Study on Anti-inflammatory Effect of Anti-hypertensive Treatment in Patients With Small AAA's and Mild Hypertension (PISA)

Standard therapy of small AAAs currently consists of "watchful waiting" strategy with aggressive blood pressure control "Watchful waiting" includes an Ultrasound (more recently CT or MRI scan) every 12 months (for AAAs between 3.5 - 4.4 cm) or every 6 months (for AAAs between 4.5 and 5.5 cm) to observe. A growth rate of >7 mm/ 6 months has been suggested as a threshold for proceeding to aneurysm repair irrespective of aneurysm size. Clearly, there is need for a more sensitive method to evaluate the progress of AAA growth.

Recent publications have shown that evaluation of AAAs using FDG-uptake with PET-scan may identify small AAAs that are more prone to grow and/or rupture, as these AAAs as compared to normal aorta's show increased inflammatory activity , which is considered the major pathophysiological pathway. Evaluation of FDG-uptake is also sensitive enough to observe the short-term effects of endovascular intervention of large AAAs, as unpublished data show a statistically significant reduction in aneurismal FDG-uptake only 6 weeks after endovascular repair of large AAAs. Therefore, the change in aneurismal FDG-uptake may also be a very promising and sensitive method to evaluate treatment effects of medical interventions within a relatively short period of time (3 months).

Just as pressure unloading may represent an anti-inflammatory mechanism in endovascular repair of more advanced aneurysms, so may milder pressure unloading in moderately hypertensive individuals with smaller aneurysms display similar anti-inflammatory effects. Such a mild form of pressure unloading may be attainable with adequate anti-hypertensive drug therapy. In this context, however, a possible additional benefit may be that some anti-hypertensive drug classes have been proposed to exert specific anti-inflammatory effects relevant to aneurysm inflammation.

Local activation of multiple components of the renin angiotensin system has been implicated in both the development of aneurysms, as well as in their inflammatory component. In accordance, preliminary evidence from murine studies suggest that ACE inhibitors, for example, may reduce inflammatory activity in aneurysmatic vessel walls. However, since ACE inhibitors block the renin angiotensin system halfway it's path, and non-ACE conversion of angiotensin I occurs, a rationale exists to block the renin angiotensin system upstream of ACE. Upstream blockade of the renin-angiotensin system may have additional advantages in antagonising direct pro-inflammatory effects of renin itself, which have been identified in, for example, kidney tissue and retinal microvessels.

A case can thus be made for renin inhibition as a potential optimal strategy for reducing aneurysm inflammation in hypertensive patients with aortic aneurysms. In the proposed pilot trial, the direct renin inhibitor Aliskiren will be evaluated. As a control condition, an antihypertensive agent without postulated specific anti-inflammatory effects is appropriate. Calcium channel blockers represent such a class.

The current study will explore what the size and variability of the effect of aliskiren monotherapy, the combination of aliskiren/hydrochlorothiazide, amlodipine monotherapy, or the combination of amlodipine/hydrochlorothiazide on FDG-uptake is (if at all measurable on top of the effect of antihypertensive and statin therapy). This will allow more accurate power calculation of larger future studies aiming at prevention of AAA-progression (diameter and rupture).