CONFIRM: Validating Novel, Non-contrast Cardiac MRI Imaging in Haemodialysis Patients

Sponsor

University of Leicester (Other)

Overall Status

Recruiting

CT.gov ID

NCT03586518

Collaborator

University Hospitals, Leicester (Other), St George's, University of London (Other)

Enrollment

Location

44.9

Anticipated Duration (Months)

0.2

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

There are currently no good ways of measuring levels of scarring in the hearts of patients with advanced kidney disease and patients on dialysis, although recent research has shown a new cardiac MRI technique, called native T1 mapping, may provide a solution to this. To assess the accuracy of this novel technique in dialysis patients, it is essential to undertake a study which compares native T1 mapping to actual levels of scarring in the hearts of patients on dialysis.

Condition or Disease	Intervention/Treatment	Phase
End Stage Kidney Disease Fibrosis Myocardial	Diagnostic Test: Cardiac MRI scan Diagnostic Test: Echocardiogram Procedure: Cardiac explantation Diagnostic Test: 48-Hour continuous cardiac monitoring Diagnostic Test: Blood samples

Detailed Description

Native T1 mapping is a novel, non-contrast, cardiac MRI technique that characterises myocardial tissue by exploiting the different water content of tissues. It correlates well with histo-pathological levels of myocardial fibrosis in diseases of pressure overload such as aortic stenosis. There is growing evidence to demonstrate the potential of native T1 mapping as an imaging biomarker of myocardial fibrosis in patients with ESRD; myocardial native T1 values are higher in patients with ESRD than controls, and associate with measures of myocardial strain and circulating markers of cardiac dysfunction. Although native T1 times are affected by water content of tissues, our group has shown that native T1 times are not influenced by clinical changes in fluid status in HD patients and that the inter-study reproducibility and intra- and inter-observer variability of native T1 are outstanding.

Native T1 mapping is a promising, non-invasive imaging biomarker of myocardial fibrosis in patients with advanced renal disease. It is essential that the technique is validated against histology before further use in clinical studies.

The aim of this study is to directly assess the relationship between native T1 mapping and levels of MF examined at post-mortem in haemodialysis patients.

Study Design

Study Type:

Observational

Anticipated Enrollment :

9 participants

Observational Model:

Cohort

Time Perspective:

Prospective

Official Title:

Validating the Accuracy of Novel, Non-contrast, Cardiac Magnetic resOnaNce Imaging in Defining Myocardial FIbRosis in Patients With End-stage Renal Disease on haeModialysis: the CONFIRM Study

Actual Study Start Date :

Nov 3, 2019

Anticipated Primary Completion Date :

Jul 31, 2023

Anticipated Study Completion Date :

Jul 31, 2023

Arms and Interventions

Arm	Intervention/Treatment
Haemodialysis patients The plans for patient recruitment were developed in partnership with our local haemodialysis patient participation and involvement group. Patients will be identified from the supportive care register established for haemodialysis patients in Leicester in 2008. Inclusion: Prevalent haemodialysis patient (more than 3 months) Active on the supportive care register with anticipated death in the subsequent 12 months Able to give informed consent Consent to donation of heart for research following death Able to understand written and verbal explanations in English Exclusion: Contraindication to MRI scan (e.g. pacemaker, incompatible metallic implants, claustrophobia) Patients with expected or potential infiltrative cardiomyopathy (e.g. amyloidosis) Unable to give informed consent Unable to understand written and verbal explanations in English	Diagnostic Test: Cardiac MRI scan A non-contrast cardiac MRI (CMR) scan at 3-Tesla platform (Skyra, Siemens Medical Imaging, Erlangen, Germany). This non-contrast CMR scan will principally determine: Left ventricular (LV) mass and volumes/ejection fraction and; fibrosis using T1 mapping. Other Names: CMR Diagnostic Test: Echocardiogram Assessments will include: LV size and function as per the American Society of Echocardiography guidelines. In addition specific focus will be paid end-diastolic integrated backscatter measurements. Other Names: ECHO Procedure: Cardiac explantation A limited post-mortem will be performed to retrieve patients' hearts for preparation and storage at St George's University, London where direct comparison will be made between levels of scarring seen directly under the microscope between that on the MRI scans. Diagnostic Test: 48-Hour continuous cardiac monitoring Attach continuous Holter monitor (Schiller, medilog®AR12 plus/AR4 plus/FD5 plus, Baar, Switzerland) that will start before dialysis and terminate just before the subsequent dialysis treatment 48h later. Other Names: Holter Diagnostic Test: Blood samples Collect blood samples from the arterial needle before dialysis. Approximately 30 millilitres of blood will be collected and then be pipetted into cryotubes and frozen at -80°C in an electronically monitored freezer for analysis in batches throughout the study. These samples will be used to investigate the relationship between circulating biomarkers of fibrosis, the MRI scans and the histological samples.

Arm

Intervention/Treatment

Haemodialysis patients

The plans for patient recruitment were developed in partnership with our local haemodialysis patient participation and involvement group. Patients will be identified from the supportive care register established for haemodialysis patients in Leicester in 2008. Inclusion: Prevalent haemodialysis patient (more than 3 months) Active on the supportive care register with anticipated death in the subsequent 12 months Able to give informed consent Consent to donation of heart for research following death Able to understand written and verbal explanations in English Exclusion: Contraindication to MRI scan (e.g. pacemaker, incompatible metallic implants, claustrophobia) Patients with expected or potential infiltrative cardiomyopathy (e.g. amyloidosis) Unable to give informed consent Unable to understand written and verbal explanations in English

Diagnostic Test: Cardiac MRI scan

A non-contrast cardiac MRI (CMR) scan at 3-Tesla platform (Skyra, Siemens Medical Imaging, Erlangen, Germany). This non-contrast CMR scan will principally determine: Left ventricular (LV) mass and volumes/ejection fraction and; fibrosis using T1 mapping.

Other Names:

CMR

Diagnostic Test: Echocardiogram

Assessments will include: LV size and function as per the American Society of Echocardiography guidelines. In addition specific focus will be paid end-diastolic integrated backscatter measurements.

Other Names:

ECHO

Procedure: Cardiac explantation

A limited post-mortem will be performed to retrieve patients' hearts for preparation and storage at St George's University, London where direct comparison will be made between levels of scarring seen directly under the microscope between that on the MRI scans.

Diagnostic Test: 48-Hour continuous cardiac monitoring

Attach continuous Holter monitor (Schiller, medilog®AR12 plus/AR4 plus/FD5 plus, Baar, Switzerland) that will start before dialysis and terminate just before the subsequent dialysis treatment 48h later.

Other Names:

Holter

Diagnostic Test: Blood samples

Collect blood samples from the arterial needle before dialysis. Approximately 30 millilitres of blood will be collected and then be pipetted into cryotubes and frozen at -80°C in an electronically monitored freezer for analysis in batches throughout the study. These samples will be used to investigate the relationship between circulating biomarkers of fibrosis, the MRI scans and the histological samples.

Outcome Measures

Primary Outcome Measures

Correlation between MRI and histological measures of cardiac fibrosis [Cardiac MRI performed within 12-months of histological samples obtained post-mortem]
To assess the correlation between native T1 values measured using cardiac MRI in haemodialysis patients approaching the end of their lives, with histological samples analysed post-mortem.

Secondary Outcome Measures

Accuracy of MRI versus ECHO in the measurement of cardiac fibrosis [Echocardiograms performed within 12-months of histological samples obtained post-mortem]
Relationship between integrated backscatter (measured with echocardiography) and levels of myocardial fibrosis on histology measured at post-mortem.
Relationship between cardiac fibrosis and heart rhythm [Continuous Holter recording performed within 12-months of histological samples obtained post-mortem]
Relationship between continuous Holter-monitor data and levels of myocardial fibrosis on histology measured at post-mortem.
Correlation between cardiac fibrosis and relevant circulating biomarkers [Samples collected within 12-months of histological samples obtained post-mortem]
Relationship between humoral markers of cardiac dysfunction of fibrosis and levels of myocardial fibrosis on histology measured at post-mortem
Additional cardiac MRI techniques and the measurement of cardiac fibrosis [Cardiac MRI performed within 12-months of histological samples obtained post-mortem]
The relationship between additional, non-contrast CMR techniques and histology at post-mortem

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Inclusion Criteria:

Prevalent haemodialysis patient (more than 3 months)
Active on the supportive care register with anticipated death in the subsequent 12 months
Able to give informed consent
Consent to donation of heart for research following death
Able to understand written and verbal explanations in English

Exclusion Criteria:

Contraindication to MRI scan (e.g. pacemaker, incompatible metallic implants, claustrophobia)
Patients with expected or potential infiltrative cardiomyopathy (e.g. amyloidosis)
Unable to give informed consent
Unable to understand written and verbal explanations in English