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Reduction of Left Ventricular Hypertrophy After Eplerenone Therapy

Només els usuaris registrats poden traduir articles
Inicieu sessió / registreu-vos
L'enllaç es desa al porta-retalls
EstatCompletat
Patrocinadors
Poznan University of Medical Sciences

Paraules clau

Resum

Obstructive sleep apnea syndrome (OSA) is the most frequent sleep disorder characterized by excessive decrease in muscle tone of the soft palate, the tongue and the posterior pharyngeal wall. It leads to airway collapse. In cases of decreased airway passage hypoventilation (hypopnea) occurs while periodic lack of airflow is called apnea. An obstructive sleep apnea syndrome is recognized as an independent cardiovascular risk factor. OSA is very common in patients with resistant hypertension. RAH is diagnosed when blood pressure remains elevated despite simultaneous use of 3 antihypertensive agents from different groups of drugs at optimal to maximum doses, including a diuretic.
In patients with OSA frequent episodes of hypoxemia during sleep result in the repeated activation of the sympathetic nervous system. What is more, the episodes of respiratory disorders increases in levels of aldosterone serum concentration with following sodium and water retention and elevation of blood pressure finally. An increased aldosterone level also stimulates synthesis of collagen, promotes stiffening of the arterial wall, myocardial fibrosis with heart muscle remodeling and takes part in development of left ventricular hypertrophy (LVH) - common complication of hypertensive patients with OSA. Several studies, including the Sleep Heart Health Study have confirmed that severe OSA is associated with high prevalence of concentric hypertrophy through sympathetic activation and vasoconstriction.
Eplerenone is a selective mineralocorticoid receptor inhibitor. It has no affinity for glucocorticoid, progesterone and androgen receptors and therefore has lower risk of side effects. Eplerenone lowers blood pressure and inhibits heart muscle fibrosis. The hypotensive effect is caused by reduction of fluid retention. Probably, in patients with OSA, a reduction of fluid accumulation especially at the level of the neck may contribute to lowering the resistance in the upper respiratory tract and in that way it may help to decrease the severity of OSA.
As LVH remains a strong and independent predictor of total mortality and death from cardiovascular causes, in this study we want to assess whether the addition of Eplerenone to a standard antihypertensive therapy will favorably change left ventricular geometry. We also want to check if the addition the Eplerenone to a standard antihypertensive therapy could be an effective therapeutic option for patients with OSA and RAH.

Descripció

125 patients (78 men and 47 women) aged 18 - 65 years, with diagnosed resistant hypertension and moderate or severe OSA were included in the study, which was conducted in years 2014-2017 in the Department of Hypertension, Angiology and Internal Medicine and the Department of Pulmonology, Allergology and Respiratory Oncology at the University of Medical Sciences in Poznan, Poland. 23 patients did not complete the study because they did not meet the inclusion criteria (10 patients) and did not follow the recommendations (13 patients). 102 patients were randomized to two groups. In Group A, 50mg Eplerenone was administered orally once a day additionally for standard antihypertensive therapy. In Group B, standard antihypertensive therapy was not changed for 6 months of follow-up. RAH was recognized when in spite of the use of at least 3 antihypertensive agents (including a diuretic) in maximum doses, it was impossible to achieve the target values of BP (< 140/90 mmHg). The patients were taking on average 3,93 antihypertensive medications including diuretics (100% of patients), angiotensin-converting enzyme inhibitors (54% of patients), angiotensin II receptor antagonists (45.2% of patients), calcium antagonists (83.9% of patients), β-blockers (77.4% of patients), and α-blockers (22.6% of patients). The permission no. 565/14 to conduct the study was granted by the Ethics Committee of the University of Medical Sciences in Poznan. All patients gave an informed and written consent to participation in the study. Blood pressure measurements In all patients, during each visit, BP measurements were performed three times at rest in supine position, in standard conditions, using an upper arm blood pressure monitor BP monitor (Omron 705IT, Omron Healthcare, Kyoto, Japan). Ambulatory 24-hours BP automated monitoring (ABPM) was performed using a 24-hour ambulatory peripheral BP monitor TM2430 (A&D Medical, San Jose, California, United States). The frequency of measurements was every 15 minutes between 7:00 and 22:00 and every 30 minutes between 22:00 and 7:00.

Neck circumference measurement The neck circumference was measured in the midway of the neck, between the mid-cervical spine and mid-anterior neck, in standing position, with a flexible no-stretchable plastic tape, and approximated to the nearest 0.1 cm.

Echocardiographic examination

All patients underwent complete transthoracic echocardiographic study with Vivid S6 (GE Medical System, Tirat Carmel, Israel) with a 1,5 - 3,6 megahertz cardiac sector probe. A standard M-mode, two-dimensional and Doppler echocardiographic examination was performed according to the guidelines of American Society of Echocardiography. Three consecutive cycles were averaged for every parameter. The same experienced cardiologist who was blinded to the presence or absence of OSA performed all echocardiographic examinations. Left ventricular end-diastolic diameter (LVED), thickness of intraventricular septum at end diastole (IVS), left ventricular posterior wall at end diastole (LVPW) and left ventricular mass (LVM) were measured according to American Society of Echocardiography recommendations. The LVH was defined as the IVS or the LVPW>12 mm. The left ventricular mass was calculated using a simple and anatomically validated formula:

LVM = 0.8 × 1.04 [(IVS + LVED + LVPW) 3 − LVED 3] + 0.6 LVM was calculated as corrected for height and LVM index (LVMI). The relative wall thickness (RWT) was calculated as (2× LVPW)/LVEDD, for which the normal limit is <0.42. Based on LVMI and RWT, the LV geometry was classified as normal (LVMI <115 g/m2 in men, <95 g/m2 in women and RWT <0.42), concentric remodeling (normal LVMI <115 g/m2 in men, <95 g/m2 in women and increased RWT >0.42), concentric hypertrophy (LVMI >115 g/m2 in men, >95 g/m2 in women and increased RWT >0.42) or eccentric hypertrophy (LVMI >115 g/m2 in men, >95g/m2 in women and normal RWT <0.42).

Polysomnography (PSG) The probability of OSA was established at first on the base of Epworth Sleepiness Scale score. The evaluation of patients was performed in the Sleep Laboratory of the Department of Pulmonology, Allergology and Respiratory Oncology at the University of Medical Sciences in Poznan, Poland using a full-night polysomnographic monitoring system (EMBLA S4000, Remlogic, Denver, Colorado) with Somnologica studio 3.3.2 software (EMBLA, Broomfield, Colorado, United States). Standard electroencephalography monitoring, including frontal leads (F1, F2), central leads (C3, C4), occipital leads (O1, O2) and reference leads at the mastoids (M1, M2); electromyography and electrooculography methodology were performed according to The American Academy of Sleep Medicine (AASM) guidelines.

Airflow was measured using nasal thermistors, and a nasal pressure transducer. Abdominal and thoracic movements were assessed by respiratory inductive plethysmography. Oximetry was measured using a disposable finger probe (oximeter flex sensor 8000 J, NONIN, Plymouth, Massachusetts, United States) placed on the index finger. Snoring sounds, heart rate also were recorded. Body position was monitored using body position sensor. Apnea was defined as a cessation of airflow lasting for more than 10 sec., and hypopnea as a discrete reduction (two thirds) of airflow and/or abdominal ribcage movements lasting for more than 10 sec. and associated with a decrease of more than 4% in oxygen saturation. Trained PSG technicians and sleep physicians using the criteria of Rechtschaffen and Kales, and in close concordance with scoring updates given by the American Academy of Sleep Medicine analyzed all studies. The apnea-hypopnea index (AHI) was defined by the total number of apneas and hypopneas per hour of sleep. The severity of OSA was determined as: mild (AHI 5-15), moderate (AHI 15 - 30) and severe (AHI ≥ 30) (21) on the basis of AHI Design of the study First visit Patients with previously diagnosed RAH and with suspected OSA (medical history, the Epworth scale assessment) were referred from an outpatient clinic to the hospital ward. After admission numerous laboratory tests and imaging, such as aldosterone and Plasma renin activity levels (ARO), both before and after tilting, creatinine, urea, GFR, sodium and potassium levels, pro B-type natriuretic peptide (BNP), thyrotrophin (TSH), free triiodothyronine (FT3), free thyroxine(fT4), 24-hour urine collection for electrolytes, as well as abdominal ultrasound examinations, computed tomography of the abdomen and Doppler ultrasound of the renal arteries, were performed to exclude secondary causes of arterial hypertension (other than primary hyperaldosteronism). What is more, office BP was measured three times at admission and afterwards 24-hours ABPM examination was conducted. All participants underwent also transthoracic echocardiography. After aforementioned diagnostics and after confirming RAH based on 24-hour ABPM, patients were referred to the Department of Pulmonology to perform polysomnography.

In those patients in who moderate or severe OSA (AHI>15/h), had been confirmed, Eplerenone at the dose of 50 mg/day was randomly added to the previously used treatment regimen.

Second visit After six months, office BP (measured three times in standard conditions as initially performed), 24-hour ABPM, echocardiography and polysomnography were repeated.

Statistical analysis The normality of distribution of the analyzed variables was evaluated with the Shapiro-Wilk test and Kolmogorov-Smirnov test with the Lilliefors correction. The results of the tests showed that distributions of almost all parameters significantly differed from the normal distribution. Therefore, nonparametric methods were used in statistical analysis. The Wilcoxon signed-rank test was applied for the evaluation of the differences between the baseline values and those obtained after treatment. The t test was used for variables with normal distribution. Correlations between the values of the parameters were evaluated using the Spearman's rank correlation coefficient. P value of less than 0.05 was considered significant. The Statistica software, version 10, was used for the analysis (www. statsoft. com; license JGNP410B316631AR-J, Stat- Soft, Inc., 2011, Tulsa, Oklahoma, United States).

Dates

Darrera verificació: 05/31/2017
Primer enviat: 06/09/2017
Inscripció estimada enviada: 06/12/2017
Publicat per primera vegada: 06/13/2017
Última actualització enviada: 06/12/2017
Publicació de l'última actualització: 06/13/2017
Data d'inici de l'estudi real: 06/30/2014
Data estimada de finalització primària: 12/31/2016
Data estimada de finalització de l’estudi: 05/31/2017

Condició o malaltia

Hypertension,Essential
Obstructive Sleep Apnea
Left Ventricular Hypertrophy

Intervenció / tractament

Drug: Group A

Fase

Fase 4

Grups de braços

BraçIntervenció / tractament
Experimental: Group A
The patients who had Eplerenone 50mg tab once a day added to their standard hypertensive treatment.
Drug: Group A
Eplerenone 50 mg Tab once a day
No Intervention: Group B
The patients who did not receive an additional drug to their standard hypertensive treatment.

Criteris d'elegibilitat

Edats elegibles per estudiar 18 Years Per a 18 Years
Sexes elegibles per estudiarAll
Accepta voluntaris saludables
Criteris

Inclusion Criteria:

- confirmation of resistant hypertension(RAH). RAH was recognized when in spite of the use of at least 3 antihypertensive agents (including a diuretic) in maximum doses, it was impossible to achieve the target values of BP (< 140/90 mmHg).

- diagnosing of moderate or severe sleep apnea (OSA) on the basis of apnoea-hypopnea index (AHI) in polysomnography. AHI was defined by the total number of apnoea's and hypopneas per hour of sleep. The severity of OSA was determined as: mild (AHI 5-15), moderate (AHI 15 - 30) and severe (AHI ≥ 30)

- signing informed and written consent to participation in the study.

Exclusion Criteria:

- secondary hypertension (other than primary hyperaldosteronism),

- myocardial infarction,

- stroke within 6 months before the study,

- congestive heart failure with New York Heart Association (NYHA) grade III-IV,

- chronic kidney disease (GFR < 30 ml/min),

- active addiction to alcohol or psychoactive substances,

- active cancer disease.

Resultat

Mesures de resultats primaris

1. Number of patients with reduction of left ventricular hypertrophy after Eplerenone therapy [6 months]

Changes in echocardiographic data ( LVED, IVS, LVPW, LVMI, RWT) and in left ventricular geometric patterns after six months Eplerenone treatment

Mesures de resultats secundaris

1. Reduction in blood pressure after Eplerenone therapy [6 months]

Reduction in office BP (measured three times in standard conditions) and in 24-hour ABPM parameters

2. Reduction in (AHI) apnea-hypopnea index after Eplerenone therapy [6 months]

AHI - parameter determining the severity of OSA in polysomnography

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