The prevalence of hypertension is rising worldwide with an estimated one billion people now affected globally and is of near epidemic proportions in many parts of South Asia. Recent turmoil has until recently precluded estimates in Afghanistan so we sought, therefore, to establish both prevalence predictors in our population.
Methods
We conducted a cross-sectional study of adults ≥40 years of age in Kabul from December 2011-March 2012 using a multistage sampling method. Additional data on socioeconomic and lifestyle factors were collected as well as an estimate of glycaemic control. Bivariate and multivariable analyses were undertaken to explore the association between hypertension and potential predictors.
Results
A total of 1183 adults (men 396, women 787) of ≥ 40years of age were assessed. The prevalence of hypertension was 46.2% (95% CI 43.5 – 49.3). Independent predictors of hypertension were found to be: age ≥50 (OR = 3.86, 95% CI: 2.86 – 5.21); illiteracy (OR = 1.90, 1.05 – 1.90); the consumption of rice >3 times per week (OR = 1.43, 1.07 – 1.91); family history of diabetes (OR = 2.20, 1.30 – 3.75); central obesity (OR = 1.67, 1.23 – 2.27); BMI ≥ 30 Kg/meter squared (OR = 2.08, 1.50 – 2.89). The consumption of chicken and fruit more than three times per week were protective with ORs respectively of 0.73 (0.55-0.97) and 0.64 (0.47 – 0.86).
Conclusions
Hypertension is a major public health problem in Afghan adults. We have identified a number of predictors which have potential for guiding interventions.
The online version of this article (doi:10.1186/1471-2458-14-386) contains supplementary material, which is available to authorized users.
Competing interests
There is no financial or non-financial competing interest of authors in this paper.
Authors’ contributions
KMIS has been involved in conception, design, and implementation and reporting of the study. MHR has been involved in analysis and report writing while NB has reviewed the whole paper including analysis and interpretations. He has copy edited the manuscript to get ready for publication. All authors read and approved the final manuscript.
Background
High blood pressure is at epidemic levels globally. An estimated 1 billion people are affected [1‐3] with particularly high prevalence in parts of South Asia thought to be a result of a combination of genetic susceptibility and lifestyle transition [4, 5]. Predictors of hypertension in High Income Countries (HIC) include family history, age, race, obesity, physical inactivity, lack of exercise, cigarette smoking, excessive salt intake and excessive alcohol intake [2, 3].
In Afghanistan, due to years of conflict, it has been impossible to make any robust estimates of non-communicable disease prevalence. There is, however, no reason to believe that Afghans are less susceptible to non-communicable disease and estimates are therefore urgently required. The purpose of this study was to estimate the prevalence of hypertension and assess the predictors in urban Afghan adults.
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Methods
We conducted a cross-sectional study between December 2011 and March 2012 to estimate the prevalence of hypertension and its associated factors in Kabul. All adults aged 40 years and over who had been residing for at least one year or more in the 17 districts of Kabul city were eligible. The city has approximately 3,289,000 inhabitants living in 17 residential districts made up of neighborhoods (Gozar) comprised of 534,900 households [6]. We requested the Kabul municipality to provide a list of all neighborhoods and their representatives and were able to study 13 districts. To balance considerations of cost, resources, and time without compromising the representativeness of the sample, a two-phase cluster sampling technique was used as follows. Eligible subjects were selected by multistage sampling: in the first stage, a sample of neighborhoods was selected randomly from each district. In the second stage, a main masjid (mosque) was selected as a hallmark and heads of households around the masjid were asked to approach the team settled there. Finally, one adult from each household was randomly selected and interviewed after written consent was obtained.
Sample size estimation was based on a prior specified precision level of 5% and the assumption that the proportion of potential risk was similar to other studies conducted in other similar settings. We adjusted for intracluster correlation and concluded that 1,200 participants would be required.
One member from each household aged 40 years and over was interviewed using a proforma designed for the study. Height and weight were measured by measurement tape and electronic weighing scale. Using standard international criteria, we defined a BMI of ≥ 30 kg/m2 as obese and a BMI of 25–30 kg/m2 as overweight. A BMI of 18.5 to 25 kg/m2 was considered normal. A waist circumference of ≥ 94 cm for men and ≥ 80 cm for women were considered centrally obese [7, 8].
Blood pressure was measured by twice by android sphygmomanometer in the sitting position on the left arm. Before analysis, blood pressure was dichotomized to hyper- or normotension by either systolic of ≥ 140 mmHg, or diastolic of ≥ 90 mmHg, or both. Those already on treatment were considered hypertensive irrespective of our own readings. Fasting blood sugar was tested using portable glucometer once in the morning before breakfast and analysed by the glucose oxidase method (check-ref). Data was single entered and, after cleaning, analysis was undertaken on 1,183 individuals [9]. Data on potential covariates such as: age, sex, ethnicity, family history of the disease, educational status, income, residential area, obesity, diabetes mellitus, smoking status, snuff using, physical activity and dietary behavior were collected through the structured pretested and modified questionnaire. No questions were made about alcohol as Afghanistan is an Islamic state and alcohol is considered a narcotic and is illegal. For normally distributed variables, we calculated mean and Standard Deviation (SD). For categorical variables we used chi-Squared and logistic regression and derived both uni- and multivariate estimates of Odds Ratios (OR) and 95% Confidence Interval (95% CI). Data were analyzed using SPSS 20 [10].
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Ethical approval was obtained from the Institutional Review Board (IRB) of the Ministry of Public Health, Afghanistan.
Frequency distribution of the demographic, socioeconomic characteristics and behavior factors of study participants (n = 1183)
Variables
Numbers (%)
Age in years
40 – 49
691 (59.3)
50 – 59
242 (20.7)
60 – 69
159 (13.6)
70 and over
74 (6.3)
Sex
Males
396 (33.5)
Females
787 (66.5)
Level of education
Illiterate
657 (57.1)
Primary/Unofficial education
118 (9.9)
Secondary school
216 (18.3)
High school and more
174 (14.7)
Monthly income
≤ 10000
524 (52.4)
10000 – 20000
293 (29.3)
20000 – 30000
80 (7.3)
≥ 30000
103 (10.3)
Work status
Government employee
260 (22.7)
Business
59 (5.2)
Jobless
63 (5.5)
Unable to work
472 (41.3)
Housewife
290 (25.3)
Knowledge of blood pressure
Yes
195 (16.5)
No
988 (83.5)
Smoking status
Current smoker
61 (5.2)
Ever smoker
95 (8.1)
Never smoker
1018 (86.7)
Basic mass index
Underweight
13 (1.1)
Normal weight
346 (29.6)
Obese
365 (31.2)
Overweight
445 (38.1)
Type of cooking fat
Solid cooking fat
821 (69.6)
Liquid cooking fat
339 (28.6)
Other
4 (1.8)
Frequency of eating meat in a month
< 3 times per month
307 (26.3)
3 – 6 time per month
592 (50.4)
6 – 9 times per month
160 (13.6)
≥ 9 times per month
116 (9.9)
Frequency of eating rice in a month
< 3 times per month
536 (49)
3 – 6 time per month
432 (39.5)
6 – 9 times per month
126 (11.5)
Frequency of taking vegetable in a month
Once a week
240 (20.3)
Twice a week
291 (24.6)
Thrice a week
166 (14)
>3times a week
486 (41.1)
Frequency of taking fruits in a month
Once a week
181 (15.3)
Twice a week
257 (22.6)
Thrice a week
233 (19.7)
>3times a week
502 (42.4)
Mode of transportation to job
Walk by foot
747 (63.2)
Bicycle
25 (2.1)
Motorcycle
15 (1.3)
Car
72 (6.1)
Public transport
59 (5)
Frequency of physical activity
< 10minutes per day
1022 (86.4)
10 – 30minutes per day
132 (11.2)
≥ 30minutes per day
29 (2.4)
Frequency of sitting in hours
< 10hours per week
238 (20.1)
10 – 30hours per week
812 (68.8)
≥ 30hours per week
131 (11.1)
Frequency of walking in hours
< 10hours per week
375 (31.9)
10 – 30hours per week
625 (53.1)
≥ 30hours per week
176 (15)
Blood pressure
Normotensive
573 (48.5)
Pre-Hypertensive
218 (18.4)
Hypertensive
392 (33.1)
General obesity
Yes
379 (32)
No
804 (68)
Central obesity
Yes
687 (58.8)
No
481 (41.2)
The mean age of the study subjects was 49.5 years and most (59.3%) were aged between 40 and 50 years. Sixty eight percent of the participants were ethnic Tajik and 20.7% were ethnic Pashtuns. Two thirds were female. Most study participants were illiterate with a monthly income of 2,000 to 6,000 Afghanis (AFN) (One USD = 50AFN). Forty percent of participants were unemployed or were casual laborers, while 25% of respondents were women engaged in home employ. Twenty two percent were government employees and the rest were engaged in the agricultural industry as farmers. Approximately 3.3% of respondents were retired and too old to engage in physical labor. 83% of participants had no knowledge of hypertension but only 14% were smokers. The prevalence of either systolic or diastolic hypertension was 46.2% (95% CI 43.5 – 49.3). The distribution of both systolic and diastolic blood pressure can be reviewed in Figures 1 and 2.
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Multivariate analysis
Hypertension was associated with age but not gender. Literacy was protective (OR for illiteracy = 1.90 95% CI: 1.05 – 1.90 and P value <0.05) but level of income, smoking status and knowledge of diseases were not predictive. Unemployment and inability to work predicted hypertension ORs = 2.04 (95% CI: 1.49 – 2.78) and 1.69 (95% CI: 1.20 – 2.38) respectively. The results for bivariate analysis can be reviewed in Table 2 and for multivariate analysis in Table 3.
Table 2
Bivariate analysis of bio-demographic, socio economic and behavior risk factors associated with hypertension among Kabul citizens (n = 1183)
Variables
Hypertensive
Non-hypertensive
Odds ratio
% 95 CI
Age in years
40 – 49
231 (33.4)
460 (66.6)
1
Reference
50 – 59
143 (59.1)
99 (40.9)
2.87
2.13 – 3.88
60 – 69
112 (70.4)
47 (29.6)
4.74
3.26 – 6.90
70 and over
55 (74.3)
19 (25.7)
5.76
3.43 – 9.94
Sex
Males
178 (44.9)
218 (55.1)
1
Reference
Females
368 (46.8)
419 (53.2)
1.07
0.84 – 1.37
Level of education
literate
363 (53.8)
312 (46.2)
2.06
1.63 – 2.61
Illiterate
183 (36.0)
325 (64.0)
1
Reference
Monthly income
≤ 200USD
247 (47.1)
277 (52.9)
1.07
0.85 – 1.35
>200USD
299 (45.4)
360 (54.6)
1
Reference
Work status
Government employee
90 (34.6)
170 (65.4)
1
Ref
Business
21 (35.6)
38 (64.4)
1.04
0.57 – 1.88
Famer
28 (44.4)
35 (55.6)
1.51
0.86 – 2.64
Jobless
245 (51.9)
227 (48.1)
2.04
1.49 – 2.78
Housewife
137 (47.2)
153 (52.8)
3.37
1.67 – 6.81
Unable to work
25 (64.1)
14 (35.9)
1.69
1.20 – 2.38
Knowledge of blood pressure
Yes
94 (48.2)
101 (51.8)
1
Ref
No
452 (45.7)
536 (54.3)
0.9
0.66 – 1.23
Smoking status
Current smoker
23 (37.7)
38 (62.3)
0.72
0.42 – 1.22
Ever smoker
51 (53.7)
44 (46.3)
1.37
0.90 – 2.10
Never smoker
465 (45.7)
553(54.3)
1
Reference
Snuff using
Current user
58 (55.2)
47 (44.8)
1.51
1.01 – 2.26
Ever user
13 (52.0)
12 (48.0)
1.32
0.59 – 2.93
Never user
469 (45.0)
574 (55.0)
1
Reference
Walking by foot to work station
No
214 (49.3)
220(50.7)
1.22
0.96 – 1.55
Yes
331 (44.3)
416 (55.7)
1
Reference
Going by car to work
No
523 (47.1)
587 (52.9)
1.89
1.14 – 3.15
Yes
23 (31.9)
49 (68.1)
1
Reference
Going by public Transport to work
No
528 (47.0)
596 (53.0)
2.01
1.14 – 3.55
Yes
18 (30.5)
41 (69.5)
1
Reference
Diabetes mellitus
No
455 (44.3)
571 (55.7)
1
Reference
Yes
91 (58.0)
66 (42.0)
1.7
1.23 – 2.43
General obesity cut off BMI = 30
No
324 (40.3)
480 (59.7)
1
Reference
Yes
222 (58.6)
157 (41.4)
1.73
1.23 – 2.43
Central obesity B
No
169 (35.1)
312 (64.9)
1
Reference
Yes
370 (53.9)
317 (46.1)
2.15
1.69 – 2.73
Frequency of eating rice in a month
≤ 6 times per month
439 (45.4)
529 (54.6)
1
Reference
>6 times/month
44 (34.9)
82 (65.1)
1.54
1.05 – 2.27
Frequency of walking per week in hours
< 10 hours per week
202 (53.9)
173 (46.1)
1
Reference
10-30 hours/week
274 (43.8)
351 (56.2)
0.66
0.51 – 0.86
≥ 30 hours/week
68 (38.6)
108 (61.4)
0.50
0.37 – 0.77
Table 3
Multivariable analysis risk factors associated with hypertension among Kabul citizens (n = 1183)
Variables
Adjusted OR
% 95 CI
P Value
Age group
≤50
1
Reference
-
>50
3.86
2.86 – 5.21
<0.001
Education level
Literate
1
References
-
Illiterate
1.90
1.05 – 1.90
<0.05
Having rice as meal
≤3times a week
1
References
-
>3times a week
1.43
1.07 – 1.91
<0.05
Having chicken as meal
≤3times a month
1
References
-
>3times a month
0.73
0.55 – 0.97
<0.05
Family history of diabetes
No
1
References
-
Yes
2.20
1.30 – 3.75
<0.05
Taking fruits with meal
≤twice a week
1
References
-
>twice a week
0.64
0.47 – 0.86
<0.05
Central obesity
No
1
References
-
Yes
1.67
1.23 – 2.27
<0.001
General obesity as BMI cut off 30
No
1
References
-
Yes
2.08
1.50 – 2.89
<0.001
Discussion
Our study shows a prevalence of hypertension in Kabuli adults of close to 50%, which is comparable to that in many HIC settings. Predictors included illiteracy, obesity, low levels of physical activity and a family history of diabetes. A higher dietary quality (measured by higher chicken and fruit intake) had a modest protective effect but given the attenuation in the multivariate model it is possible that this association is simply a marker for other social factors. In keeping with the natural history of hypertension, prevalence increased with age.
Strengths of the study include the breadth of sampling across the city and two stage methods.
Our study is unique in Afghanistan in which any research over the last 15 years has been near impossible as a result of chronic warfare and instability.
Limitations of the study include the sampling. For logistical reasons our study was household rather than community based and, therefore, less likely to be involved in regular work. It is possible that the participants were less active or different in other ways to their employed counterparts and may, therefore, not have been representative of all Kabuli adults. We would have liked to undertake more comprehensive assessment of glucose tolerance but were precluded by budgetary constraints.
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Our findings were consistent with work in similar settings. In rural Nepal, Khan showed that a high BMI and low socio-economic status were associated with increase odds of hypertension [11]. Other studies in Iran, Turkey, Sri Lanka, Angola and China found similar findings that older age, high blood glucose level, lower level of education, retirement/unemployment and higher body mass index were significantly associated with hypertension [12‐17].
Literacy was an independent predictor of hypertension but the association between education and health is a complex one. Though in some settings it may be a marker of (and confounded by) socio economic status, there is no doubt that literacy enhances health awareness an association that has been demonstrated in numerous studies. To this effect, literacy was selected as a target for the Millennium Development Goals by the WHO and UN [11, 18, 19]. In Afghanistan, as a result of political forces the provision of universal literacy has been complex and challenging. This has been most marked for girls but, at the time of writing, the country is for the first time holding independent elections and we can only hope that education is marked as a priority for the new government.
The other predictors, sedentary lifestyle, obesity and impaired glucose tolerance are all potentially amenable to intervention at a public health level. Sedentary lifestyles may stem from a lack of activity in school. If education were to be available universally and physical activity a mandatory part of the school day, there is every reason to believe that this can be inculcated from an early age for life. Though there may be cultural sensitivities, they can be overcome as Almas and colleagues demonstrated in an innovative study in urban Pakistan [20]. Other than education, better use of the media to inform the population has a role particularly as most households now have at least a television. Subsidising blood pressure checks in primary medical care would additionally encourage update of screening. We feel that, given our findings, both mass and targeted intervention would be feasible. We have shown that Afghanistan is equally at risk of hypertension and has the same risk factors as other populations. As the conflict subsides, our attention must turn to another threat, that of the non-communicable diseases epidemic.
Conclusion
Though instability has hitherto precluded detailed study, this unique study has shown that hypertension and obesity is at epidemic proportions in household adults in Kabul. As Afghanistan enters a new era, intervention is now a Public Health priority.
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Acknowledgement
We would like to thank Dr Jawad Asgar, FELTP Advisor and Dr Jamil Ansari Senior Instructor of FELTP in Pakistan for their contribution in design of the study. In addition the Eastern Mediterranean Public Health Training Network (EMPHNET) is thanked for their assistance in contribution of data via data analysis course in Amman in 2012.
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited.
Competing interests
There is no financial or non-financial competing interest of authors in this paper.
Authors’ contributions
KMIS has been involved in conception, design, and implementation and reporting of the study. MHR has been involved in analysis and report writing while NB has reviewed the whole paper including analysis and interpretations. He has copy edited the manuscript to get ready for publication. All authors read and approved the final manuscript.