GRIPonMASH received significant EU funding to improve prevention and care of Metabolic dysfunction-Associated SteatoHepatitis (MASH)

New European project aims to improve tools and advice to prevent chronic liver illnesses.

Utrecht, The Netherlands, 05-02-2024

GRIPonMASH, a newly founded consortium consisting of 27 European institutions and companies, has bundled resources to bring about a transformational change in the detection and treatment of Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD). Supported by the Innovative Health Initiative Joint Undertaking (IHI JU), the consortium will focus on developing the GRIPonMASH Diagnostic Platform which will allow early detection of patients with MASH, better patient stratification and personalized lifestyle advice.

Thirty percent of the world population suffers from Steatotic Liver Disease of which MASLD is one of
the clinical presentations. Of these patients, about one in five will develop MASH, an advanced
stage of MASLD in which liver inflammation occurs and the liver becomes severely damaged.
Moreover, five percent will develop fibrotic MASH (liver scarring). Whilst MASLD is reversible, MASH
and especially fibrotic MASH lead to irreversible complications and could even lead to liver
decompensation or liver cancer. It is expected that by 2030, MASH will be the leading cause of liver
transplants worldwide. Early detection of the disease is vital to ensure that the burden on care is
lowered, and that patients can recover from MASH before it becomes chronic or even fatal.

The consortium

The consortium consists of 27 parties from all over Europe. They will be working closely together for
the next four years to ensure the success of GRIPonMASH. The research was initiated by Julius
Clinical, a spin-out of the University Medical Center Utrecht (UMCU) in the Netherlands. Together with UMCU and Echosens, they will be coordinating the project.

The GRIPonMASH platform

The 26-million-euro project will address the unmet public health need of reducing disease burden
and comorbidities associated with MASLD by designing and optimizing a sustainable and scalable
GRIPonMASH diagnostic platform.
The platform will provide:

  • Screening, diagnosis, management and long-term follow-up of MASH high-risk patients to
    ensure early detection
  • Development of decision support tools and testing of existing and novel biomarkers for the
    detection of MASH patients through artificial intelligence-based decision support tools
  • Development of non-invasive alternatives to diagnostic liver biopsies
  • Assessment and personalization of lifestyle advice based on factors like physical activity, diet,
    sleep, smoking, alcohol consumption, and perception of stress


“We believe that by creating early detection and diagnosis of MASH, we can improve many lives.
Not just patients that go undiagnosed and only find out when it’s too late, but also healthcare professionals who can now focus on early treatment through proven lifestyle interventions”
, said Prof. Dr. Manuel Castro Cabezas, scientific director and (together with Prof. Dr. D.E. (Rick) Grobbee) co-founder of GRIPonMASH.

“To be able to early detect and diagnose MASH, we need clear tools to diagnose and solid
information for primary and secondary healthcare providers but also for patients. MASH is a disease
caused by lifestyle and can luckily be reversed by changing habits. If we make sure this happens
sooner, we can prevent a lot of unnecessary harm”
, said Prof Oscar H. Franco, MD Principal Investigator of GRIPonMASH.

For questions, please contact:

Project Management Office

gr********@um********.nl

This project is supported by the Innovative Health Initiative Joint Undertaking (IHI JU) under grant agreement No 101132946. The JU receives support from the European Union’s Horizon Europe research and innovation programme and COCIR, Efpia, EuropaBio, MedTech Europe, Vaccines Europe and Mercodia Aktiebolag, Metadeq Limited and Julius Clinical Research BV. Funded by the European Union, the private members, and those contributing partners of the IHI JU.

Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the aforementioned parties. Neither of the aforementioned parties can be held responsible for them. www.ihi.europa.eu