Atherosclerosis Clinical Trial
Official title:
A Proof of Concept Study to Determine the Local Delivery and Efficacy of Intravenously Injected PEG-liposomal Prednisolone Sodium Phosphate (Nanocort) in Atherosclerotic Tissue in Subjects With Peripheral Artery Disease.
A promising strategy to reduce CVD is to directly target inflammation at the level of the
vessel wall. A potential drawback of anti-inflammatory strategies pertains to the thin line
between inhibiting 'inappropriate' inflammation versus inducing immuno-suppression. One of
the strategies to limit systemic immunosuppression is to strive for local delivery and
prolonged efficacy and low systemic burden of the drug by encapsulating the compound in
liposomes.
Liposome-encapsulated drugs efficiently target lesions and accumulate at a much higher
extent at desired areas of interest. Thus, local delivery and prolonged efficacy can be very
important tools to overcome the potential drawback anti-inflammatory drugs; namely an
inappropriate immune suppression. In the present project, the investigators therefore aim to
evaluate the delivery and superior efficacy of Nanocort above Prednison or placebo in
patients with peripheral artery disease due to atherosclerosis. Because these patients will
undergo an endarteriectomy the investigators will be able to collect atherosclerotic
material after drug administration and thus evaluate the local delivery and compare the
effects of Nanocort to Prednison or Placebo.
Cardiovascular disease (CVD) is the leading cause of morbidity and mortality in developed
nations. CVD is primarily caused by atherosclerosis, a systemic disease characterized by
lipid deposition in the subendothelial space with a concomitant, low-grade inflammatory
reaction. Nowadays, most therapeutic interventions aimed at lowering CVD have thus far
focused on modulating lipid levels, either lowering LDLc or increasing HDLc levels. Yet,
since the introduction of statins 20 years ago, there have been few breakthroughs in the
treatment of this disease. In fact, the recent failure of a potent HDL-increasing drug, i.e.
torcetrapib, has emphasized the need to also consider non-lipid modulating targets.
A promising strategy to reduce CVD is to directly target inflammation at the level of the
vessel wall. A potential drawback of anti-inflammatory strategies pertains to the thin line
between inhibiting 'inappropriate' inflammation versus inducing immuno-suppression. One of
the strategies to limit systemic immunosuppression is to strive for local delivery and
prolonged efficacy and low systemic burden of the drug by encapsulating the compound in
liposomes.
Liposome-encapsulated drugs efficiently target lesions and accumulate at a much higher
extent at desired areas of interest. This approach is currently used for the clinical
treatment of different types of cancer(liposomal doxorubicin) and fungal infections
(liposomal amphotericine-B). Liposomes for other applications (rheumatoid arthritis, cystic
fibrosis, multiple sclerosis and atherosclerosis) are being pre-clinically developed or
investigated in clinical trials.
Recent pre-clinical studies in animal models corroborate that liposomal glucocorticoids
effectively attenuate atherosclerotic plaque inflammation and exhibit improved
pharmacokinetics and biodistribution. Also, local delivery through localization of liposomes
at inflammatory sites and in local macrophages was demonstrated in animal models.
In humans, the potential of PEG-liposomes to target inflammatory sites has been showed by
imaging of radioactive liposomes. However, the concept of local delivery and (prolonged)
efficacy of liposomal corticosteroids at the inflammatory sites, such as atherosclerosis,
and at local macrophages remains to be determined in humans.
Thus, local delivery and prolonged efficacy can be very important tools to overcome the
potential drawback anti-inflammatory drugs; namely an inappropriate immune suppression. To
proof this concept, the investigators need to evaluate the local delivery and efficacy at
the site of inflammation (atherosclerosis) of intravenously administered liposomal
glucocorticoids (Nanocort) compared to free glucocorticoids (Prednison). Only by comparing
these two drugs, the investigators can prove the potential benefits of nanomedicine as a
vehicle for local drug delivery. This can have major implications in future drug strategies
for cardiovascular disease.
In the present project, the investigators therefore aim to evaluate the delivery and
superior efficacy of Nanocort above Prednison or placebo in patients with peripheral artery
disease due to atherosclerosis. Because these patients will undergo an endarteriectomy the
investigators will be able to collect atherosclerotic material after drug administration and
thus evaluate the local delivery and compare the effects of Nanocort to Prednison or
Placebo.
;
Allocation: Randomized, Endpoint Classification: Bio-availability Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor)
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