Atrial Appendage Micrograft Transplants to Assist Heart Repair After Cardiac Surgery
Autologous Atrial Appendage Micrografts Transplanted During Coronary Artery Bypass Surgery: the AAMS2 Randomized, Double-blinded, and Placebo-controlled Trial
Hospital District of Helsinki and Uusimaa
50 participants
Apr 1, 2024
INTERVENTIONAL
Conditions
Summary
Ischemic heart disease (IHD) leads the global mortality statistics. Atherosclerotic plaques in coronary arteries hallmark IHD, drive hypoxia, and may rupture to result in myocardial infarction (MI) and death of contractile cardiac muscle, which is eventually replaced by a scar. Depending on the extent of the damage, dysbalanced cardiac workload often leads to emergence of heart failure (HF). The atrial appendages, enriched with active endocrine and paracrine cardiac cells, has been characterized to contain cells promising in stimulating cardiac regenerative healing. In this AAMS2 randomized controlled and double-blinded trial, the patient's own tissue from the right atrial appendage (RAA) is for therapy. A piece from the RAA can be safely harvested upon the set-up of the heart and lung machine at the beginning of coronary artery bypass (CABG) surgery. In the AAMS2 trial, a piece of the RAA tissue is processed and utilized as epicardially transplanted atrial appendage micrografts (AAMs) for CABG-support therapy. In our preclinical evaluation, epicardial AAMs transplantation after MI attenuated scarring and improved cardiac function. Proteomics suggested an AAMs-induced glycolytic metabolism, a process associated with an increased regenerative capacity of myocardium. Recently, the safety and feasibility of AAMs therapy was demonstrated in an open-label clinical study. Moreover, as this study suggested increased thickness of the viable myocardium in the scarred area, it also provided the first indication of therapeutic benefit. Based on randomization with estimated enrolment of a total of 50 patients with 1:1 group allocation ratio, the piece of RAA tissue is either perioperatively processed to AAMs or cryostored. The AAMs, embedded in a fibrin matrix gel, are placed on a collaged-based matrix sheet, which is then epicardially sutured in place at the end of CABG surgery. The location is determined by preoperative late gadolinium enhancement cardiac magnetic resonance imaging (LGE-CMRI) to pinpoint the ischemic scar. The controls receive the collagen-based patch, but without the AAMs. Study blood samples, transthoracic echocardiography (TTE), and LGE-CMRI are performed before and at 6-month follow-up after the surgery. The trial's primary endpoints focus on changes in cardiac fibrosis as evaluated by LGE-CMRI and circulating levels of N-terminal prohormone of brain natriuretic peptide (NT-proBNP). Secondary endpoints center on other efficacy parameters, as well as both safety and feasibility of the therapy.
Eligibility
Inclusion Criteria3
- Informed consent obtained
- Left ventricular ejection fraction (LVEF) between ≥ 15% and ≤ 40% at recruitment (transthoracic echocardiography)
- New York Heart Association (NYHA) Class II-IV heart failure symptoms
Exclusion Criteria12
- Heart failure due to left ventricular outflow tract obstruction
- Acute myocardial infarction (AMI) within last 30 days
- History of life-threatening and possibly repeating ventricular arrhythmias or resuscitation, or an implantable cardioverter-defibrillator
- Stroke or other disabling condition within 3 months before screening
- Severe valve disease or scheduled valve surgery
- Renal dysfunction (GFR \<45 ml/min/1.73m2)
- Other disease limiting life expectancy
- Contraindications for coronary angiogram or LGE-CMRI
- Participation in some other clinical trial
- Screening Failure:
- After optimization of medications, no visible scar or LVEF ≥ 50% in preoperative LGE-CMRI
- Preoperative LGE-CMRI has not been performed prior scheduled CABG
Interventions
Perioperative assembly of an AAMs-patch with epicardial transplantation onto the epicardium of the scarred myocardium at the end of CABG surgery
Collection (preoperative and at 6-month-follow-up) of TEMPUS(TM) stabilizing whole blood for epitranscriptomics-oriented measurements
Collection (preoperative and at 6-month follow-up) of blood-derived both RNA-stabilized and non-stabilized plasma aliquots for epitranscriptomic-oriented and other CVD biomarker oriented measurements, respectively
To assess cardiac structure and function both pre- and postoperatively (at both hospital discharge and 3-month follow-up)
To assess detailed cardiac structure (i.e. interstitial fibrosis) and function both preoperatively and at 6-month follow-up postoperatively.
Standardised evaluation of IHD and HF-related angina pectoris (CCS) and dyspnea (NYHA) and life quality (RAND36) pre- and postoperatively (at both 3- and 6-month follow-up).
Standardised assessment of physcial capacity pre- and postoperatively (at 6-month follow-up)
Collection of a blood sample measurement of NT-proBNP by an accredited hospital laboratory pre- and postoperatively (at both 3- and 6-month follow-up).
Performed by the perfusion-anesthesiologist at the beginning of the CABG surgery to evaluate both LAA and RAA for blood flow velocities, anatomy, possible sludge and thrombus.
Epicardial transplantation of the collaged-based patch material without the AAMs onto the epicardium of the scarred myocardium at the end of CABG surgery.
Locations(1)
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NCT05632432