Comparison of Two sTRAtegies For the Non-Invasive Diagnosis of advanCed Liver Fibrosis in NAFLD

Not Applicable

• Conditions: NAFLD
• Interventions: Diagnostic Test: blood tests

• Registration Number: NCT04681573
• Lead Sponsor: University Hospital, Angers

Brief Summary

NAFLD, closely linked to overweight and insulin resistance, has reached 25% prevalence worldwide. Advanced liver fibrosis(ALF) must be accurately diagnosed in NAFLD because it defines a subgroup of patients with impaired prognosis, and these patients need a specific management to prevent the occurrence of liver-related complication. Relatively few NAFLD patients develop ALF and it is a challenge for physicians to identify them.

Liver biopsy is the reference for liver fibrosis evaluation but this invasive procedure cannot be first-line used in NAFLD. Non-invasive diagnosis of liver fibrosis is now available, especially liver stiffness measurement (LSM) with Fibroscan and blood fibrosis tests. However, Fibroscan is a costly device available only in few specialized centres with thus poor accessibility in face of the large NAFLD population. Blood fibrosis tests can be performed by every physician and are distinguished as "complex" or "simple". Because they include specialized biomarkers, complex blood fibrosis tests are accurate for the diagnosis of ALF but they are quite expensive and not reimbursed, with therefore limited use in clinical practice. Simple blood fibrosis tests have the advantage to include cheap and easy-to-obtain biomarkers with simple calculation thanks to free websites or smartphone applications. Simple blood fibrosis tests are globally less accurate than complex blood fibrosis tests or Fibroscan but, used with a high-sensitivity cut-off, they have the high interest of being able to accurately rule out advanced fibrosis in a significant proportion of NAFLD patients.

Recently, two sequential diagnostic procedures have been developed for the diagnosis of ALF with the idea to combine the advantages of the different kind of fibrosis tests: the FIB4-Fibroscan (FIB4-FS) and the eLIFT-FibroMeterVCTE (eLIFT-FMVCTE) algorithms. These algorithms include as first-line procedure a simple blood fibrosis test (FIB4 or eLIFT) which identifies the patients who require a further second-line evaluation with a more accurate non-invasive test (Fibroscan or FibroMeterVCTE). Liver biopsy is finally used as third-line procedure in patients for whom the diagnosis remains undetermined. Such algorithms have the advantage to limit the use of complex fibrosis tests only to a subset of at risk-patients.

The TRAFIC study compare two strategies for the diagnosis of ALF in NAFLD patients: the FIB4-Fibroscan algorithm and the eLIFT-FibroMeterVCTE algorithm

Detailed Description

FIB4-FS and the eLIFT-FMVCTE were previosuly directly compared in a database of biopsy-proven NAFLD patients. These two algorithms showed a very good \>80% diagnostic accuracy for advanced fibrosis and a very low \<15% rate of liver biopsy requirement. The eLIFT-FMVCTE had a significantly higher diagnostic accuracy (84.6% vs 80.6%, p=0.15), was more specific, and provided higher negative and positive predictive value and higher non-invasive diagnostic accuracy. Finally, these preliminary results suggested the eLIFT-FMVCTE was most suitable for clinical practice than the FIB4-FS. However, because almost all these patients from this preliminary comparative study came from the population where the eLIFT-FMVCTE was developed with thus an optimism bias, the results from this direct comparison require further validation.

Therefore, FIB4-FS and the eLIFT-FMVCTE algorithms must now be evaluated and compared in an independent population of NAFLD patients to determine which strategy is the best one for clinical practice.

Study Timeline

• Status Verified: 2020-12
• Study First Submitted: 2020-12-11
• Study First Submitted QC: 2020-12-18
• Last Update Submitted: 2020-12-18
• Study First Posted: 2020-12-23
• Last Update Posted: 2020-12-23
• Study Start: 2021-03
• Primary Completion: 2022-09
• Study Completion: 2022-11

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 1045

Inclusion Criteria

1. Presence of NAFLD as defined by :

   • The presence of liver steatosis as assessed by ultrasonography (bright liver) or magnetic resonance imaging/spectroscopy (fat fraction >5.6%) or Controlled Attenuation Parameter (≥248 dB/m)
   • The absence of steatosis-inducing drugs (systemic corticosteroids, methotrexate, amiodarone, tamoxifen)
   • The absence of excessive alcohol consumption (<210 g/week in men or <140 g/week in women)
   • The absence of other causes of chronic liver disease (chronic viral hepatitis B or C, hemochromatosis, auto-immune hepatitis, primary biliary cholangitis, primary sclerosing cholangitis, Wilson disease alpha-1-antitrypsin deficiency).

2. Age ≥18 years and ≤80 years

3. Affiliated person or beneficiary of a social security regime

4. Written informed consent of the patient who agree to comply with the study protocol.

Exclusion Criteria

1. Decompensated cirrhosis (ascites, variceal bleeding, hepatic encephalopathy, liver failure, hepato-renal syndrome)
2. Hepatocellular carcinoma
3. Inability to safely undergo liver biopsy
4. Participation in other intervention study with drug protocol treatment in progress at the time of inclusion or within one month prior to inclusion in the study.
5. Pregnant, breastfeeding or parturient woman
6. Person restricted by judicial or administrative decision
7. Person under psychiatric care under restraint
8. Person subject to a legal protection measure
9. Person unable to express consent

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Single ARM	blood tests	Only one arm

Primary Outcome Measures

Name	Time	Method
Rate of patients correctly classified for advanced liver fibrosis	2 months	Rate of patients correctly classified for advanced liver fibrosis, with comparison between the FIB4-FS and eLIFT-FMVCTE algorithms

Secondary Outcome Measures

Name	Time	Method
Sensitivity for advanced fibrosis	2 months	Sensitivity for advanced fibrosis, with comparison between the FIB4-FS and eLIFT-FMVCTE algorithms
Parameters influencing the diagnostic accuracy of FIB4-FS and eLIFT-FMVCTE algorithms	2 months	Parameters independently associated by multivariate analysis with the rate of patients correctly classified for advanced liver fibrosis
Effect of the choice of the Fibroscan probe on the diagnostic accuracy of FIB4-FS and eLIFT-FMVCTE algorithms	2 months	Rate of patients correctly classified for advanced fibrosis by the algorithms calculated with either LSMAUTO results (i.e., LSM results obtained with the probe, M or XL, which is automatically detected and recommended by the Fibroscan device), or only LSMM results (i.e., LSM results obtained with the M probe), or only LSMXL results (i.e., LSM results obtained with the XL probe).
Rate of patients correctly classified for advanced liver fibrosis as a function of the prevalence of advanced fibrosis	2 months	Rate of patients correctly classified for advanced liver fibrosis in samples generated by resampling methods with different prevalence of advanced fibrosis (5%, 10%, 15%, 20% and 25%), with comparison between FIB4-FS and eLIFT-FMVCTE algorithms
To validate new biomarkers in a large independent NAFLD population	2 months	AUROC for advanced fibrosis, with comparison between the new biomarkers and existing fibrosis tests