Warsy A. S,El-Hazmi M. A. F, Al-Hazmi A. M. Prevalence of Co-existing Hypertension and Obesity in Saudis. Biomed Pharmacol J 2011;4(2)
Manuscript received on :July 12, 2011
Manuscript accepted on :August 04, 2011
Published online on: 30-11-2015
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A. S. Warsy¹, M. A. F. El-Hazmi² and A. M. Al-Hazmi³

¹Department of Biochemistry, College of Science, King Saud University, Riyadh Saudi Arabia.

²Emeritus Professor, College of Medicine, and Ash Shura Council Saudi Parliament Saudi Arabia.

³Ali M. Al Hazmi, College of Health Services, King Saud University, Riyadh Saudi Arabia.

Abstract

Hypertension and obesity are known to be closely associated. In this study we aimed to investigate the coexistence of obesity and hypertension and to confirm obesity as a risk factor for hypertensive in Saudis or vice versa. The study group was composed of 646 hypertensive (males = 326; females = 320), and 14159 non-hypertensive (males = 5899; females = 8260), 2581 obese (males = 896; females 1685) and 12224 non-obese individuals (males = 5329; females = 6894). Prevalence of obesity was calculated in the hypertensive individuals and the results were compared to the results in non-hypertensive group. A highly significant (p < 0.001) increase in obesity was obtserved in the hypertensive group (males = 21.47%; females = 31.9%) compared to the non-hypertensive group (males = 14.0%; females 18.63%). On the other hand prevalence of hypertension in the obese males and females was found to be 7.8% and 8.7%, respectively. This was significantly higher than in the non-obese group (males 4.8% and females 2.5%). The results showed that almost one third of the hypertensive individuals are obese, thus indicating a major role of obesity in the aetiology of hypertension. The results also showed that about 8% of the obese groups have hypertension. These results also show that obesity is more frequent in the hypertensive, compared to hypertension in the obese group. The studied population was grouped according to the province to which they belonged and the prevalence of obesity is hypertensive and prevalence of hypertensive in obese groups was calculated. Differences were noted in the different provinces. These may be a consequence of the life style changes adopted by the people in these provinces. The main conclusion to be drawn from these results is that obesity must be decreased in Saudi population in order to decrease the prevalence of associated complications such as hypertension and hence cardiovascular disease.

Keywords

Hypertension; obesity; cardiovascular disease; Saudi Arabia

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Warsy A. S,El-Hazmi M. A. F, Al-Hazmi A. M. Prevalence of Co-existing Hypertension and Obesity in Saudis. Biomed Pharmacol J 2011;4(2). Available from: http://biomedpharmajournal.org/?p=1958

Introduction

It is well established in extensive epidemiological and cohort studies that hypertension and obesity are closely associated and a higher prevalence of hypertension occurs in the obese compared to their non-obese counterpart [1-17].  Most of studies have been conducted on obese individual and the occurrence of essential hypertension in these individuals is believed to be due to several factors. One of these is insulin resistance and hyperinsulinaemia. It has been shown that insulin resistance is more marked in hypertensive than in normotensive obese subjects. Hyperinsulinaemia with or without insulin resistance promotes body fat deposition and impaired glucose tolerance [4,18-20]. In addition, obesity and high dietary intake of carbohydrates and salt, induces higher plasma nor-epinephrine and epinephrine level, hyperaldosterone, enhanced sensitivity of blood pressure to salt and increased total blood volume. All these factors influence blood pressure and produces hypertension [19].

In Saudi population, we reported a higher prevalence of obesity [21] and hypertension [22] and we showed a an increase in prevalence of hypertension and obesity with age in Saudi males and females in different provinces of the country. In an attempt to determine if the prevalence of hypertension was more in obese or vise versa, we carried out this study on Saudi hypertensive and obese individuals. In this paper we report our findings and compare the co-existence of obesity and hypertension in Saudis.

Materials and Methods

This study was conducted on a group of hypertensive and obese individuals identified during an extensive National Household Screening Programme carried out in Saudi Arabia. The details of which have been published in detail in previous reports [23-24]. The total population screened comprised of 14,805 with ages ranging from 14 to 70 years.  There were 6225 males (42.0%) and 8580 females (58%).  Height and weight were recorded following procedures published earlier [21] and systolic and diastolic blood pressure was measured [22]. Using standard procedures published by W.H.O. the males and females were diagnosed as suffering from hypertension (systolic pressure > 140 and/or diastolic pressure > 90, and individuals on hypotensive drugs). There were 646 individuals who had hypertension (males = 326 and females = 320) and 14159 non-hypertensive (males = 5899; females = 8260). The total group was also grouped into those with obesity i.e. with a body mass index [weight (kg)/height2(m2)] of 30 or more. There were 2581 obese individuals (males = 896 and females = 1685) and 12224 non-obese individuals (males = 5329; females = 6894). The prevalence of obesity was calculated in the total hypertensive males and females and in the non-hypertensive group. In addition, in the total obese males and females the prevalence of hypertension was calculated and compared with the prevalence of hypertension in the non-obese group. Chi-square analysis using 2 x 2 contingency tables were used to determine the statistical significance of the difference between different groups. P < 0.05 was considered statistically significant.

Results

The overall prevalence of hypertension in the total group was 4.36% (with prevalence higher in the males (5.24%), compared to the females (3.73%) (p < 0.05), while the prevalence of obesity in the total group was 17.4%. The female had a higher prevalence of obesity (20.26%) compared to the males (13.05%), and the difference between both sexes was statistically significant (p < 0.05).

Table 1 presents the prevalence of obesity in the hypertensive males and females in comparison to the prevalence of hypertension in the obese group. The results are also compared to the prevalence of obesity in non-hypertensive group and hypertension in the non-obese group. Obesity prevalence was 45.63% in the hypertensive females compared to 21.47% in the hypertensive males, while hypertension occurred in 7.8% of obese males and 8.7% of obese females. Obesity was significantly higher in the hypertensive group (p<0.05) compared to the non-hypertensive group and hypertension was significantly higher in the obese group compared to the non-obese group (p<0.05).

Table 1: Prevalence of obesity in hypetensive patients and hypertension in obese individuals

  Obesity Prevalence (%) Hypertension Prevalence (%)
Sex Hypertensive Non-Hypertensive Obese Non-Obese
No. of HT No. of Obese % of Obesity No. of

Non-HT

No. of Obese % of Obesity No. of Obese No. of HT % of

HT

No. of Non-Obese No. of

HT

% of

HT

 

Male

 

326

 

70

 

21.47

 

5899

 

826

 

14.0

 

896

 

70

 

7.8

 

5329

 

256

 

4.8

 

 

Female

 

320

 

146

 

45.63

 

8260

 

1539

 

18.63

 

1685

 

146

 

8.7

 

6895

 

174

 

2.5

 

 

Total:

 

 

646

 

206

 

31.9

 

14159

 

2365

 

16.7

 

2581

 

216

 

8.37

 

12224

 

\430

 

3.52

 

Table 2: Prevalence of Obesity in hypertensive patients and hypertension in obese individuals in different Provinces of Saudi Arabia

    Obesity Prevalence (%) Hypertension Prevalence (%)
    Hypertensive Non-Hypertensive Obese Non-Obese
Province Sex No. of HT No. of Obese % of Obesity No. of

Non-HT

No. of Obese % of Obesity No. of Obese No. of HT % of

HT

No. of Non-Obese No. of

HT

% of

HT

 

Central

 

M

F

 

73

98

 

23

48

 

31.5

48.98

 

1840

2518

 

271

547

 

14.73

21.7

 

294

595

 

23

48

 

7.82

8.03

 

1619

2021

 

50

50

 

3.09

2.47

 

 

Eastern

 

M

F

 

32

39

 

3

17

 

9.38

43.59

 

219

321

 

30

54

 

13.69

16.8

 

33

71

 

3

17

 

9.1

23.9

 

218

289

 

29

22

 

13.3

7.6

 

 

Southern

 

M

F

 

75

69

 

12

30

 

16.0

43.48

 

1851

2699

 

191

398

 

10.32

14.75

 

203

428

 

12

30

 

3.9

7.01

 

1723

2340

 

63

39

 

3.66

1.7

 

 

Northern

 

M

F

 

68

62

 

17

26

 

25.0

41.94

 

1059

1456

 

134

287

 

12.65

19.71

 

151

313

 

17

26

 

11.26

8.30

 

 

976

1205

 

51

36

 

5.22

3.0

 

Western

 

M

F

 

78

52

 

15

25

 

19.23

48.08

 

930

1266

 

200

253

 

21.50

19.98

 

215

278

 

15

25

 

7.0

9.0

 

793

1040

 

63

27

 

7.94

2.6

 

 

The studied population was grouped according to the provinces to which they belonged and the prevalence of obesity was calculated in the hypertensive and non-hypertensive male and females and the prevalence of hypertension was calculated in the obese and non-obese males and females. The results are presented in Table 2. In each area obesity was significantly higher in the hypertensive females and the prevalence ranged from 41.94% in the Northern Province to 49.98% in the Central province. The prevalence of obesity in the hypertensive males was significantly higher than the prevalence of obesity in the non-hypertensive group in all regions except the Eastern and Western provinces. On the other hand, the prevalence of hypertension in obese individuals was significantly higher than the prevalence of hypertension in non-obese individuals in all provinces. Female obese had a significantly higher prevalence of hypertension than their male counterpart in all regions except the Northern province.

Discussion

Obesity is a major health problem and due to associated complications results in significant morbidity and mortality. Extensive epidemiological studies in different populations have shown that hypertension and obesity occur in close association with each other [1-17].  This association is believed to be due to several factors accompanying obesity. These factors include hyperinsulinaemia, insulin resistance syndrome, dyslipidaemias, hyperaldosterism, and it is stated that in the absence of these factors obesity is only a minor risk factor [25]. However, obesity is generally accompanied by one or more of the above mentioned factors and this plays a role in worsening prognosis. Weight gain and abdominal obesity promotes insulin resistance and hyperinsulinemia. These contribute to development of hypertension by activating the sympathetic nervous system and by causing sodium retention [4-7]. It has been shown that persons with high body weight show the greatest rise of blood pressure with age [8].

The results of this study in Saudis shows that almost half of the females and almost 21% of the males with hypertension are obese. This clearly shows the close association between obesity and hypertension. Similarly, the prevalence of hypertension in the obese is more than in the non-obese and obesity is more prevalent in the hypertensive, compared to hypertension in the obese. The relationship between hypertension and obesity is not straightforward and most likely represents an interaction of demographic, genetic, hormonal, renal and hemodynamic factors. Furthermore, race and sex further modulate the association between the two states [7].

The Framingham study established hypertension as a major cardiovascular risk factor and quantified its atherogenic cardiovascular disease potential [26]. Clinical trials suggested that hypertension in obese patients increase the risk of cardiovascular disease [27-34].

Since a significant number of Saudi hypertensive individuals are obese, one of the factors predisposing to hypertension in Saudis could be regarded as obesity. Other aetiological contribution factors include genetic, dietary habits, stress, smoking, renal diseases etc.

As obesity may be controlled by proper intervention, it is necessary to control obesity as this will play an important role in reducing hypertension prevalence in Saudi population and this may be a starting step in reducing the risk of artheriosclerotic cardiovascular diseases.

This is further supported by the finding of a higher prevalence of hypertension in the obese compared to the non-obese group. Hence, obesity control by dietary measures, exercise and increasing physical activities need to be stressed to the Saudi population. This requires awareness programmes for the general public, awareness of causes and consequences of obesity, followed by steps required to reduce obesity and this may play an essential role in achieving a healthy Saudi Arabia in the new millenium.

Acknowledgement

“The samples were collected during a National Study on Diabetes mellitus. The authors extend their appreciation to the Deanship of Scientific Research at King Saud University for funding the work through the research group project No. RGP-VPP-068”

Disclosure of Competing Interests

Authors declare that they do not have any competing interests with any group.

Authors’ Contributions

1ASW designed the experiment, analyzed the data and wrote the manuscript. 2 MAF helped in collecting the data and discussion of results and preparation of the manuscript. 3AMA helped in data analysis, discussion of results and preparation of the manuscript. All authors read and approved the final manuscript.

References

  1. Amodu PH, Mbah IO, Lawson L. Prevalence of obesity and dyslipidaemia in hypertensives seen in Abuja, Nigeria. Scand J Clin Lab Invest Suppl.;240:14-7 (2005).
  2. Al-Turki YA. The prevalence of overweight and obesity amongst hypertensive and diabetic adult patients in primary health care. Saudi Med JApr;21(4):340-3 (2000)
  3. Dustan HP. Hypertension and obesity. Prim  Care; 18(3): 495-507 (1991).
  4. George MG, Tong X, Kuklina EV, Labarthe DR.Trends in stroke hospitalizations and associated risk factors among children and young adults, 1995-2008. Ann Neurol. 70(5):713-21 (2011).
  5. Dustan HP. Obesity and hypertension. Diabetes Care; 14(6): 488-504 (1991).
  6. Dustan HP. Obesity and hypertension. Ann Intern Med; 103(6): 1047-1049 (1985).
  7. Mikhail N, Golub MS, Tuck ML. Obesity and Hypertension. Prog Cardiovasc Dis; 42(1): 39-58 (1999).
  8. Heyden S, Schneider KA. Obesity and hypertension: epidemiological aspects of the relationship. J Hum Hypertens; 4(4): 431-435 (1990).
  9. Schmieder RE, Rockstroh JK. Obesity and hypertension. Curr Opin Nephrol Hypertens; 3(5): 546-549 (1994).
  10. Rocchini AP. Adolescent obesity and hypertension. Pediatr Clin North Am; 40(1): 81-92 (1993).
  11. Schmieder RE, Messerli FH. Obesity hypertension. Med Clin North Am; 71(5): 991-1001 (1987).
  12. Staessen J, Fagard R, Amery A. Obesity and hypertension. Acta Cardiol Suppl 29: 37-44 (1988).
  13. Bjorntorp P. Hypertension and other complications in human obesity. J Clin Hypertens  2(2): 163-165 (1986).
  14. Landsberg L. Obesity and hypertension: experimental data. J Hypertens Suppl; 10(7): S195-201 (1992).
  15. Kumanyika SK. The association between obesity and hypertension in blacks. Clin Cardiol  12(12): IV72-77 (1989).
  16. Hall JE, Brands MW, Hildebrandt DA, Mizelle HL. Obesity-associated hyperten­sion. Hyperinsulinemia and renal mechanisms. Hypertension  19 Suppl (1): 145-155 (1992)
  17. MacMahon S, Cutler J, Brittain E, Higgins M. Obesity and hypertension: epidemiological and clinical issues. Eur Heart J 8 Suppl B: 57-70 (1987).
  18. Rocchini AP. Insulin resistance, obesity and hypertension. J Nutr; 125(6): 1718S-1724S (1995).
  19. Weidmann P, de Courten Bohlen L. Insulin resistance, hyperinsulinemia and hypertension. J Hypertens Suppl 5: S27-S38 (1993)
  20. Landsberg L. Obesity and the insulin resistance syndrome. Hypertens Res 19 Suppl (1): S51-55 (1996)
  21. El-Hazmi MAF and Warsy AS. Prevalence of obesity in the Saudi population. Ann Saudi Med 17: 302-306 (1997)
  22. El-Hazmi MAF, Warsy AS Al-Swalem AR and Al-Swailem AM. Prevalence of hypertension in adult Saudi population. Saudi Medical Journal  19(2): 117-122 (1998).
  23. El-Hazmi MAF, Warsy AS, Al-Swailem AR, Al-Swailem Am, Sulaimani R, Al-Meshari AA. Diabetes mellitus and impaired glucose tolerance in Saudi Arabia. Ann Saudi Med 16: 381-385 (1996).
  24. El-Hazmi MAF, Warsy AS, Al-Swailem AR Al-Swailem AM and Sulaimani R. Diabetes mellitus as a health problem in Saudi Arabia and its complications. Eastern Mediterranean Health Journal  4(1): 58-67 (1998)
  25. Kaplan NM. Obesity in hypertension: effects on prognosis and treatment. J Hypertens Suppl 16(1): S35-37 (1998).
  26. Kannel WB. Fifty years of Framingham Study contributions to understanding hypertension. J Hum Hypertens  14(2): 83-90 (2000).
  27. Licata G, Scaglione R, Dominguez LJ. Early markers of cardiovascular damage in obese subjects. Nutr Metab Cardiovasc Dis 9(2): 78-86 (1999).
  28. Reisin E, Frohlich ED, Messerli FH, Dreslinski GR, Dunn FG, Jones MM, Batson HM Jr. Cardiovascular changes after weight reduction in obesity hypertension. Ann Intern Med 98(3): 315-319 (1983)
  29. Richards RJ, Thakur V, Reisin E. Obesity-related hypertension: its physiologi­cal basis and pharmacological approaches to its treatment. J Hum Hypertens  10(3): S59-64 (1996).
  30. Jones DW. What is the role of obesity in hypertension and target organ injury in African Americans. Am J Med Sci  317(3): 147-151 (1999).
  31. de Simone G, Devereux RB, Chinali M, Lee ET, Galloway JM, Barac A, Panza JA, Howard BV. Diabetes and incident heart failure in hypertensive and normotensive participants of the Strong Heart Study. J Hypertens.28(2):353-60. (2010)
  32. Sone H, Tanaka S, Iimuro S, Oida K, Yamasaki Y, Ishibashi S, Oikawa S, Katayama S, Ito H, Ohashi Y, Akanuma Y, Yamada N. Waist circumference as a cardiovascular and metabolic risk in Japanese patients with type 2 diabetes. Obesity (Silver Spring). 17(3):585-92. Epub 2008 Nov 20 (2009).
  33. Głowińska B, Urban M, Koput A, Galar M [Selected new atherosclerosis risk factors and markers of fibrinolysis in children and adolescents with obesity, hypertension and diabetes]. Przegl Lek.60(1):12-7( 2003)
  34. Rocchini AP. Hemodynamic and cardiac consequences of childhood obesity. Ann NY Acad Sci 699: 446-456 (1993).
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