key: cord-0019772-smrube8l authors: Egbi, Oghenekaro G.; Ahmed, Sulaiman D.; Madubuko, Roli title: Prevalence and biosocial determinants of hypertension in a rural population in Edo State, Southern Nigeria date: 2021-07-01 journal: Afr J Prim Health Care Fam Med DOI: 10.4102/phcfm.v13i1.2833 sha: 6a5ff2a11c67594a24ffb1e334d4161c71d22c2a doc_id: 19772 cord_uid: smrube8l BACKGROUND: Hypertension is a public health threat of global concern with increasing prevalence in many countries, including Nigeria. AIM: The aim of the study was to determine the prevalence and determinants of hypertension in a rural agrarian community in Edo North, Nigeria. SETTING: The study was carried out in Ayua, a community in Edo North, southern Nigeria. METHODS: This cross-sectional descriptive study involved the use of a structured interviewer-administered questionnaire to obtain relevant data. Body mass index (BMI), blood pressure and glucose were recorded. Data were analysed using Statistical Package for Social Sciences (SPSS) version 20.0. RESULTS: Two hundred and nineteen participants aged > 15 years completed the study with a mean age of 54.03 ± 16.61 years and females comprising 159 (72.6%) of the total. The prevalence of hypertension was 27.9% (in 61 participants). Twenty-one (9.8%) respondents gave a family history of hypertension. The mean BMI amongst respondents was 27.10 ± 6.61 kg/m(2). Obesity and pre-obesity were found in 58 (26.5%) and 71(32.4%) respondents, respectively. The determinants of hypertension were age and BMI. Compared with those who were less than 40 years old, those aged 40–65 years and > 65 years had 1.9 and 4.2 times increased odds of developing hypertension, respectively. Similarly, compared with the non-obese, obese participants had 2.3 times increased odd of having hypertension. CONCLUSION: Hypertension was highly prevalent in this rural community. Health sensitisation and intervention programmes are recommended in rural communities for early detection and management of hypertension, especially amongst older and obese adults. Globally, hypertension is a common public health threat, often resulting in devastating systemic complications such as cerebrovascular accident, kidney and heart failure, and blindness. Cardiovascular disease accounts for approximately 17 million deaths a year, about one-third of total deaths worldwide 1 with complications of hypertension responsible for 9.4 million deaths yearly. 2 This is without prejudice to the asymptomatic nature of its uncomplicated form which has earned it a unique nomenclature 'the silent killer'. 3 Hypertension affects approximately 1.13 billion people worldwide 4 and only less than 20% of affected persons have the problem under control. 5 Contrary to the popular belief that hypertension is more prevalent in high-income countries, it has been shown that three-quarters of the world's hypertensive population now reside in low-and middle-income countries. 6 In Nigeria, a systematic review reported prevalence rates ranging from 9.3% in Ibadan 7 to 50.5% in Ogbomosho 8 with higher rates in urban communities. Ulasi et al reported a prevalence of 25.1% and 35.4% in a rural and semi-urban community, respectively, in South-East Nigeria. 9 However, it appears the existing gaps between rates in urban and rural communities are gradually closing up. Recent reports across Nigeria suggest an increasing prevalence amongst rural populations. 10 This may not be unrelated to nutritional transition, changes in lifestyle, and socio-cultural patterns in rural settings. 11 Other non-communicable diseases which often cluster with hypertension such as obesity and diabetes have also been on the rise in such communities. 11 One could however hypothesise that non-sedentary occupations such as farming, common in rural settings, would confer some protection against the risk of developing hypertension. The aim of the study was to Background: Hypertension is a public health threat of global concern with increasing prevalence in many countries, including Nigeria. The aim of the study was to determine the prevalence and determinants of hypertension in a rural agrarian community in Edo North, Nigeria. http://www.phcfm.org Open Access determine the prevalence and some determinants of hypertension amongst residents of Ayua, a rural agrarian community in Edo North, Nigeria. It is expected that community screening for hypertension could help in timely detection of silent hypertension and associated factors. This will be important for strategic health planning with a goal of early intervention to mitigate the risk of complications. The study employed a descriptive cross-sectional design and a quantitative method of data collection. The entire study including the conceptual design, training of the research team, the screening exercise and data storage took place from February 2015 to May 2015. The study was carried out in Ayua, a rural community located in Etsako West local government area in Edo North Senatorial District of Edo State. Edo is one of the six states in the South-South geopolitical zone of Nigeria. Ayua has a total population of 3058 persons with 1570 females constituting about 51.3% of the population. 12 The indigenous language spoken by the community is 'Afemai' also known as 'Yekhee' whilst the major occupation of the inhabitants is subsistence farming. The usual crops grown in the community include rice, yam, cassava, melon, beans and palm produce. They are also involved in livestock farming such as poultry, goat and sheep rearing. Their staple diet includes rice, cassava meal and yam. The study population consisted of consenting adults who met the criteria for inclusion. The inclusion criteria included all adults > 15 years who showed willingness to participate in the study. Pregnant women, very ill persons, individuals unable to stand, and those who were uncooperative were excluded from the study. Also excluded were individuals with a history of steroid use, secondary causes of hypertension such as renal disease, clinical evidence of fluid retention or other overt complications of hypertension such as stroke or heart failure. The sample size for the study was calculated using the Fisher's formula for finite population as follows: Adding 10% of 'n' for non-response or incomplete data results in a sample size of 252. Therefore, a total of 250 persons were enrolled for the study. A convenient sampling of individuals who presented for the health survey at the designated venue, on scheduled date and time, was done until the desired sample size was achieved. The study involved an initial health sensitisation and advocacy in the community. The traditional rulers, leaders of the various religious organisations and trade unions were consulted and given prior notice to mobilise their subjects for the health screening exercise which was to take place on a particular weekend in April 2021 in the village town hall. Data collection was done over a period of about 8 h. The research team was made up of two consultant physicians (one of whom was the principal researcher and head of the team), five medical officers, eight nurses, three pharmacists, two laboratory scientists and two other research assistants. They had a 3-day training by the principal researcher on the questionnaire and other relevant aspects of the study just prior to the commencement of the study. An intervieweradministered questionnaire was developed and divided into two sections. Section A contained information on demographics (including age and gender) and information on medical history (personal history of hypertension and diabetes and family history of hypertension and diabetes) whilst anthropometric data and data on blood pressure and glucose were contained in Section B. The screening exercise was preceded by a health talk on hypertension given by one of the medical doctors in pidgin and translated to the local dialect by a native of the community. Two doctors were responsible for obtaining the socio-demographic data and medical history from the participants. The nurses were responsible for blood pressure check and anthropometric measurements. The 'other research assistants' were responsible for coordination of the overall activities and orderliness of the exercise. Blood sampling and analysis for plasma glucose were performed by the laboratory scientists. Patients found to be hypertensive, diabetic or obese were also referred to the other doctors who counselled and prescribed medications where needed. The medications were dispensed by the pharmacists. Such patients were subsequently referred for follow up in a nearby health facility. Blood pressure was measured using an OMRON digital sphygmomanometer (OMRON, Kyoto, Japan). An average of two readings was taken at 5 min interval. The individual was required to sit quietly on a chair and should not have taken caffeine, nicotine or alcohol and must also not have exercised at least 30 min prior to measurement. The systolic blood pressure (SBP) was taken as the point at which the first of the Korotkoff sounds was heard whilst the complete disappearance of Korotkoff sounds was used to define diastolic blood pressure (DBP). Participants' weights were measured on a manual bathroom scale to one decimal figure in kilograms after removing heavy clothing and shoes and putting aside phones and other items. Similarly, a marked 'height wall' was used to measure height to the nearest 0.01 m with the participant erect, backs against the wall and feet placed side by side without shoes. The body mass index (BMI) was computed by dividing the weight by the square of the height and expressed in kg/m 2 . Casual blood glucose (CBG) measurement was done with an Accuchek glucometer using capillary blood from finger prick according to standard procedures. Hypertension was defined as a measured blood pressure ≥ 140 millimetre of mercury (mmHg) systolic and/or ≥ 90 mmHg diastolic or self-reported use of drug treatment for hypertension irrespective of measured blood pressure. 14 Hypertensives were participants with SBP > 140 mmHg and/or DBP > 90 mmHg and/or a personal history of hypertension whilst non-hypertensives were participants with SBP < 140 mmHg, DBP < 90 mmHg and without a personal history of hypertension. A personal history of hypertension was defined as a selfreport of diagnosis of hypertension whilst a family history of hypertension was defined as a diagnosis of hypertension in first-or second-degree relatives. Diabetes mellitus (DM) was defined in this study as CBG of ≥ 11.1 mmol/L with a history of suggestive symptoms. 15 A personal history of DM was defined as a self-report of diagnosis of diabetes amongst participants. A family history of DM was defined as a prior diagnosis of DM in first-or second-degree relatives. Obesity was defined as BMI > 30 kg/m 2 whilst pre-obesity was defined as BMI > 25 kg/m 2 but less than 30 kg/m 2 . Normal BMI was defined as values between 18.5 kg/m 2 and 24.9 kg/m 2 whilst lesser values were considered as 'underweight'. 16 The software used for the data analysis was the Statistical Package for Social Sciences (SPSS) International Business Two hundred and fifty persons were selected to participate in the study but only 219 (87.6%) had complete data useful for analysis. The socio-demographic data of respondents is shown in Table 1 . The number of females (n = 159, 72.6%) was remarkably greater than the males (n = 60, 27.4%). The mean age of the respondents was 54.03 ± 16.61 years with no significant difference between males and females (Table 2 ). However, there was no statistically significant difference between the presence of a family history of hypertension or family history of diabetes and presence of hypertension (p = 0.13 and 0.09, respectively). Whilst four (6.6%) hypertensives had an associated DM, nine (5.7%) non-hypertensives had DM. There was no significant difference in the association of hypertension with DM (p = 0.758). Also, although the mean CBG was higher for hypertensives (7.05 ± 5.63 mmol/L) as compared to non-hypertensives (6.71 ± 4.48 mmol/L), there was no statistical significance between them (p = 0.676) (see Table 2 ). Although the mean blood pressures were higher in males, statistically significant difference was not met (p = 0.151 and 0.919 for SBP and DBP, respectively; see Table 3 ). The result of multivariate analysis to identify determinants of hypertension is shown in Table 4 . Hypertension was independently predicted by age and BMI in this study. Compared with those who were less than 40 years old, individuals aged 40-65 years and those > 65 years old had 2.3 and 4.2 times increased odds of developing hypertension. Similarly, obese participants had a 2.3 times increased odd of developing hypertension ( Table 4 ). The association of hypertension with age and BMI is further represented in Figures 1 and 2 , respectively. The highest prevalence of hypertension was found in those within the range of 61-70 years (43.7%). There was no (0.0%) hypertensive individual amongst those less than 20 years old. There was a gradual increase in prevalence rates until age 60. (Figure 1 ) The prevalence of hypertension in underweight, normal, pre-obese and obese individuals were 18.2% (2/11), 25.3%, (20/79), 25.4% (18/71) and 36.2% (21/58), respectively ( Figure 2 ). This study reports a high prevalence of hypertension (27.9%) in a rural, agrarian community in Edo State, Nigeria. This is consistent with reports from most communities in Nigeria with rates ranging from about 20.8% to 46.4% over the last decade. 17, 18 In the latter study, 18 Onwubere et al. may have found a much higher rate because those less than 40 years old were excluded in their study. More lately, Akpan et al also reported a relatively high prevalence of 44.3% in rural communities compared with 28.6% in urban communities in Akwa Ibom, Nigeria. 13 This is in contrast to an earlier comparative study done in year 2013 between urban and rural communities in Abuja, the Nigerian Federal Capital Territory, which gave a disproportionally lower rate in the rural community (12.9%) as against the urban area (32.7%) studied. 19 However, in a similar rural setting predominated by farmers, just like ours, Ugwuja et al. reported a slightly lower prevalence of 23.2% in Enugu State, Nigeria, in 2015. 20 However, their study did not incorporate those with a history of hypertension, but with normal measured blood pressure, into the diagnosis of hypertension and this may have contributed to the difference in the rates. The age-specific prevalence of hypertension was highest in the age group 61-70 years, having increased gradually from 0.0% in those below 20 years till age 50. There was up to four times increased odds for hypertension amongst those above 65 years of age compared with adults who were below 20 years old. Similarly, the obese had double the risk of development of high blood pressure in comparison with those with normal BMI. These findings are in agreement with reports which have alluded to strong positive association of blood pressure with age and BMI. In fact, several studies considered the duo of age and BMI as the most significant predictor of hypertension in Nigeria 20, 21, 22 and elsewhere. 23, 24 Firstly, the association of obesity with hypertension is important; as obesity is modifiable, it could have a strategic place in management of hypertension. Secondly, the prevalence of obesity is on the increase, and is presently assuming epidemic dimensions in several countries including Nigeria. 25 This has important implications for the burden of hypertension. Apart from BMI, regional fat distribution has also been reported as a major determinant of blood pressure. 26, 27 A meta-analysis conducted in West Africa also included gender alongside obesity and age as predictors of hypertension. 28 However, we did not find any association between hypertension and gender. The female participants largely outnumbered the males in our study even though the population was only slightly tilted in their favour. This is not surprising as it is believed that Nigerian women display a better healthseeking behaviour as compared to their male counterparts. 29 There was however no difference in the demographic characteristics or blood pressure indices between males and females. Our results agree with the findings of another large meta-analysis involving both low-and medium- income countries that failed to demonstrate a significant association of hypertension with gender. 30 The determination of the exact influences of gender on blood pressure is still inconclusive and warrants further studies. In another report from Delta State, Nigeria, increasing age, BMI and salt intake were independently associated with hypertension. 31 However, we did not assess for dietary factors in our study. A family history of diabetes and plasma glucose were reported as determinants of hypertension in the Ibadan study. 26 We however did not find an association between any of these variables and hypertension. In our study, we recorded CBG values whilst in theirs, a 2 h plasma glucose level was assessed after an oral glucose loading. Also, the cut-off for hypertension (160/95 mmHg) used in that study was different from ours. Although the proportion of hypertensives with a family history of hypertension was remarkably more compared with hypertensives without a family history, statistical significance was not reached. This is similar to the report of Lebbie et al where the association between family history of hypertension and blood pressure was only close to conventional level of significance (p < 0.1 but not > 0.05). 23 A number of studies have however reported that a family history of hypertension could predict hypertension in relatives. 32, 33 It is important to note that such self-report of history of illness or diagnosis without any objective confirmation may be prone to report or recall bias. Other limitations of this study include failure to explore certain risk factors which have long been documented to be associated with hypertension such as physical inactivity, tobacco and alcohol use. 34 The convenience sampling technique used in this study, being a non-probability sampling method, may pose some challenges on the extent to which the sample is representative of the population. Despite these limitations, the findings of a high prevalence of hypertension in this rural community and its predictability by age and BMI remain valid. It is likely that the rate of hypertension is on the increase in rural populations. Routine screening for hypertension in such settings with subsequent intervention is highly recommended especially amongst older people with associated obesity. World Health Organization. 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This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. The data that support the findings of this study are available on request from the corresponding author (O.G.E.). The views and opinions expressed in this article are those of the authors and do not necessarily reflect the official policy or position of any affiliated agency of the authors. The first author (O.G.E.) was involved in the following aspects of the manuscript: conceptualisation of data, methodology, data analysis, writing and editing of the original draft, as well as writing of the final draft. The second author (S. D. A.) was involved in methodology, investigation, supervision of the field work, funding as well as editing of the draft. The third author (R.C.M.) contributed to the methodology, writing and editing of the final draft. All authors and agreed to the final draft. Ethical approval to conduct the study was received from the Bayelsa State Health Research Ethics Committee (reference BSHREC/V0L.1/15/35).The paramount ruler of the Ayua community gave permission for the study to be carried out before the potential participants were approached. The procedure, rationale, risks and benefits of the study were adequately communicated to the participants and consent was obtained from them before proceeding with the study. Use of names and other personal identifiable information was avoided. Only serial numbers were used where necessary. All information provided was kept strictly confidential. Ethical clearance was also obtained from the Ethics Research Committee of the Bayelsa State Ministry of Health as part of a large multicentre study on hypertension to be carried out in the south-south geographical zone of Nigeria.