Magnetic Resonance Imaging in the Evaluation of Liver Fibrosis (Mrker)

In chronic liver diseases of all aetiology, persistent hepatocyte injury leads to progressive fibrosis and cirrhosis. In the UK, 76 adults per 100,000 population have cirrhosis and its incidence is increasing (Fleming et al., J Hepatol 2008,49,p732-738). Currently, liver biopsy is the only method of assessing the degree of fibrosis. However, liver biopsy is associated with limitations such as sampling error, intra- and inter-observer variations in interpretation and adverse events (Morbidity 1-5% and mortality between 1 in 1,000 to 1 in 10,000), hence considered a 'Silver (rather than Gold) standard'. Assessment of degree of fibrosis is necessary to stage the disease process, determine the timing of intervention and for prognosis.

Development of portal hypertension as a result of progressive fibrosis is a landmark in the natural history of chronic liver diseases as it accounts for majority of complications and clinical outcome. The degree of fibrosis and presence of portal hypertension will determine whether patients are included in surveillance programmes for the early detection of varices and hepatocellular carcinoma. As with assessment of the degree of fibrosis, the presence and degree of portal hypertension can only be determined by transjugular hepatic venous portal pressure gradient (HVPG) measurements, another investigation that is also hampered by access, costs, risks and difficulty of serial measurements.

A variety of evolving techniques using magnetic resonance imaging (MRI) (Talwalkar et al., Hepatology 2008; 47:332-42) if validated and established, have potential to replace liver biopsy and HVPG measurements. The non-invasive nature of MRI, its ability to estimate amount of accumulated fat (1H MR spectroscopy), cell membrane turnover (31P-MRS), iron (relaxometry), fibrosis (MR elastography) as well as an ability to assess portal blood flow and hepatic perfusion (Arterial Spin Labelling (ASL)) make it an ideal tool to evaluate liver structure and function and to stage the liver disease. Most recently, MRI has seen unprecedented developments in terms of accuracy of quantitation and speed of assessment, which has been realised due to data-sharing ultra-fast MRI sequences, multispectral analysis, and refinement of elastography methods. Validation of evolving MRI techniques against liver biopsies, HVPG and metabolomics is a critical step prior to its translation into clinical applications by the creation of MRI biomarkers.