HEARTBiT: Multi-Marker Blood Test for Acute Cardiac Transplant Rejection (HEARTBiT)

Description

Rationale

Cardiac transplantation remains the main intervention for those with end-stage heart failure. Maintenance immunosuppression is given to all transplant recipients to prevent acute rejection and loss of the allograft. Despite great improvements in immunosuppressive therapies, acute rejection remains a clinical problem and occurs at varying severity in 20-30% of patients within the first 3 months post-transplant. Timely detection of moderate rejection allows for treatment to be modified, preventing organ damage, graft failure and patient death. The current method to monitor for rejection remains the endomyocardial biopsy (EMB), a highly invasive and costly procedure that poses physical risks and emotional stress to patients, who must undergo 12-15 such tests during the first year post-transplant. EMB detects rejection only when tissue damage has occurred, and lacks sensitivity as it provides information about tiny pieces of the endomyocardium. Clearly, patients and clinicians would benefit from an effective, cheaper, less invasive diagnostic test that can indicate when an EMB is not needed.

Our team used unbiased omics strategies and computational tools to identify potential biomarkers of treatable acute rejection (ISHLT grade 2R or higher) in peripheral blood. We hypothesize that there are distinctive RNA and protein signatures in blood that can be developed into a simple test to accurately indicate when heart transplant patients do not require EMB, and that studying these biomarkers in a clinically relevant setting will facilitate clinical adoption.

Our Specific Aims are to:

1. Evaluate the performance of HEARTBiT, a custom 9-mRNA biomarker test developed on the NanoString platform, in an environment suitable for clinical translation, on >4000 newly collected samples from 400 patients across North America
2. Examine the biomarker panel score and individual biomarkers serially across the first year post-transplant to identify predictive signatures of rejection and characterize underlying biology
3. Develop and assess 5 promising protein biomarker candidates on NanoString, test 7 candidate miRNAs, and evaluate combinatorial RNA-protein classifier performance metrics to improve HEARTBiT

Expertise: Our team at the Centre of Excellence for Prevention of Organ Failure has over 10 years experience in computational analysis of omics and clinical data to create biomarker tests that out-perform current gold standards. Our Biomarkers in Transplantation (BiT) study has been continuously funded by competitive grants, philanthropy and industry between 2004-2017 and has generated many publications related to heart and kidney transplant rejection. Via our collaborators, we will have access to a Canadian Blood Services facility for testing our biomarkers, and patient samples from 5 major transplant sites (St. Paul's/Vancouver, Toronto, Nebraska, Newark Beth Israel, Duke).

Outcomes: The HEARTBiT test will be ready for clinical utility studies. The test will have significant clinical and socioeconomic value by reducing EMBs for transplant patients and enabling the tailoring of therapy. Insights into the biology of immune rejection will also be enhanced.

Details