Institute of Cancer and Genomic Sciences Using fundamental research and the power of genomics to develop better therapies in cancer and other complex diseases.
News TREATWolfram clinical trial to unlock a potential treatment for a rare disease Birmingham is making a real-world impact on rare diseases, with a comprehensive multi-facility network for research helping to find new treatments for patients like those with Wolfram syndrome.
News Stopping the awakening of sleeping Acute Myeloid Leukaemia stem cells to prevent disease relapse
News Cancer Research UK Clinical Trials Unit: Celebrating 40 Years of Funding From Cancer Research UK
05 April 2023 Birmingham team recognised for showing that blood vessel leakiness can identify brain tumours. A multi-centre trial, led by Professor Andrew Peet, has shown measuring brain tumour blood supply in children can indicate tumours that may be more aggressive.
10 March 2023 Novel urine-based test for non-invasive detection of bladder cancer The urine-based molecular test can quickly and accurately detect bladder cancer and streamline diagnosis, reducing the need for invasive cystoscopies.
13 February 2023 Conundrum solved over HPV link with head and neck cancer International analysis has found that discordant results between two types of HPV test linked with worse outcomes for patients
10 February 2023 Scientists reveal the genetic code controlling the development of blood cells from stem cells New study uncovers the information encoded in our DNA required for the transcriptional control of blood cell development from embryonic stem cells
16 January 2023 Experimental cancer therapy research continues at Birmingham New and innovative ways to detect and treat cancer being trialled at Birmingham are to receive renewed funding from Cancer Research UK and the NIHR.
08 December 2022 Birmingham researcher wins three major awards to work on DNA repair Across 2022, Professor Jo Morris, from the Institute of Cancer and Genomics, has secured more than £4.9 million to better understand DNA replication and repair.