Hypertension, Resistant to Conventional Therapy Clinical Trial
Official title:
Effect of Renal Sympathetic Denervation on Resistant Hypertension and Cardiovascular Hemodynamic in Comparison to Intensive Medical Therapy Utilizing Impedance Cardiography
The purpose of this study is to demonstrate that Renal Sympathetic Denervation (RDN) improves the control of blood pressure (BP) in patients with treatment-resistant hypertension, as compared to intensive medical therapy (IMT) using hemodynamic parameters and then applying a predefined algorithm of drug selection (i.e. integrated hemodynamic management - IHM) during 6 months intensive treatment program (receiving antihypertensive care according to the 2007 ESH Guidelines). Working hypothesis: When it is possible to disrupt the sympatho-renal axis by RDN - BP reduction occurs to a greater extent and more rapidly than applying intensive medical therapy using IHM.
Hypertension is the most common cardiovascular disease, affecting approximately 1 billion1
people worldwide. Hypertension is a major public health concern, because of its
complications (coronary artery disease, heart failure, renal disease, stroke). Early blood
pressure control in hypertensive patients guarantees the best prevention of cardiovascular
events on the long term (2007 ESH-ESC Guidelines on the Management of Hypertension; VALUE
study). However, in spite of education efforts and antihypertensive drugs, blood pressure
control rates remain low. The most common cause of uncontrolled BP is inadequate
pharmacological treatment, because the selection of antihypertensive agents is often done
independently of the hemodynamic status of the patient (volemic status, peripheral
resistance, cardiac inotropy).
The sympatho-renal axis describes the dual role of the kidney as originator of some central
nervous system afferent signals and recipient of efferent sympathetic signals. Both the
contribution of the kidney to central sympathetic drive and the consequences of sympathetic
efferent drive to the kidney contribute to the development and sustenance of hypertension.
Poly-pharmacy strategies for the treatment of elevated blood pressure have identified
populations of patients with treatment resistant hypertension.
Treatment Resistant Hypertension(TRH) is a blood pressure that remains above goal in spite
of the concomitant use of antihypertensive medications from more than 3 drug classes.
Patients who require more than 4 drug classes to have their blood pressure controlled are
also considered to have resistant hypertension. Preferably, the regimen should include a
diuretic and all doses should be optimal2 .The true prevalence of treatment resistant
hypertension is unknown. In clinical trials from 20 to 40% of randomized patients did not
reach blood pressure targets3. In the National Health and Nutrition Examination Survey in
USA (2003-2008), non-pregnant adults with hypertension were classified as resistant if their
blood pressure was 140/90 mmHg or higher and if they reported using antihypertensive
medications from 3 different drug classes or drugs from 4 antihypertensive drug classes
regardless of blood pressure. The prevalence was 12.8% of the drug-treated hypertensive
population. Risk factors for treatment-resistant hypertension include older age and obesity
.
Treatment-resistant patients are more likely to have albuminuria, reduced renal function,
and a history of diabetes mellitus, coronary heart disease, stroke or heart failure. They
are at increased risk of cardiovascular complications although the true incidence of death
and morbidity remains currently unknown.
In the Spanish Ambulatory Blood Pressure Monitoring Registry5, 8295 of 68045 treated
patients (12.2%) had treatment resistant hypertension, defined as an office blood pressure
equal to or exceeding 140 mm Hg systolic and/or 90 mm Hg diastolic.
RDN is a novel procedure which has been approved safe and gives a remarkable reduction of BP
in treatment-resistant hypertensive patients. The HOTMAN® System is a novel impedance
cardiographic device, measuring and calculating hemodynamic parameters. The HOTMAN® System
may help the physician to control blood pressure in patients with resistance hypertension.
* Our pilot study(Renal sympathetic denervation in patients with treatment-resistant
hypertension after witnessed intake of medication before qualifying ambulatory blood
pressure.Fadl Elmula FE, Hoffmann P, Fossum E, Brekke M, Gjønnæss E, Hjørnholm U, Kjær VN,
Rostrup M, Kjeldsen SE, Os I, Stenehjem AE, Høieggen A.Hypertension. 2013
Sep;62(3):526-32)has showed that The mean office and ambulatory BPs remained unchanged at 1,
3, and 6 months in the 6 patients, whereas there was no known change in antihypertensive
medication. Two patients, however, had a fall in both office and ambulatory BPs. Our
findings question whether BP falls in response to RDN in patients with true
treatment-resistant hypertension.That is why we intended to do an intrim analysis after
inclusion of around 30% of the total number planned to be included in the study.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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