Diabetes in Borgou Department in Benin: Prevalence and Associated Factors ()
1. Background
With its epidemic trend reported by several authors [1] [2] , diabetes mellitus become a worldwide health concern. The progression of the disease is particularly worrying in developing countries.
When estimates reported by Wild et al. mentioned that the number of people with diabetes will have an increase of 161% from 2000 to 2030 in sub-Saharan Africa, the increase for the same period will be of 54% in developed countries [3] . Our country, the Republic of Benin did not make exception to this epidemic trend of the disease. The first nationwide survey carried out in 2001 revealed a prevalence of 1.1% [4] . In 2008 this prevalence has more than doubled, growing to 2.6% [5] . At these two occasions, Borgou department shown the highest prevalence rate. Because of its long term complications, diabetes mellitus is responsible of elevated morbidity and mortality [6] . To reduce the negative impact of the disease on the economic development of countries, health actions must be developed to prevent this condition and related complications. Planning these actions must give priority to the more affected areas and need to actualize the range of the disease. The aim of the present study was to determine the prevalence of diabetes mellitus and fasting hyperglycaemia in the Borgou department in Benin in 2011 and to investigate associated factors.
2. Population and Method
The study population was constituted by the subjects living in the Borgou department in Benin and who were 18 years or more old. Informed subjects who have given their own consent were included in this study. Were not included, subjects who did not give their consent to participate to the survey, subjects unable to answer questions, pregnant women and subjects presenting any evolutive pathology.
Benin is a French speaking country of West Africa located between Federal Republic of Nigeria at the east, Republic of Togo at the west, Republics of Niger and Burkina Faso at the north and Atlantic Ocean at the south. The administrative organization consists of departments, towns, districts and areas or villages. The Borgou department is located at the north-west part of the country. The estimate population of this department was 969,897 inhabitants.
Sample size was calculated using Schwartz formula with the prevalence rate of 4.6% corresponding to the prevalence rate observed in 2008, with the absolute precision of 5%. Hypertension was investigated simultaneously with diabetes. With these conditions, the calculated size was 4636 subjects.
Sampling method: The survey was carried out using the STEP wise approach for the surveillance of risk factors of chronic disease [7] recommended by the World Health organization (WHO). The survey population was selected using grapes sounding technic. Borgou department is divided into 43 districts. Every district represented a grape.
The first step consisted in selecting by random, the half of the districts of the department and then, in itch districts the half of the villages or areas was randomly selected. In the village or area, the half of the household was selected by random.
In every district randomly selected, the half of the areas or villages were selected with random. In the selected area or village, a direction was randomly chosen by the investigator and in this direction, one household out of two was investigated. In the household, the half of menages living in the household was randomly selected and all eligible subjects in this ménage were investigated.
The research protocol was approved by the ethic comity of the ministry of health.
Data were collected from September 30th to November the 20th 2011 using the STEP instrument of WHO [7] . The survey team was trained and certified in the use of this instrument. After informed consent, subjects were submitted to the STEP questionnaire in which age and sex were precised. Height and weight were measured and body mass index (BMI) was calculated dividing weight (kg) by the square of height (m). Subjects were considered obese with BMI greater than or equal to 30 kg/m2. Blood pressure was measured on the right arm of seated subject after at least five minutes rest with an OMRON electronic sphygmomanometer on three occasions at fifteen minutes interval. Hypertension was defined by blood pressure higher than or equal to 140 mm/Hg for systolic blood pressure and higher than or equal to 90 mm/Hg for diastolic blood pressure. After interview and anthropometric measure, selected subjects were sensibilised and the day after, blood was drawn for biochemical measures. In fasting condition since the previous evening meal, capillary whole blood was obtained from a finger puncture and was immediately analysed using a glucometer One Touch Ultra to determine glycaemia. Subjects were considered diabetic if they were previously diagnosed as diabetic or when fasting glycaemia was greater than or equal to 126 mg/dl. Impaired fasting glycaemia was defined with fasting glycaemia between 110 and 126 mg/dl and glycaemia was considered normal if less than 110 mg/dl [8] .
3. Statistical Analysis
For statistical analysis, the Chi-square test was used to compare proportions and student t-test was used for the comparison of means. Differences observed were considered significant with p < 0.05.
4. Results
A total of 4597 subjects was included in the survey comprising 1935 men (42.1%) and 2662 women (57.9%). Mean age of subjects was 37.2 ± 16.5 years.
Prevalence of diabetes and impaired fasting glycaemia
Hyperglycaemia corresponding to diabetes mellitus was detected in 414 subjects giving a prevalence rate of 9.0%. In these subjects presenting diabetes only 53 were previously known diabetic. The proportion of undiagnosed diabetes in Borgou department was then 87.1%. The prevalence of impaired fasting glycemia was 12.4% (569 out of 4597 subjects).
As it appears in Table 1, prevalence of diabetes grows significantly with subjects’ age.
The prevalence observed in the different districts investigated is reported in Table 2. It ranges from 0.6% to
Table 2. Prevalence of diabetes in the different districts selected.
15.3% and the districts of Nikki, Sinende and Tchaourou show the highest prevalence rates.
Six ethnic groups were represented in this survey. The prevalence of diabetes in the different ethnic groups is shown in Table 3.
The highest prevalence rate of diabetes was observed in the Bariba ethnic group.
The association of the prevalence of diabetes with different factors is presented in Table 4 with:
Gender: Men and women
Matrimonial situation regroups: married, widowed, divorced or separated, unmarried
School instruction regroups: none, alphabetized, primary school, secondary school 1 and 2, and university
Tobacco consumption (yes or no); Obesity (yes or no); High blood pressure (yes or no)
Table 3. Prevalence of diabetes in ethnic groups.
There was no association with gender or with tobacco consumption. According to the level of instruction, investigated subjects were classified as having none instruction, primary school level, secondary level or university level. In the Borgou department the prevalence of diabetes was not associated with instruction level of subjects but a very significant association was found with matrimonial status.
5. Discussion
This study was carried out to determine the prevalence of diabetes mellitus and associated factors. The limitation of the study was the use of one single fasting capillary glycaemia to define diabetes mellitus. Detected subjects would have been confirmed by determining plasma glucose level with a reference test. In our conditions it was very difficult to perform a confirming test in this scale study. Despite this limitation, data collection and statistical analysis were performed with respect of the rigorous conditions recommended by the World Health Organization (WHO) for the surveillance of non communicable disease [7] . Study population size recommended by WHO was 2000 but we have included a total of 4597 subjects in this study. Thus, giving a large scale estimate of the prevalence of diabetes in the Borgou department in 2011, this study provides the baseline data which can help to plane health activities in the field of the prevention of diabetes and associated factors.
The present study revealed a prevalence of diabetes and impaired fasting glycaemia of respectively 9.0% and 12.4%. In a similar nationwide survey carried out in Benin in 2001 [6] and 2008, prevalence of diabetes in Borgou department was respectively 4.6% and 4.6%. This evolution confirmed one more the epidemic trend of the disease announced by the WHO in the world and particularly in developing countries [1] [2] [9] . Regarding the health cost induced by diabetes and its complications, and this rapid rate of progression in Borgou department, this results indicate that in the Borgou department, it is time to act to prevent this disease, following WHO recommendations. This high prevalence of diabetes observed in the Borgou department is in the trend observed in some others regions in African countries: 6.1% in the Futa Jallon region in Guinea in 2007 [9] , 7.2% in Tunisia [10] , 14.2% in the Tlemcem area in Algeria [11] , 5.5% in South Africa [12] . Diabetes mellitus has been reported to be more prevalent in urban area than in rural area. We can speculate that the difference of prevalence observed with these authors would partly be explained by the fact that some of these studies included rural and urban populations and some other only urban populations. The variable results reported in different studies can also be related to environmental and genetic factors which are known to influence the prevalence of diabetes and associated factors [13] . The influence of environmental and genetic factors in our study is demonstrated by the difference of prevalence between the different districts of the department. Prevalence of diabetes was very high in some districts of the department (15.3%, 15.2%, and 13.1% respectively in the districts of Nikki, Sinendé and Tchaourou) and low in some others (0.6% and 2.2% respectively in Pèrèrè and Bembèrkèdistricts) when general prevalence was 2.6% in Benin [5] .
Regarding the tribes represented in the study, the highest prevalence (10.6%) was evidenced in the Bariba ethnic group suggesting intervention of genetic and/or environmental factors in this tribe. High prevalence of diabetes had been reported in other African tribe like the Fulani tribe in Guinea [10] and the Haya tribe in Tanzania [14] . Intervention of the genetic factors in the pathogenesis of type 2 diabetes is well known [15] . Age over 40 years is known as risk factor for diabetes. Concordant with result of several studies [9] [13] [17] , the prevalence of diabetes mellitus increased with age in our study. Concordant with some data reporting no difference with gender [8] [16] - [18] , there was no significant difference between men and women in the prevalence of diabetes in our studies. In some other studies prevalence of diabetes was reported to be higher in men than in women [11] [12] [19] . On the other hand, Bradshaw in South Africa, Jean-Baptiste ED and al in Haiti, Esteghamati A and al in Iran reported a higher prevalence of diabetes in women than in men [13] [20] [21] . As reported by many other studies [22] , other factors associated with diabetes mellitus in Benin are obesity and hypertension.
It is reported that a high proportion of diabetic subjects remain often undiagnosed [23] . The same figure was observed in the present survey. Only 12.8% of the diabetic subjects detected were known diabetic before. So, 87.2% of diabetic subjects were undiagnosed. This delay in diagnosis can explain the high rate of late complications observed in sub-Saharan African countries [24] .
6. Conclusion
The present study shows a rapid progression of diabetes particularly in the Borgou department in Benin. An important proportion of these diabetic subjects remained undetected before the survey and thus untreated indicating the need for more active screening in certain areas and tribes. The prevalence rate varies between different areas and between different tribes of the department reflecting the effect of environmental and genetic factors. Classical risk factors were found associated with diabetes mellitus in Benin. Despite its limitations, this study provides baseline data for adequate planning of active interventions to prevent diabetes mellitus and its complications particularly in Borgou department where the disease is growing rapidly. For efficient prevention, further epidemiologic study is needed to identify specific risk factors.
Acknowledgements
Acknowledgements to the ministry of health of Benin which provided fond for the realization of this survey.
NOTES
*All authors contributed to the realization of the manuscript. An abstract of this work was presented at the world diabetes congress.
#Corresponding author.