Notification of Full Year Results Date
Oxford, UK, 20 February 2019: e-therapeutics plc (AIM: ETX, "e-therapeutics"), the network-driven drug discovery (NDD) company, will announce its full year results for the year ended 31st January 2019 on Tuesday, 5th March 2019.
For more information, please contact:
Ray Barlow, Chief Executive Officer
Steve Medlicott, Finance Director
Tel: +44 (0)1993 883 125
Numis Securities Limited
Michael Meade/Freddie Barnfield (Nominated Adviser)
James Black (Corporate Broking)
Tel: +44 (0) 207 260 1000
Simon Conway/Brett Pollard
Tel: +44 (0) 203 727 1000
We are an Oxford, UK-based company with a unique and powerful computer-based drug discovery platform and a specialised approach to network biology.
Our novel network-driven methodology allows us to discover new and better drugs in a more efficient and effective way.
We use our highly productive drug Discovery Engine to develop our own IP-protected, pre-clinical drug discovery programmes which will be of interest to partners looking to acquire or in-license novel and differentiated assets. We are currently developing two programmes in immuno-oncology and have a number of partner-ready projects in areas such as fibrosis and tumour microenvironment.
Because of our novel network-driven drug discovery (NDD) approach, we believe there is potential to enter into several different types of collaborative partnerships with biotech, pharma and other technology companies to create sustainable mutual value.
About Network-Driven Drug Discovery (NDD)
e-therapeutics' proprietary NDD platform comprises a suite of powerful computational tools to augment and interrogate the vast amount of biological information currently available in both public and private databases.
Our NDD platform is founded on sophisticated network science and employs techniques such as machine learning, artificial intelligence (AI) and state-of-the-art data analysis tools. Using our biological expertise, we can create and analyse network models of disease to identify likely proteins that could effectively be disrupted to treat the disease.
We believe that our network-driven approach more realistically reflects the true complexity of disease, with its multiple and often interconnected cellular pathways. By modelling and analysing disease networks and considering the pattern of connections between proteins, and not just single pathways, we more efficiently select the very best drug-like compounds for screening and for subsequent medicinal chemistry and pre-clinical testing. With our novel methodology, significant numbers of active molecules can be identified and tested quickly. Our approach is highly productive and consistently generates hits that have been progressed into potent, selective and novel drug molecules.
Our overall aim is to discover more efficacious drugs more effectively. By using more biologically realistic, cell and tissue-based assays we can choose and design compounds that are more likely to translate into better, more clinically efficacious drugs.