Every person is unique.So is every cancer. Explore 250 types of cancer 1 Explore 350 genes that contribute to cancer development 2 Explore 100000 mutations (approx.) found in some types of lung cancers3 Explore 1 unique cancer profile Advances in genomic testing are driving the personalisation of cancer care and helping physicians understand patients’ unique cancer types. Cancer used to be categorised mainly according to its location in the body (e.g. lung, breast, liver). Depending on the stage of the disease, many patients with a particular tumour type were treated uniformly with chemotherapies. But even if the tumour location is the same, the DNA changes that caused the cancer may be different, making each cancer unique. Now that scientists understand that cancer is based on changes in a patient’s tumour genome, we can develop medicines that are more personalised, targeted to specific genetic mutations. Genomic testing provides a clearer picture of a patient’s cancer and the results may help physicians identify whether a targeted therapy option is available for a patient’s unique genomic profile. It can also help determine if the patient is a candidate for a clinical trial. Genomic testing is particularly valuable helping patients with late stage, or hard to treat cancers, such as: Lung cancer Rare cancers Cancer with unknown primary location Thanks to genomics, cancer treatment is becoming more personalised than ever before: 1patient 1tumour profile 1treatment plan Genomic profiling is one way we are helping to transform the care of patients and make Personalised Healthcare a reality. Developing targeted treatments is another. Further information Find out more about Personalised Healthcare Find out more about comprehensive genomic profiling References 1. Armengol G, Ramon Y Cajal S. Funnel Factors. In: Schwab M, editor. Encyclopedia of Cancer. 2nd ed. New York: 2008. 2. Stratton MR, Campbell PJ, Futreal PA. The cancer genome. Nature. 2009;458(7239):719-724. 3. Strachan T, Goodship J, Chinnery P. New Insights from Genomewide Studies of Cancers. In: Genetics and Genomics in Medicine. New York and London: 2015.