Clinical Trials Logo

Clinical Trial Summary

The primary goal of this Multicenter Study is to develop and to evaluate a method for measuring donor-specific cell free DNA in blood samples from transplant recipients as markers of rejection. Blood samples obtained periodically from heart transplant recipients are assessed for cell free DNA relative to clinical data in order to determine whether changes in the level of cell free DNA indicate rejection. This research study proposes testing a blood sample obtained from the heart transplant recipient. The research seeks to establish whether this blood test will show when the patient is beginning to or already rejecting the transplanted heart. BACKGROUND Identifying if a transplant patient is beginning to or already rejecting the heart is necessary, so that appropriate treatment can be started to halt the rejection. Heart catheterization with biopsy is the usual method used for assessing whether a patient may be rejecting the heart. There are also a number of other methods that transplant physicians will use to look for signs of rejection including other blood tests, echocardiograms, obtaining pressure readings during heart catheterization, and micro-array testing of blood obtained during biopsy. These technologies are limited in ability to consistently and accurately identify the presence of rejection. The usual method of checking for rejection involves obtaining a sample of the heart tissue (heart biopsy); biopsy can only be accomplished through heart catheterization which is an invasive procedure that has risks associated with disturbing the heart such as puncturing the heart or causing the heart rate to change or damaging tissue in the heart. Overtime, repeating this invasive procedure can diminish the ease of the procedure because the veins can become scarred and more difficult to access. For these reasons, researchers believe that it would be good to have a blood test that gives information about the possibility of rejection so that it may not be necessary to do as many heart biopsies. Also, a blood test may be able to provide information about the heart or about rejection that is currently not available at all.


Clinical Trial Description

Early detection of rejection is a major focus of organ transplant care. The use of aggressive immunosuppressive therapy has been shown to alter the prognosis of heart transplant patients who have acute rejection1. There are many modalities utilized in the routine surveillance of heart transplant patients, each with limitations. Screening transthoracic echocardiography focusing on indices of systolic and diastolic dysfunction, along with regional wall abnormalities, has been shown to have poor sensitivity and does not effectively discriminate between patients with and without rejection. Newer echocardiographic parameters including myocardial performance or diastolic velocity indices may be a better means of detecting subtle changes in cardiac function in the setting of heart transplant, but these tools are most helpful after the insult caused by rejection has already occurred. Hemodynamic changes measured during heart catheterization have also been evaluated as a means of detecting rejection. Rosenthal et al found that although there were statistically significant differences between patients with higher or lower grades of rejection scores, heart catheterization did not permit effective discrimination of patients with moderate to severe rejection. Heart biomarkers, including c-reactive protein, brain natriuretic peptides, and troponin, have been studied as non-invasive measures of determining heart dysfunction or rejection. These surrogates are weakly associated with different rejection grades on biopsy and have a poor predictive capacity for biopsy-detected rejection3. Recently, microarray technology has been used to screen for genes expressed in heart allograft rejection using peripheral leukocytes from blood samples obtained at the time of endomyocardial biopsy. This technique was shown to have a high negative predictive value for the diagnosis of acute cellular rejection but it is unable to detect low grades of rejection4. Overall, these technologies are limited in the ability to consistently and accurately predict the presence of rejection and have low positive predictive values when compared to biopsy. The current gold standard in detection of rejection is the use of endomyocardial biopsy. Attaining these samples is invasive and long term repeated central venous access can be difficult. Risk of endomyocardial biopsy includes perforation leading to cardiac tamponade, arrhythmias including atrial fibrillation, pneumothorax, hemothorax, and valvular regurgitation secondary to rupture of chordae or damage to valve leaflets themselves. There is variability in pathological interpretation of histologic grades, especially at higher grades of rejection due to the difficulty in interpretation of nodular infiltrates. The 2005 revised ISHLT grading system has simplified the grading system of cellular rejection and now includes assessment of antibody mediated rejection. This may improve the utility of endomyocardial biopsy, but much controversy still exists on the method of grading rejection and its clinical implications. Thus, the development of a noninvasive, relatively inexpensive method that accurately predicts the presence of rejection is critical. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02109575
Study type Observational
Source Medical College of Wisconsin
Contact
Status Completed
Phase
Start date March 1, 2014
Completion date March 30, 2020

See also
  Status Clinical Trial Phase
Completed NCT02122198 - Vascular Mechanisms for the Effects of Loss of Ovarian Hormone Function on Cognition in Women N/A
Completed NCT02502812 - Bioequivalence Study of Clopidogrel 75 mg in Two Tablet Formulations Relative to Reference Tablet in Healthy Subjects Phase 1
Recruiting NCT04216342 - Safety, Tolerability, Pharmacokinetics and Pharmacodynamics of Fx-5A in Healthy Volunteers Phase 1
Completed NCT03654313 - Single and Multiple Ascending Doses of MEDI6570 in Subjects With Type 2 Diabetes Mellitus Phase 1
Completed NCT03646656 - Heart Health Buddies: Peer Support to Decrease CVD Risk N/A
Completed NCT02081066 - Identification of CETP as a Marker of Atherosclerosis N/A
Completed NCT02147626 - Heart Health 4 Moms Trial to Reduce CVD Risk After Preeclampsia N/A
Not yet recruiting NCT06405880 - Pharmacist Case Finding and Intervention for Vascular Prevention Trial N/A
Recruiting NCT03095261 - Incentives in Cardiac Rehabilitation N/A
Completed NCT02589769 - Effects of Reduction in Saturated Fat on Cholesterol and Lipoproteins in Lean and Obese Persons N/A
Not yet recruiting NCT02578355 - National Plaque Registry and Database N/A
Completed NCT02998918 - Effects of Short-term Curcumin and Multi-polyphenol Supplementation on the Anti-inflammatory Properties of HDL N/A
Completed NCT02711878 - Healing Hearts and Mending Minds in Older Adults Living With HIV N/A
Completed NCT02868710 - Individual Variability to Aerobic Exercise Training N/A
Recruiting NCT02885792 - Coronary Artery Disease in Patients Suffering From Schizophrenia N/A
Completed NCT02657382 - Mental Stress Ischemia: Biofeedback Study N/A
Completed NCT02640859 - Investigation of Metabolic Risk in Korean Adults
Completed NCT02652975 - Anticancer Treatment of Breast Cancer Related to Cardiotoxicity and Dysfunctional Endothelium N/A
Completed NCT02272946 - Effect of IL--1β Inhibition on Inflammation and Cardiovascular Risk Phase 2
Recruiting NCT02265250 - Pilot Study-Magnetic Resonance Imaging for Global Atherosclerosis Risk Assessment