Methacetin Breath Test in Patients With Liver Disease Secondary to Heart Disease — MBT+Fontan  

Dilated Cardiomyopathy Clinical Trial

Official title: Non-invasive Assessment of Liver Function in Patients Undergoing Heart and Liver Transplant Evaluation

Status Terminated

Clinical Trial Summary

The aim of this project is assess a non-invasive functional liver tests in patients with the Fontan circulation that may be used for prognostic purposes. Specifically, we aim to determine whether there are alterations in Methacetin Breath Test (MBT) in the Fontan patient and if so, whether it is related to conventional tests of liver and cardiac function. The hypothesis is that MBT CPDR 20 in the Fontan patient is abnormal as a result of alterations in liver perfusion, liver cell metabolic capability and transhepatic resistance secondary to hemodynamics unique to the Fontan as well as end-organ liver damage. Due to lack of robust biomarkers or other risk stratification schemes, we aim to determine whether there is prognostic value in hepatic MBT CPDR 20 in the Fontan patient. Aims - The aims of this study are three-fold: 1. To measure MBT parameter in a cohort of patients with Congestive (Dilated) Cardiomyopathy and a group of Fontan patients and compare results to published normal controls. 2. To explore any association between MBT parameter and clinical parameters already available, including Fontan hemodynamics as assessed by either of the following tests: cardiac catheterization, echocardiography, non-invasive imaging of the liver (CT or MRI), non-invasive assessment of liver stiffness (ARFI, MRE or Fibroscan), laboratory investigations, and clinical characteristics (i.e. age of patient, time since Fontan operation, type of Fontan etc.) within 12 months of the study. 3. To determine whether MBT is predictive of clinical outcomes: heart failure, clinically significant ascites, and time to transplant or death.

Clinical Trial Description

Research Design and Methods Study Design: This is a prospective pilot cohort study in 20 patients with Dilated Congestive Cardiomyopathy (10) and a group of adult Fontan (10) recruited from an adult congenital heart disease clinic in a tertiary care center. Patients enrolled in the study will be prospectively followed for 3-5 years. Study Timelines: We anticipate that it will take approximately 2 years to recruit patients who are to be included in this study. Patient will followed 3-5 years. However due to covid 19 issues recruitment did not go as planned and due to this delay we had to end study early. Since study terminated early, subjects will not be followed 3-5 years. Study Endpoints: The aim of this project is assess a non-invasive functional liver tests in patients with the Fontan circulation that may be used for prognostic purposes. PROCEDURES INVOLVED: Methods Screening and consent Eligible patients will be screened and recruited through the outpatient Hepatology Clinic, Heart Failure Clinic and the Adult congenital heart disease clinic. They will be approached the day of the scheduled outpatient appointment by the PI or a study coordinator in a private room. Informed consent will be obtained by the principal investigator, a sub-investigator or a member of the study team who is authorized to give consent. This will allow the potential subject sufficient opportunity to consider whether or not to participate and this will minimize the risk of influence or coercion. The subject will be informed of what the research entails. Any foreseeable risks or discomforts will be discussed with the subject. The protection of confidentiality will be discussed with subjects as well as the subject will be given the name(s)/number(s) of persons to contact should they have any further questions before signing the informed or consent or once they have enrolled in the study. It is reiterated to the subject that participation is voluntary and not participating will not affect present or future medical care. The subject will ask and have answered any and all questions before signing the informed consent. The subject is given a signed copy of the informed consents(s) and HIPAA authorization(s). MBT testing The ¹³C-Methacetin Breath Test (MBT) is a non-invasive test for assessing liver metabolic function. The BreathID® MCS System consists of the BreathID® MCS device and a test kit containing a breath collection cannula and a non-radioactive isotope 13C-Methacetin solution. It measures and computes the ratio between 13CO2 and 12CO2 in the patient's exhaled breath. The components of the MBT system include the (1MBT BreathID® MCS unit; (2 13C-Methacetin solution. A dedicated flash memory stick for automatic raw data download will be provided to all participating investigative sites. All components of the MBT system will be provided by Exalenz Bioscience Ltd., The MBT BreathID® MCS Unit Exalenz Bioscience Ltd. has developed a molecular correlation spectrometer, based on specific optical-radiation emission and absorption by 13CO2 and 12CO2 gases. This device continuously senses exhaled breath and analyzes CO2 in real-time through a breath collection cannula connected to the patient. Based on Molecular Correlation Spectrometry (MCS), the BreathID® MCS device continuously measures 13CO2 and 12CO2 concentrations from the patient's breath and establishes the 13CO2/ 12CO2 ratio. The cannula continuously transports the breath sample from the patient to the BreathID® MCS device. Depending upon the status of the patient, the cannula may be nasal (for conscious patients) or an adaptor may be used for connection to the ALF-MBT Protocol Page 15 Version 2.0 (19Nov2015) Confidential respiratory line (for intubated patients). Results are displayed in real time on the device screen and are printed after the completion of the test. The BreathID® MCS device calculates the delta over baseline (DOB), which can be translated into the percent dose recovery (PDR) and the cumulative percent dose recovery (CPDR) for each time point derived from the ratio difference compared to baseline (normalized/adjusted to the patient's body weight and height as well as substrate dose) throughout the course of the test. The maximum value of the PDR is called the PDRPeak. The 13C-Methacetin metabolism begins almost immediately since liquid passes through the stomach to the duodenum, where it is absorbed, without delay. The default breath collection test time is one hour after ingestion of 13C-Methacetin. The light sources are 13CO2 and 12CO2 discharging lamps. By using 13CO2 and 12CO2 discharging lamps as light sources, light absorption will be solely due to the existence of 13CO2 and 12CO2 in the gas mixtures. Furthermore, by using 13CO2 and 12CO2 discharging lamps as light sources, background radiation will be substantially reduced, leading to highly sensitive absorption curves. These highly sensitive absorption curves enable detection of very small variations in 13CO2 and 12CO2 concentrations and the 13CO2/ 12CO2 ratio. The BreathID® MCS System can detect variations of less than 1/1000 in the 13CO2/ 12CO2 ratio measurement. The actual breath collection is automatically done by the device and is not operator dependent. If the patient is not connected properly (e.g. the breath does not reach the device), the BreathID® MCS device will prompt the operator to adjust the nasal cannula. The cannula transports the breath sample from the patient to the BreathID® MCS device. The cannula test kit is a single-use kit and is comprised of a plastic sampling line with an in-line hydrophobic filter (used to reduce the amount of moisture present from the patient's breath) and a Luer-lock connector for connection to the BreathID® MCS device. The device is designed to accommodate an extended range of respiratory rates. 3.3.3 13C-Methacetin Exalenz Bioscience Ltd. will supply a ready to use, non-radioactive isotope ¹³C-Methacetin solution for single-use oral administration (75 mg in 150 ml purified water), dispensed in thermoplastic polyester (PTE) bottles sealed with a plastic child resistant stopper. The ¹³CMethacetin solution can be administered via typical oral. 13C-Methacetin meets all of the qualifications for a liver function test substrate: it is a nontoxic small molecule; is administered orally; is rapidly absorbed; and is exclusively metabolized by the liver. Furthermore, 13C can be easily synthesized into a key location within this molecule. No related adverse events have been reported when using this substance, including in vulnerable populations, and the compound remains stable over time. The 13C-Methacetin substrate is a well-known diagnostic reagent that has been described in the literature and used for over 30 years by researchers around the world. ¹³C-Methacetin is rapidly absorbed and metabolized by the hepatic mixed function oxidase, via O-demethylation. This process is carried out by hepatic cytochrome P450 enzymes that produce two products, acetaminophen and formaldehyde, which is transformed through two successive oxidative steps to 13CO2. Toxicology testing results in animals and other clinical information support the safe use of Methacetin in humans. Based on the acute toxicity studies in mice and rats where relatively high LD50 values of 1190mg/kg were administered, the Methacetin dose administered in human breath tests in adults of 75 mg, or approximately 1mg/kg, has a safety ratio in excess of 1000- fold (10). There have been no reports of any complications with the use of this substance in over 2500 patients tested worldwide (see IDE filing). The main metabolite of Methacetin is acetaminophen which has wide routine clinical use at much higher doses than orally administered dose of 13C-Methacetin of 75mg used in this study Risk Based Monitoring: To ensure compliance with GCP, local regulations and scientific integrity, monitoring of this trial will be managed and oversight retained by the Sponsor or designee. Requirements for Administration of Substrate: Fasting Subjects will perform the breath test once enrolled into the trial and when the following criteria have been met: - Oral administration of substrate: The subject should be fasting from solid food for a minimum 6 hours and from oral medications for a minimum of 1 hour - Subject has not ingested acetaminophen-related medications (e.g. Tylenol) within the past 24 hours (subjects with acetaminophen intoxication may be included 24 hours after ingestion). - Subject has not had any products containing caffeine for 24 hours. - Subject has not received general anesthesia in the last 24 hours. Performance of the Breath Collection will be performed after the substrate is administered to the subject; no waiting period is required once the substrate has been administered. Breath is collected automatically via a nasal cannula for a total of 75 minutes (up to 15 minutes for baseline measurement and 60 minutes following ingestion of Methacetin). All test-specific equipment will be supplied by Exalenz Study Feasibility: The Clinical Research Unit will provide essential resources for the conduct of the proposed research. Study coordinator already experienced form other studies with the Breath ID machine and protocol will be required for administration of the test. Subjects are expected to spend approximately 2 hours in the CRU for administration of MBT test. Study Limitations: One major limitation to this study is the unknown ability to correlate MBT with various clinical data, specifically variables derived from cardiac catheterization, if not available. Cardiac output, which is measured by cardiac catheterization, is a determinant of hepatic blood flow and likewise, Fontan pressure can influence hepatic perfusion. Cardiac catheterizations are not routinely performed in healthy Fontan patients and any analysis using this variable represents a selection bias towards a symptomatic and potentially sicker subgroup. There is merit in adding a non-invasive test like MBT when looking at FALD patients, given the difficulty to predict liver outcome in these patients. ;

Related Conditions & MeSH terms

• Cardiomyopathies
• Cardiomyopathy, Dilated
• Dilated Cardiomyopathy
• Tricuspid Atresia

• NCT number: NCT04176458
• Study type: Interventional
• Source: Northwestern University
• Status: Terminated
• Phase: N/A
• Start date: April 21, 2019
• Completion date: March 19, 2021