Coronary Artery Disease Clinical Trial
Official title:
Healthy Endothelial Accelerated Lining Inhibits Neointimal Growth. A Clinical, Multi-center, Prospective, Non-Randomized Study
This is a multi-center, prospective, non-randomized study. Approximately 90 patients from up
to 16 centers will be entered in the study. Patients will be followed clinically for up to 5
years post-procedure. All patients will have a repeat angiography at 6 months follow-up.
The primary objective of this study is to evaluate the safety and effectiveness of the
Genous Bio-engineered R stentTM in conjunction with optimal statin therapy (80mg of
atorvastatin), in the treatment of elective patients with up to two de novo native coronary
artery lesions. The Genous stent received CE mark for the intended indication in August 2005
Currently available coronary stents are prone to thrombosis and restenosis. It is believed
that the accelerated re-establishment of a functional endothelial layer on damaged stented
vascular segments may help to prevent potentially serious complications by providing a
barrier to circulating cytokines, and by the ability of endothelial cells to produce
substances that passivate the underlying smooth muscle cell layer.
By recruiting the patient's own EPCs to the site of vascular injury (e.g. the site of a
coronary stent implant), an acceleration of the normal endothelialization process would
occur. It is theorized that the rapid establishment of a functioning endothelial layer may
promote the transformation of the injured site to a healthy state. For example, in the case
of coronary stent implantation, rapid re-endothelialization may reduce inflammation,
thrombosis and potentially eliminate restenosis.
The influences of EPC recruitment and reendothelialization on restenosis range from the
effects on the vascular repair response, to the prevention of platelet aggregation and
activation, angiogenesis, and enhancement of vasomotor response. Recently it has been shown
that the integrity and functional activity of the endothelial monolayer play a crucial role
in the prevention of atherosclerosis. However, risk factors for coronary artery disease such
as age, hypertension, hypercholesterolemia, and diabetes reduce the number and functional
activity of these circulating EPCs, thus limiting the regenerative capacity. The impairment
of stem cells by risk factors in CAD patients may contribute to the limited regenerative
capacity of diseased endothelium, as well as to atherogenesis and atherosclerotic disease
progression. Therefore, relating the number and function of circulating EPCs to the
functional outcome of stent technology is crucial to identify a beneficial effect on
in-stent restenosis formation and vascular (dys) function.
The HEALING FIM and HEALING II clinical studies sought to define the safety and efficacy of
a stent designed to sequester circulating endothelial progenitor cells to the luminal
surface of the stent struts by an anti-CD34 antibody coating, thereby promoting
reendothelialization of the coronary stent and the vascular healing response following stent
deployment. Enhanced vascular healing will reinstate vascular integrity, prevent platelet
aggregation and sub-acute in-stent thrombosis, reinstate vasoreactivity and inhibit
restenosis formation. In the HEALING II study, a correlation was found between EPC levels
and angiographic/IVUS outcomes in patients receiving the Genous stent. Patients with normal
EPC titers had significantly less in-stent late loss compared to those with low EPCs (0.53
vs 1.02mm). This is consistent with the results from drug eluting stent trials, thereby
establishing proof of concept of the EPC capturing technology, provided adequate EPC target
cell population is available.
There are several animal studies demonstrating that statin therapy was associated with a 2.5
to 3 fold increase of circulating EPCs leading to accelerated reendothelialization, vascular
repair and improved angiogenesis. In addition, Dimmeler and co-workers found similar results
in a small cohort of cardiovascular patients receiving atorvastatin therapy (n=7,
Circulation 2001), suggesting an angiotrophic effect of atorvastatin therapy in addition to
its previously defined pleiotrophic properties. Similarly, Drexler and co-workers described
similar EPC recruiting properties of simvastatin in CAD patients unrelated to/ irrespective
of LDL reduction (n=10, Circulation 2005).
The current study seeks to confirm the safety and optimize the effectiveness of the EPC
capture technology (Genous Bio-engineered R stent) by incorporating a high dose statin
therapy, specifically atorvastatin 80mg, for at least two weeks prior to the index
procedure.
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Allocation: Non-Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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