Analysis of Human Gut Microbiome Provides New Opportunities for Liver Cirrhosis Diagnosis and Treatment - Applied Clinical Trials

ADVERTISEMENT

See our 2013 Buyers Guide Digital Edition.
Analysis of Human Gut Microbiome Provides New Opportunities for Liver Cirrhosis Diagnosis and Treatment


Analysis of Human Gut Microbiome Provides New Opportunities for Liver Cirrhosis Diagnosis and Treatment

PR Newswire

PARIS, July 25, 2014 /PRNewswire/ --

New publication in Nature by international research team including Enterome scientific founder Professor Dusko Ehrlich  

ENTEROME Bioscience SA, a pioneer in the development of innovative disease management solutions based on a deep understanding of the gut microbiome, and with a strong focus on liver diseases, highlights the advanced online publication in Nature (ref. 1) of a research paper describing the identification of a unique series of bacterial biomarkers that could provide new opportunities for the development of diagnostics and treatments for liver cirrhosis. The research was conducted by an international team of scientists based at leading academic institutions in France, the UK and China, and included Enterome's scientific founder and Chief Scientific Officer, Professor Dusko Ehrlich.

In the publication, the scientists describe how the balance of gut bacteria seen in healthy individuals is altered in patients with liver cirrhosis, an advanced liver disease for which the only treatment is transplantation. In their studies, the team found that the gut environment is invaded by bacteria more commonly found in the mouth. By quantifying and comparing genetic material isolated from faeces of individuals - a process called 'quantitative metagenomic analysis' or 'Metagenotyping®' - the scientists identified a series of 15 distinct bacterial biomarkers that distinguish between healthy individuals and those with liver cirrhosis.

The discovery of this panel of biomarkers presents the opportunity to develop new diagnostics for identifying liver cirrhosis and for monitoring its severity. Furthermore, such biomarkers could be used to develop new treatments, including probiotics (beneficial bacteria) and drugs, which aim to restore the balance in the gut microbiome to limit disease progression or for the prevention of liver cirrhosis in at-risk individuals who may be developing the disease but not yet showing symptoms.

Professor Ehrlich commented: "Our understanding of the role of the human gut microbiome in health and disease is growing exponentially, with changes in the gut microbiome already being strongly implicated in a range of major metabolic and inflammatory diseases*. Naturally, this is becoming of increasing interest to the healthcare industry and the accurate identification and quantification of these changes offers huge potential for disease diagnosis, monitoring and treatment. The findings described in this paper are very exciting and add further evidence that a detailed understanding of the microbiome can be a powerful tool across many acute and chronic diseases."

*Such diseases include metabolic disorders, such as diabetes and obesity, non-alcoholic fatty liver disease (NAFLD), non-alcoholic steatohepatitis (NASH) and liver cirrhosis; and inflammatory bowel diseases, such as Crohn's disease. 

About Enterome:  

Enterome is pioneering the development of innovative disease management solutions based on a deep understanding of the gut microbiome. Understanding and modifying the changes that occur in the gut microbiome during disease and in response to therapeutic interventions represent an entirely new and untapped opportunity to impact medicine.

Enterome is using its expertise and proprietary Metagenotyping® platform to identify microbiome-based biomarkers and also to screen for microbiome-derived molecules. Biomarkers will be developed as novel diagnostic products to support patient stratification, predicting treatment response and monitoring disease activity as part of personalized therapies, and for the clinical development of new drugs for the treatment of microbiome-related diseases. Microbiome-derived molecules will be developed as drug candidate or drug targets. Enterome is focused on inflammatory bowel diseases and metabolic diseases (liver diseases, diabetes and obesity).

The Company was established in 2012 in Paris, France, and has raised a total of €17.5m from leading venture capital investors (Seventure Partners, Lundbeckfond Ventures & Omnes Capital) and two strategic investors (Danone & Shire).

http://www.enterome.com

 

Reference: 

  1. Qin, N. et al. Alterations of the human gut microbiome in liver cirrhosis. Nature (2014) http://dx.doi.org (doi:10.1038/nature13568)


 

SOURCE Enterome Bioscience

ADVERTISEMENT

blog comments powered by Disqus

ADVERTISEMENT

Survey
As it creates a plan to implement the US biosimilar pathway, should FDA:
Borrow heavily from EMA's pathway program?
Borrow lightly from EMA's pathway program?
Create entirely its own pathway program?
Borrow heavily from EMA's pathway program?
86%
Borrow lightly from EMA's pathway program?
6%
Create entirely its own pathway program?
7%
View Results
Untitled Document

Click here