarPubMed
14.Misra, A & Ganda, OP (2007) Migration and its impact on adiposity and type 2 diabetes. Nutrition 23, 696708.CrossRefGoogle ScholarPubMed
15.Kumar, BN, Meyer, HE, Wandel, M, Dalen, I & Holmboe-Ottesen, G (2006) Ethnic differences in obesity among immigrants from developing countries, in Oslo, Norway. Int J Obes (Lond) 30, 684690.CrossRefGoogle ScholarPubMed
16.Cooper, RS, Rotimi, CN, Kaufman, JS, Owoaje, EE, Fraser, H, Forrester, T, Wilks, R, Riste, LK & Cruickshank, JK (1997) Prevalence of NIDDM among populations of the African diaspora. Diabetes Care 20, 343348.CrossRefGoogle ScholarPubMed
17.Luke, A, Durazo-Arvizu, R, Rotimi, C, Prewitt, TE, Forrester, T, Wilks, R, Ogunbiyi, OJ, Schoeller, DA, McGee, D & Cooper, RS (1997) Relation between body mass index and body fat in black population samples from Nigeria, Jamaica, and the United States. Am J Epidemiol 145, 620628.CrossRefGoogle ScholarPubMed
18.Cooper, R, Rotimi, C, Ataman, S et al. (1997) Hypertension prevalence in seven populations of African origin. Am J Public Health 87, 160168.CrossRefGoogle ScholarPubMed
19. Population Reference Bureau (2008) Demographic and Health Highlights of Ghana. http://www.prb.org/Countries/Ghana.aspx (accessed January 2008).Google Scholar
20.Nimako, K (2000) De Ghanese gemeenschap: Van migranten tot etnische minderheid. In Afrikanen in Nederland, pp. 165181 [I van Kessel and N Tellegen, editors]. Amsterdam: KIT.Google Scholar
21.Agyemang, C (2006) Rural and city differences in blood pressure and hypertension in Ghana, West Africa. Public Health 120, 525533.CrossRefGoogle Scholar
22.Agyemang, C, Bruijnzeels, MA & Owusu-Dabo, E (2006) Factors associated with hypertension awareness, treatment, and control in Ghana, West Africa. J Hum Hypertens 20, 6771.CrossRefGoogle ScholarPubMed
23.WHO Expert Consultation (2004) Appropriate body-mass index for Asian populations and its implications for policy and intervention strategies. Lancet 363, 157163.CrossRefGoogle Scholar
24.Holdsworth, M, Gartner, A, Landais, E, Maire, B & Delpeuch, F (2004) Perceptions of healthy and desirable body size in urban Senegalese women. Int J Obes Relat Metab Disord 28, 15611568.CrossRefGoogle ScholarPubMed
25.Siervo, M, Grey, P, Nyan, OA & Prentice, AM (2005) Urbanization and obesity in The Gambia: a country in the early stages of the demographic transition. Eur J Clin Nutr 60, 455463.CrossRefGoogle Scholar
26.Amoah, AG (2003) Sociodemographic variations in obesity among Ghanaian adults. Public Health Nutr 6, 751757.CrossRefGoogle ScholarPubMed
27.Duda, RB, Jumah, NA, Hill, AG, Seffah, J & Biritwum, R (2006) Interest in healthy living outweighs presumed cultural norms for obesity for Ghanaian women. Health Qual Life Outcomes 4, 44.CrossRefGoogle ScholarPubMed
28.Wolf, HK, Tuomilehto, J, Kuulasmaa, K, Domarkiene, S, Cepaitis, Z, Molarius, A, Sans, S, Dobson, A, Keil, U & Rywik, S (1997) Blood pressure levels in the 41 populations of the WHO MONICA project. J Hum Hypertens 11, 733742.CrossRefGoogle ScholarPubMed
29.Stevens, J, Couper, D, Pankow, J, Folsom, AR, Duncan, BB, Nieto, FJ, Jones, D & Tyroler, HA (2001) Sensitivity and specificity of anthropometrics for the prediction of diabetes in a biracial cohort. Obes Res 9, 696705.CrossRefGoogle Scholar
30.Wannamethee, SG & Shaper, AG (1999) Weight change and duration of overweight and obesity in the incidence of type 2 diabetes. Diabetes Care 22, 12661272.CrossRefGoogle ScholarPubMed
31.van den Born, BJ, Koopmans, RP, Groeneveld, JO & van Montfrans, GA (2006) Ethnic disparities in the incidence, presentation and complications of malignant hypertension. J Hypertens 24, 22992304.CrossRefGoogle ScholarPubMed
32.Fezeu, LK, Assah, FK, Balkau, B, Mbanya, DS, Kengne, AP, Awah, PK & Mbanya, JC (2008) Ten-year changes in central obesity and BMI in rural and urban Cameroon. Obesity (Silver Spring) 16, 11441147.CrossRefGoogle ScholarPubMed
33. Abubakari AR, Lauder W, Agyemang C, Jones M, Kirk A & Bhopal RS (2008) Prevalence and time trends in obesity among adult West African populations: a meta-analysis. Obes Rev 9, 297311.CrossRefGoogle Scholar
34.Popkin, BM (2006) Global nutrition dynamics: the world is shifting rapidly toward a diet linked with noncommunicable diseases. Am J Clin Nutr 84, 289298.CrossRefGoogle Scholar
35.Prentice, A & Webb, F (2006) Obesity amidst poverty. Int J Epidemiol 35, 2430.Google ScholarPubMed
36.Yusuf, S, Reddy, S, Ounpuu, S & Anand, S (2001) Global burden of cardiovascular diseases: Part I: general considerations, the epidemiologic transition, risk factors, and impact of urbanization. Circulation 104, 27462753.CrossRefGoogle ScholarPubMed
37.Prentice, AM (2006) The emerging epidemic of obesity in developing countries. Int J Epidemiol 35, 9399.CrossRefGoogle ScholarPubMed
38.Eckel, RH (2003) Obesity: Mechanisms and Clinical Management. Philadelphia, PA: Lippincott Williams & Wilkins.Google Scholar
39.Wild, S, Roglic, G, Green, A, Sicree, R & King, H (2004) Global prevalence of diabetes: estimates for the year 2000 and projections for 2030. Diabetes Care 27, 10471053.CrossRefGoogle ScholarPubMed
40.Haslam, DW & James, WP (2005) Obesity. Lancet 366, 11971209.CrossRefGoogle ScholarPubMed
41.Ezzati, M, Lopez, AL, Danaei, G, Rodjers, A & Mathers, CD (2004) Comparative Quantification of Health Risks: Global and Regional Burden of Disease Attributable to Selected Major Risk Factors. Geneva: WHO.Google Scholar
42.Amoah, AG, Owusu, SK & Adjei, S (2002) Diabetes in Ghana: a community based prevalence study in Greater Accra. Diabetes Res Clin Pract 56, 197205.CrossRefGoogle Scholar
43.Osei, K, Schuster, DP, Amoah, AG & Owusu, SK (2003) Diabetes in Africa. Pathogenesis of type 1 and type 2 diabetes mellitus in sub-Saharan Africa: implications for transitional populations. J Cardiovasc Risk 10, 8596.CrossRefGoogle ScholarPubMed
44.Agyemang, C & Owusu-Dabo, E (2008) Prehypertension in the Ashanti region of Ghana, West Africa: an opportunity for early prevention of clinical hypertension. Public Health 122, 1924.CrossRefGoogle ScholarPubMed
45.Cappuccio, FP, Micah, FB, Emmett, L, Kerry, SM, Antwi, S, Martin-Peprah, R, Phillips, RO, Plange-Rhule, J & Eastwood, JB (2004) Prevalence, detection, management, and control of hypertension in Ashanti, West Africa. Hypertension 43, 10171022.CrossRefGoogle ScholarPubMed
46.Amoah, AG (2003) Hypertension in Ghana: a cross-sectional community prevalence study in greater Accra. Ethn Dis 13, Summer, 310315.Google Scholar
47.Wo rld Health Organization (2003) Diet, Nutrition and the Prevention of Chronic Diseases. Report of a Joint WHO/FAO Expert Consultation. WHO Technical Report Series no. 916. Geneva: WHO.Google Scholar
Figure 0

Table 1 Characteristics of the study population by location: first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Figure 1

Fig. 1 Mean BMI by locality in men (a) and women (b): first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Figure 2

Fig. 2 Overweight/obesity (BMI ≥ 25 kg/m2) by age group (▒, <40 years; ▓, ≥40 years) and locality in men (a) and women (b): first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004

Figure 3

Table 2 Adjusted odds ratios and 95 % confidence intervals of overweight/obesity (BMI ≥ 25 kg/m2) by location in men and women: first-generation Dutch-Ghanaian migrants in The Netherlands and their rural and urban counterparts in Ghana, 2004