Российский кардиологический журнал (Oct 2010)

PROTECTIVE EFFECTS OF ANGIOTENSIN II BLOCKADE WITH OLMESARTAN MEDOXOMIL ON RESISTANCE VESSEL REMODELING

  • Ronald D. Smith,
  • Hiroshi Yokoyama,
  • David B. Averill,
  • Lori Cooke,
  • K. Bridget Brosnihan,
  • Ernesto L. Schiffrin,
  • Carlos M. Ferrario

Journal volume & issue
Vol. 0, no. 5
pp. 83 – 90

Abstract

Read online

The VIOS (Vascular Improvement with Olmesartan medoxomil Study) study is a randomized, parallel study to determine the relative effects of suppressing the renin-angiotensin system (RAS) with the angiotensin receptor antagonist olmesartan medoxomil versus suppressing sympathetic drive with the beta-adrenoceptor antagonist atenolol on remodeling of the subcutaneous small resistance vessel. Remodeling of small resistance vessels may be the earliest pathologic finding associated with hypertension. It may predate the onset of clinically apparent hypertension. Methods: In this study, 100 patients with stage I hypertension are characterized at baseline before being treated for 1 year to obtain a goal BP of less than 140/90 mm Hg, as defined by Joint National Committee (JNC)-7. Resistance vessel remodeling is determined using the gluteal fat biopsy technique in the hypertensive patients and a group of normotensive healthy volunteers. Additionally, efforts will be made to define whether noninvasive hemodynamic parameters, retinal vessel measurement changes, or biologic markers may predict and track the underlying vascular morphologic and physiologic changes induced by either regimen during the 12-month treatment period. Results: The primary endpoint will be the degree of vascular remodeling as obtained from percutaneous biopsy of gluteal subcutaneous resistance vessels in each of two treatment arms compared with the healthy volunteers. The design of the study and the pertinent baseline characteristics of these patients with uncomplicated essential hypertension are presented. Conclusion: The suppression of the RAS by the blockade of angiotensin II type 1 (AT (1)) receptors may demonstrate remodeling effects on the ubiquitous small resistance vessels similar to that seen in the myocardium and renal glomeruli, thus affording more complete end-organ protection.