ISSN: 1885-5857 Impact factor 2023 7.2
Vol. 61. Num. 4.
Pages 418-421 (April 2008)

Prevalence of Primary Aldosteronism in Hypertensive Patients and Its Effect on the Heart

Prevalencia del hiperaldosteronismo primario y afección cardiaca en el paciente hipertenso

Pedro MorillasaJesús CastilloaJuan QuilesaDaniel NúñezaSilvia GuillénaVicente Bertomeu-GonzálezaFrancisco PomaresbVicente Bertomeua

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Primary hyperaldosteronism (PHA) is thought to have a harmful effect on the cardiovascular system and, in recent years, the number of cases of hypertension due to PHA has been increasing. The aims of this study were to determine the prevalence of PHA and to assess cardiac damage associated with the condition in 183 consecutive hypertensive patients. A full secondary hypertension work-up was performed, and included ECG and echocardiography. In total, 11 (6%) patients were diagnosed with PHA. Compared with other hypertensives, those with PHA had higher systolic blood pressure, more frequently had evidence of left ventricular hypertrophy on ECG (45.5% vs 11.6%; P<.01), and had a larger left ventricular mass on echocardiography (145.5 g/m2 vs 97.52 g/m2; P<.0001). In conclusion, PHA is a significant contributor to the increasing prevalence of hypertension and its effect on the heart is greater than that of other causes of hypertension.

Keywords

Arterial hypertension
Left ventricular hypertrophy
Echocardiography

INTRODUCTION

The examination of all patients with high blood pressure (HBP) should, among other things, try to identify any identifiable cause, which of course influences the therapy that should be followed.1 The development of much more specific diagnostic tests in recent years has shown the frequency of secondary HBP to be much higher than once supposed, especially that caused by primary aldosteronism (PA). It is estimated that PA may affect 10% of all hypertensive patients, and up to 20% of patients with resistant HBP. Some authors believe PA to be the main cause of HBP.2 It is important to identify patients with PA since an increase in plasma aldosterone is associated with negative cardiac and vascular effects and a greater risk of suffering a cardiovascular event.3,4

Experimental studies have shown that aldosterone induces cardiac and vascular fibrosis, although the evidence linking aldosterone to left ventricular hypertrophy (LVH) is scarce and controversial.5 The aims of the present study were to estimate the prevalence of PA as the cause of HBP in the specialist attention setting, and to analyze the cardiovascular repercussion of PA compared to other etiologies of HBP.

METHODS

The patients in this study (which was undertaken in a prospective manner) all suffered HBP, were all over 18 years of age, and all had been referred to an HBP unit linked to a cardiology department in 2005-2006. All patients were subjected to anamnesis and a complete physical examination, and specific laboratory tests were ordered to rule out different secondary causes of HBP. Samples for all laboratory tests were collected after a 12 h fast; analyses included a hemogram, standard biochemical tests, the determination of thyroid hormone levels, the determination of the plasma aldosterone/renin activity ratio (ALD/RA), urine catecholamines and cortisol, and microalbumin in 24 h urine. In addition, all patients were subjected to a baseline electrocardiogram (ECG) for the detection of LVH using the criteria of Sokolov and/or Cornell, as well as an echocardiogram to determine the diameters of the heart chambers and to calculate the left ventricular mass (LVM) using the Penn formula.

Primary aldosteronism was suspected when the ALD/RA ratio was >30 and plasma aldosterone levels were high (>20 ng/dL). This diagnosis was confirmed when intravenous transfusion of 2 L of isotonic saline solution for 4 h did not suppress plasma aldosterone (>10 ng/dL).

Statistical Analysis

Continuous variables were expressed as means (standard deviation). Qualitative variables were expressed as numbers and percentages. Quantitative variables were analyzed using the Student t test for independent samples, or the Mann-Whitney test when the distribution was not normal. The qualitative variables were analyzed using the c2 test or Fisher exact test. All calculations were made using SPSS v.12 software. A P value less than .05 was considered significant.

RESULTS

The study subjects were 183 patients with HBP (61.2% were men) with a mean age of 58 years (29-83). All had been referred for consultation due either to poor control of their blood pressure readings (65%), hypertensive crisis (16.1%), recently diagnosed HBP (14.4%), or suspicion of secondary HBP (4.6%). Table 1 shows the clinical characteristics of the population. Some 65% of the patients received treatment with diuretics, 61% with angiotensin II receptor antagonists (ARA-II), 47% with calcium antagonists, 35% with beta-blockers, and 27% with angiotensin converting enzyme inhibitors. The majority of patients were diagnosed with primary high blood pressure (88%). Among the secondary etiologies, PA was the most common, causing HBP in 11 patients (6%). Thyroid disease was the cause of a further 6 cases. The patients with PA showed a greater prevalence of diabetes mellitus and associated ischemic cardiomyopathy, a higher systolic blood pressure (168.5 compared to 154.4 mm Hg; P<.05), and a higher prevalence of LVH (as shown by their ECG; 45.5% compared to 11.6%; P<.01) than did patients with HBP of other etiology (Table 1).

No significant differences were seen for the other variables analyzed, such as the severity of HBP, anti-hypertensive treatment, or the duration of HBP (171 [152] compared to 123 [146] months; P=.3).

The results of the echocardiographic study showed significantly thicker left ventricular walls and significantly larger left ventricular diastolic diameters among the patients with PA; the differences in the diameter of the left atrial wall were close to significant (Table 2). The patients with PA had a significantly greater mean ventricular mass than those with HBP of other etiology (145.54 compared to 97.52 g/m2; P<.0001), independent of the systolic blood pressure.

DISCUSSION

These results show the importance of PA as a cause of increased blood pressure in the specialist care setting in Spain; 6% of the hypertensive patients studied were affected. The prevalence of PA among the present patients is similar to that reported recently by other authors— about 5% among patients with hypertension.6 Others, however, report it to affect 16% of patients,7,8 although these investigations generally based their diagnoses on the ALD/RA ratio alone; no confirmatory tests were undertaken unlike in the present work (Table 3). Not all the studies in this area analyze the same type of spectrum of patients; some have involved patients in the primary care setting,9 while others,7 including the present work, have investigated the problem in the specialist care setting. In addition, in the present work not only was PA the most common secondary etiology, its frequency was greater than all other secondary causes put together.

The diagnosis of PA, a potentially curable problem, is important since recent information suggests that patients with excess aldosterone are more likely to suffer premature cardiovascular events, cerebrovascular disease, cardiac fibrosis, and vascular inflammation.10 Several studies have shown that aldosterone stimulates cellular growth and vascular remodelling,11 which can lead to an increase in the mass of the left ventricle.5 The present data confirm this to be more common among patients with PA than among other hypertensive patients; the mass of the left ventricle and the diameter of both this chamber, and the left atrium were greater in these patients. In addition, patients with PA showed a higher rate of prior ischemic cardiomyopathy, a problem some authors report leads to a greater risk of cardiovascular events, particularly ictus, myocardial infarction, and atrial fibrillation.3 Nonetheless, there are authors who report similar frequencies of LVH in patients with primary HBP and in patients with PA.12

In conclusion, PA was the most common secondary cause of HBP in the investigated setting, and affected 6% of patients. These patients showed higher systolic blood pressure readings and a higher rate of heart problems: they more commonly showed a background of ischemic cardiomyopathy, had thicker chamber walls, and showed a larger left ventricular mass than patients whose HBP was due to other cuases.


Correspondence: Dr. P.J. Morillas Blasco.
Sección de Cardiología. Hospital Universitario San Juan.
Ctra. N-332 Alicante-Valencia, s/n. 03550 San Juan de Alicante. Alicante. España.
E-mail: pedromorillas@teleline.es

Received June 30, 2007.
Accepted for publication September 24, 2007.

Bibliography
[1]
Hipertensión arterial secundaria. Diagnóstico y tratamiento. In: Bertomeu V, Mazón P, Morillas P, Soria F, editors. Manual de hipertensión arterial. Madrid: Sociedad Española de Cardiología; 2006. p. 93-105.
[2]
Mulatero M, Stowasser M, Keh-Chuan L, Fardela CE, Gordon RD, Mosso L, et al..
Increased diagnosis of primary aldosteronism, including surgically correctable forms, in centers from five continents..
J Clin Endocrinol Metab, (2004), 89 pp. 1045-50
[3]
Milliez P, Girerd X, Pouin PF, Blacher J, Safar ME, Mourad JJ..
Evidence of an increased rate of cardiovascular events in patients with primary aldosteronism..
J Am Coll Cardiol, (2005), 45 pp. 1243-8
[4]
Bertomeu V, Morillas P, Soria F, Mazón P, González-Juanatey JR, Palma JL..
Hipertensión arterial y riesgo cardiovascular en el año 2004..
Rev Esp Cardiol, (2005), 5 pp. A24-34
[5]
Matsumura K, Fujii K, Oniki H, Oka M, Iida M..
Role of aldosterone in left ventricular hypertrophy in hypertension..
Am J Hypertens, (2006), 19 pp. 13-8
[6]
Omura M, Saito J, Yamaguchi K, Kakuta Y, Nichikawa T..
Prospective study on the prevalence of secondary hypertension among hypertensive patients visiting a general outpatient clinic in Japan..
Hypertens Res, (2004), 27 pp. 193-202
[7]
Williams D, Croal J, Furnace S, Ross K, Witte M, Webster W, et al..
The prevalence of a raised aldosterone-renin ratio (ARR) among new referrals to a hypertension clinic..
Blood Pressure, (2006), 15 pp. 164-8
[8]
Mosso L, Carvajal C, González A, Baraza A, Avila F, Montero J, et al..
Primary aldosteronism and hypertensive disease..
[9]
Lim PO, Rodgers P, Cardale K, Watson AD, MacDonald TM..
Potentially high prevalence of primary aldosteronism in a primary-care population..
Lancet, (1999), 353 pp. 40
[10]
Holaj R, Zelinka T, Wichterle D, Petrak O, Strauch B, Widimsky J..
Increased intima-media thickness of the common carotid artery in primary aldosteronism in comparison with essential hipertension..
J Hypertens, (2007), 25 pp. 1451-7
[11]
Adler G, Willimas G..
Aldosterone:Villain or protector? Hypertension, (2007), 50 pp. 1-2
[12]
Goldkorn R, Yurenev A, Blumenfeld J, Fishman D, Devereux RB..
Echocardiographic comparison of left ventricular structure and function in hypertensive patients with primary aldosteronism and essential hypertension..
Am J Hypertens, (2002), 15 pp. 340-5
[13]
Sabio JM, Mediavilla-García JD, Jaén F, Fernández-Torres C, Aliaga J, Jiménez-Alonso J..
Hiperaldosteronismo primario. Análisis de una serie de 54 pacientes..
Med Clin (Barc), (2005), 124 pp. 765-8
[14]
Fogari R, Preti P, Zoppi A, Rinaldi A, Fogari E, Mugellini A..
Prevalence of primary aldosteronism among unselected hypertensive patients: a prospective study based on the use of an aldosterone/renin ratio above 25 as a screening test..
Hypertens Res, (2007), 30 pp. 111-7
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