OGeS has entered into a number of collaborations to develop targeted medicines and diagnostics based on its unique OGAP®
database which enables the identification of best in class targets and biomarkers.
2007
OGeS has entered into a strategic collaboration with Amgen to discover, develop and
commercialise novel therapeutic antibodies for the treatment of cancer. This new
collaboration will enable OGeS to further strengthen its pipeline of fully human therapeutic
antibodies in cancer based on the target discovery capabilities of its unique OGAP
®
database.
OGeS has entered a three way arrangement with Medarex Inc. and Biosite Inc. This unique agreement extends OGeS
discovery & development capabilities to allow it to build its own pipeline of therapeutic antibodies. Biosite will carry out
the early stage antibody generation on behalf of OGeS using Medarex’ proprietary transgenic mouse technology under
a license agreement.
OGes also extended its collaboration with Biosite to cover the development of a novel blood based diagnostic
for ovarian cancer. This agreement follows an initial collaboration signed in 2006 in the field of colorectal cancer.
2006
OGeS and Medarex Inc. formed a strategic collaboration to discover and develop new human antibody therapeutics for
the treatment of cancers including colorectal cancer (CRC). The collaboration provides for OGeS and Medarex to discover,
develop and commercialize therapeutic antibodies on a 50:50 basis.
OGeS signed a collaboration with Biosite
® Inc. for the evaluation of protein-based disease markers for colorectal cancer.
The markers could be used for the development of potential blood-based diagnostic products aimed at expanding personalised
therapeutic options for colorectal cancer. In particular, these blood-based diagnostics would be designed to enable the
early identification of colorectal cancer patients that have relapsed, thus enabling clinicians to select the most appropriate
therapeutic option.
OGeS collaborates with the Oxford University-GE Healthcare consortium to develop a range of novel molecular tools that will
allow earlier detection of colorectal cancer (CRC). The goal is to improve staging and selection of individual CRC patients
who will most benefit from chemotherapy.
