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The Liquid Biopsy System (LBS) is a new catheter (thin tube) designed for sampling blood directly from coronary arteries. These arteries supply blood to muscles of the heart and can become blocked by 'plaques' leading to chest pain (angina) and heart attacks. Recent research has shown that development of ' plaques' inside coronary arteries is controlled by chemicals (biomarkers) released into the blood from damaged areas of the artery wall. The LBS is designed to collect blood samples at the exact site of plaque formation. By testing these blood samples for biomarkers of plaque formation, it is hoped that new diagnostic tests and treatments for heart disease may be developed. The proposed investigation is use the LBS in humans to detect these biomarkers. The safety of the LBS has already been demonstrated in both human and animal studies. The study will enroll 70 patients with coronary artery disease who are undergoing routine percutaneous coronary intervention (PCI). PCI is a procedure used to open up a blocked coronary artery. It uses a catheter on the end of which is a special balloon that is inflated inside the blocked artery to open up the vessel and restore blood flow. A small metal spring (stent) is usually inserted to keep the blood vessel open. This study will test if the LBS device, when used just prior to a PCI procedure, can detect biomarkers released by diseased coronary arteries. The study will also determine if the presence of these biomarkers is linked to the long term health of the patient. The study will take place at Papworth Hospital, over a period of approximately 8 months (including telephone based patient followup calls 30 days, 6 months, 1, 2 and 3 years after the procedure to determine patient health).
Full description
The purpose of this Clinical Investigation is to use the PlaqueTec Liquid Biopsy System (LBS) to determine which biomarkers detected locally within the coronary artery can give information on the state of atherosclerotic disease. The LBS is a novel CE-marked class III coronary catheter designed for sampling blood directly from the coronary arteries. The LBS is unique in that it can capture "gradients" of biological molecules within the coronary artery and by analysing the samples it collects it can unequivocally identify which biomarkers have been locally released within the coronary artery. The samples can then be analysed for a variety of biomarkers using standard analytical techniques. Cardiologists should find this of great benefit as recent studies have shown that coronary artery disease is controlled and directed by the release of specific biological molecules into the blood from diseased areas of the coronary arteries. The safety and performance of the LBS has been proved previously in a recent First In Man study. The Clinical Investigation study will enroll 70 patients and will be observational in nature. The study is designed to use the device in its intended application (i.e. as an adjunct to a PCI procedure, such as the deployment of a stent) and to collect biomarker gradients released locally within the coronary artery. It will then follow up on the health status of the patients and see if the release of certain biomarkers is associated with particular clinical outcomes. The device will be used to look for locally released biomarkers at two different stages of the deployment of a stent, i.e. before and after its deployment. The first stage is prior to the deployment of the stent and the LBS will collect blood samples to look for the release of "natural" biomarkers gradients, i.e. those biomarkers that are naturally released during the progression and development of diseased regions within the artery. The second stage is to use the LBS to collect blood samples across a diseased artery that has just be perturbed (by "pre-ballooning", a procedure carried out just prior to stent insertion) and will looked for "induced" biomarker gradients, i.e. those molecules that are released by a diseased plaque when it ruptures. The insights gained by collecting biomarker gradients at these two stages will give very important information on what causes a region of artery to become diseased and how diseased portions of the artery affect the blood and cause heart attacks. The samples that are collected by the LBS in the above clinical settings will be analysed for a series of biomarker gradients previously selected by PlaqueTec' s Scientific Advisory Panel (SAP) for their potential role in causing atherosclerosis. The data collected by the LBS will be for research only and will not be used to affect the patient treatment. In summary, the LBS study will deliver completely new insights into coronary artery disease and will significantly increase the understanding of this hugely significant disease. Patients who need an elective percutaneous transluminal interventional coronary procedure will be considered for this study. Patients requiring emergency interventional procedures will be excluded. The study duration is estimated to be about 8 months with a three year follow up period.
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Subjects for whom the LBS is contra-indicated:
Subjects who are unwilling or unable to sign an informed consent
Subjects undergoing immunosuppressive therapies
Severe left ventricular dysfunction (left ventricular ejection fraction <30%)
Cardiogenic shock
PCI target in left main stem
PCI target lesion with low pre-procedure chance of success or high pre-procedure risk of complication (e.g. chronic total occlusion, thrombus load)
Subjects <18 years (there is no upper age limit but there is a requirement that patients are considered to be "fit" enough by the operating cardiologist for the LBS procedure to not cause significant additional risk)
Pregnancy
Contraindication to dual antiplatelet therapy or inability to take dual antiplatelet therapy for at least 4 weeks post-procedure
Serum creatinine above 125 µmol/L.(i.e. the upper limit for normal)
Subjects on warfarin at the time of procedure
Subjects with active chronic inflammatory disease, e.g. systemic lupus erythematosus, rheumatoid arthritis, seropositive arthropathies and known seropositivity to HIV, Hepatitis B or Hepatitis C.
70 participants in 2 patient groups
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Data sourced from clinicaltrials.gov
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