Peripheral Vascular Diseases Clinical Trial
Official title:
Correlation of Microparticles With Risk of Early Re-stenosis After Percutaneous Transluminal Angioplasty in Patients With Peripheral Arterial Disease
Although microparticles have been well-documented as mediators of inflammation and coagulation in various cardio-vascular disease events, it is currently not known how Percutaneous Transluminal Angioplasty (PTA) for peripheral arterial disease influences microparticle numbers, phenotype and distribution pre- and post interventionally and how they are related to or affect the incidence of early re-stenosis - or if indeed they may be used to predict patients at risk of early re-stenosis.
Background
Background and rationale of the study:
Atherosclerosis is an increasing widespread systemic disease, representing a significant
cause of morbidity and mortality for those affected by it. Age-adjusted prevalence of
peripheral arterial disease lies at 12%, increasing to 20% in persons above the age of 70.
Five percent of patients with intermittent claudication develop critical limb ischemia
within five years from early symptoms, and are considered to be at risk of major amputation.
Whilst bypass surgery remains a valid treatment option for patients with peripheral arterial
disease and ensures good long-term anatomical patency and clinical durability, this trusted
surgical procedure comes at a certain risk of morbidity and mortality. Furthermore, patent
vessels of good quality, particularly veins needed for the bypass procedure, are often
unavailable and impose limitations to the method. Percutaneous transluminal angioplasty
(PTA) has evolved in the past years as a valid treatment modality for patients with stenotic
arterial lesions of the lower extremities due to peripheral arterial disease. However,
re-stenosis following PTA for peripheral arterial disease is not uncommon and poses a
serious therapeutic problem. Despite the increasing prevalence and incidence of peripheral
arterial disease in the population, timely diagnosis or use of diagnostic and prognostic
markers are still lacking (still lags behind the current diagnostic and treatment strategies
for coronary artery disease and acute coronary syndromes). Indeed, currently, only few
recognisable risk factors for the development of re-stenosis have been recognized. These
include beside clinically advanced peripheral arterial disease and diabetes mellitus, also
pro-inflammatory and pro-coagulatory states with high CRP and fibrinogen as well as
post-interventionally increased levels of von Willebrand factor and plasminogen inhibitor-1.
Furthermore, TGF-beta1 levels are also significantly increased in patients with re-stenosis.
The actual missing link between these "common" pro-inflammatory markers and the occurrence
of re-stenosis is however not known - the answer may lie in subcellular fragments
circulating in the blood.
Indeed, these so-called cell-derived plasma microparticles (MPs) are small phospholipid
vesicles up to 1.5 µm in size that are released from platelets, circulating leukocytes and
endothelial cells upon activation. Originating from lipid rafts, they contain defined
bioactive molecules that are potentially implicated in thrombogenesis and trans-cellular
activation. Additionally, pro-inflammatory functions may be mediated by putative
ligand-receptor interactions, classical pathway complement activation 11 and by triggering
or modifying target cells and their functions. Furthermore, MPs represent a population of
phosphatidylserine-exposing sub-cellular fragments, function as "carriers" of circulating
tissue factor, and may be invaluable in maintaining normal haemostasis when platelet
function is impaired. Microparticles transport pro-inflammatory molecules such as
interleukins, interferon gamma and tumour necrosis factor alpha. Increasing evidence
suggests that released MPs are more than just inert cell debris or irrelevant platelet dust.
Instead, they are potent biological agents found in healthy individuals but also implicated
in a variety of diseases, including vascular inflammatory states after cardiopulmonary
bypass surgery, acute coronary syndromes, and diseases associated with the metabolic
syndrome e.g. diabetes mellitus. Patients with peripheral arterial disease (PAD) due to
diabetes mellitus type 2 also present with an increased "baseline" pro-inflammatory and
pro-coagulatory state. It appears that in diabetic patients platelet-derived microparticles
may participate in the development or progression of atherosclerosis. Moreover, elevated
numbers of microparticles, specifically platelet-derived, have been described in patients
with peripheral arterial disease.
Although microparticles have been well-documented as mediators of inflammation and
coagulation in various cardio-vascular disease events, it is currently not known how PTA for
peripheral arterial disease influences microparticle numbers, phenotype and distribution
pre- and post interventionally and how they are related to or affect the incidence of early
re-stenosis - or if indeed they may be used to predict patients at risk of early
re-stenosis.
Objective
Hypothesis and Aims:
Hypothesis: Plasma derived microparticles actively influence the course of disease and are
associated with early re-stenosis/re-occlusion after angioplasty in patients (men and women)
with peripheral arterial disease by acting as mediators between innate- and cellular
immunity as well as the coagulation system.
Aim 1: The first aim of the study is to characterise and quantify microparticles from
peripheral blood samples at baseline and one day post-angioplasty Aim 2: The second aim is
to characterise and quantify microparticles in the follow up period 2 weeks, 3 and 6 months
post-angioplasty and to identify whether the microparticle profile can be used to define
patients at greater risk for re-stenosis.
Aim 3: The third aim is to address the possible gender differences in microparticle
distribution and numbers in a sub-group analysis. This will be an important part of the
project as currently no such data exist.
Methods
Study design: The study will include measurements at baseline, one day, 2 weeks, 3 and 6
months post-angioplasty.
Evaluation Obtain informed consent: day (d)0 Physical examination: d0, d+1, 2 weeks, 3 and 6
months post-intervention Ankle-brachial index (ABI) measurement: d0, d+1, 2 weeks, 3 and 6
months post-intervention Duplex sonography: 6 months post-intervention Angioplasty: d0
(begin of study Blood sampling routine*: d0, d+1 Blood sampling study**: d0, d+1, 2 weeks, 3
and 6 months post-intervention
* Fasting glucose, HBA1c, lipid profile, creatinine, haemoglobin, leukocyte profile,
thrombocytes, C-reactive protein
** Microparticles, cytokines, complement (=5ml serum, 2.7ml EDTA plasma, 10ml citrate)
;
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