£30M study paves the way for new treatments for people with cirrhosis

The most extensive clinical study into liver cirrhosis ever conducted worldwide has been announced by Newcastle University, University of Edinburgh and leading research-driven global biopharmaceutical company, Boehringer Ingelheim.

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Professor Quentin Anstee in lab with scientists

The ADVANCE (Accelerating Discovery: Actionable NASH Cirrhosis Endpoints) study will be the most detailed observational study of its kind enrolling the largest number of patients and providing a detailed analysis of liver health. This will not only enhance the understanding of NASH cirrhosis, but also help to identify translational biomarkers that will accelerate the development of future therapies.

Approximately 444 million people worldwide are estimated to live with a condition referred to as nonalcoholic or metabolic dysfunction-associated steatohepatitis (NASH/MASH), an inflammatory liver disease that is caused by accumulation of fat in the liver. Over time, NASH causes the formation of scar tissue leading in many cases to liver cirrhosis. This can result in serious complications, including liver failure or liver cancer and may result in the patient needing a liver transplant. Currently there are no approved medicines for cirrhosis and so there is an urgent need for earlier diagnosis and new medicines to prevent MASH cirrhosis progression to liver failure, or to reverse the scarring of the liver once cirrhosis is established.

This £30M study is funded by Boehringer Ingelheim and reflects the company’s commitment to improve the lives of people living with cardiovascular, renal and metabolic diseases (CRM). The study will be led by researchers at Newcastle University and the University of Edinburgh, along with collaborators across Europe.

Professor Quentin Anstee, Professor of Experimental Hepatology at Newcastle University and Consultant Hepatologist at Newcastle Hospitals NHS Foundation Trust who is coordinating the global study explained; 

We aim to work out why, even at the most advanced stages of liver disease, there is substantial variation in how the disease progresses with some people remaining well for many years whilst others rapidly experience liver failure or develop liver cancer. Working internationally with our collaborators, we will then use this knowledge to improve how patients are diagnosed, and to help develop new medicines.

Professor Quentin Anstee
Professor of Experimental Hepatology at Newcastle University and Consultant Hepatologist at Newcastle Hospitals NHS Foundation Trust

 Professor Neil Henderson co-lead's on the study and his team is being supported by Edinburgh Innovations, the University’s commercialisation service;

Liver disease has reached epidemic proportions worldwide. Therefore, there is a huge need to develop potent, new treatments for liver scarring. To help address this, over the last several years we have harnessed a new technology in Edinburgh called single cell RNA sequencing. Using this new technology has allowed us to study human liver scarring in high definition for the first time, and we hope that this state-of-the-art approach will allow us to accelerate the discovery of much-needed new treatments for patients with liver disease.

Professor Neil Henderson
Professor of Tissue Repair and Regeneration at the University of Edinburgh

Cardiovascular, renal, and metabolic diseases are the leading cause of death worldwide, accounting for up to 20 million deaths annually,”

At Boehringer Ingelheim we are focusing on understanding the whole patient and how to target specific disease mechanisms to address interconnected CRM diseases. We are very excited to work with our partners in the ADVANCE study to better understand the underlying disease processes and to bring much needed new treatments to patients with liver cirrhosis.

Lykke Hinsch Gylvin, M.D.
Chief Medical Officer at Boehringer Ingelheim

The study will include 200 patients with cirrhosis. Participating patients will be recruited at specialist liver clinics at hospitals across the UK and Europe or through referral by their treating physician. This study will enrol patients, who have been diagnosed with or are thought to be at risk of advanced fibrosis or cirrhosis due to fatty liver disease (Metabolic-dysfunction Associated Steatotic Liver Disease (MASLD), formerly termed Non-Alcoholic Fatty Liver Disease (NAFLD)).

Participants will initially undergo a biopsy to collect a small sample of liver tissue so that detailed changes in gene expression in the liver can be assessed using advanced scientific techniques. They will then have blood tests and state-of-the-art MRI scans performed at regular time points over the next two years. The data generated will be combined to allow researchers to see how disease-related changes evolve in the body as cirrhosis progresses.

The international research consortium is led by doctors at Newcastle University (UK) and Edinburgh University (UK), working closely with scientists at Boehringer-Ingelheim, and includes specialist doctors and researchers at universities and hospitals across Europe from Antwerp University Hospital (Belgium), Assistance Publique Hopitaux de Paris (France), Edinburgh Royal Infirmary (UK), Newcastle upon Tyne Hospitals NHS Trust (UK), University of Seville (Spain), University of Turin (Italy), and Vall d'Hebron University Hospital (Spain).

Anyone interested in taking part should discuss it with their treating physician.

Yvonne’s story

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Yvonne Grey

Retired primary school headteacher, Yvonne Gray, was diagnosed with the liver disease MASLD more than a decade ago.

The 68-year-old, from Sunderland, is a governor of the national adult liver patient charity group, LIVErNORTH, and strongly supports the ADVANCE study.

When I was diagnosed with my liver disease back in 2010, not much was generally known about MASLD, let alone any research being done into it.  

“Although very common, MASLD is a largely silent disease that sneaks up on patients. Apart from fatigue and a constant discomfort in the upper right side of my abdomen, I was only aware of symptoms of my other conditions, not realising that my, so far undiagnosed, liver disease was progressing.

“I had ‘mild changes' in my liver function blood tests and was only referred to a liver specialist after another consultant, dealing with my other conditions, asked for their opinion. Following a biopsy, I was shocked to be told my liver was at stage three of a four stage disease - the fourth stage being cirrhosis.

“I am excited and relieved that this research offers hope of better diagnostic tests so people are identified sooner, and at the possible discovery of new treatments that could prevent cirrhosis, or even reverse it.

Yvonne Gray
Governor of the national adult liver patient charity group, LIVErNORTH

 As an active member of LIVErNORTH, and the mother of a 39-year-old daughter, who has recently been diagnosed with MASLD, Yvonne is keen to get more patients involved in research to help raise awareness and find better treatments.

I am so appreciative, grateful, and lucky that I live in a region where world-leading research into MASLD is being undertaken by Newcastle University.  “I would encourage all liver patients to discuss getting involved in this innovative research with their own doctors.

Yvonne Gray
Governor of the national adult liver patient charity group, LIVErNORTH

About Boehringer Ingelheim

Boehringer Ingelheim is working on breakthrough therapies that transform lives, today and for generations to come. As a leading research-driven biopharmaceutical company, the company creates value through innovation in areas of high unmet medical need. Founded in 1885 and family-owned ever since, Boehringer Ingelheim takes a long-term, sustainable perspective. More than 53,000 employees serve over 130 markets in the two business units Human Pharma and Animal Health.

Learn more by visiting their website

About ADVANCE

ADVANCE will track the course of advanced liver cirrhosis to discover why some but not all patients experience liver failure or go on to develop cancer. The aim is to find new treatment targets to enable earlier diagnosis and the development of novel, more precise and effective treatments to improve patient outcomes.