I will happily come back to the hon. Gentleman on licensing. We have discussed this at some length, but I am happy to confirm the situation. There is a very strong legal set of constraints on how we handle licensing, but I will happily write to him to confirm the position.
I would like to respond to the request, by the hon. Member for Lewisham East (Heidi Alexander) from the Opposition Front Bench, to take very seriously the design of the database. I agree. We need to make sure it works well. Datasets are already available, but we need to connect them up better to give clinicians the right information they need. I am absolutely happy to give an undertaking to engage very closely with the medical profession, and all who have taken an interest in the Bill, to ensure this measure has the intended effect. I also give an undertaking to the House that I want to put the patients’ voice right at the heart of this and to invite the Association of Medical Research Charities and others, as we put the proposals together.
I want to take up the point raised by my hon. Friend the Member for Wellingborough (Mr Bone) and update the House on the range of initiatives, which the database will sit in the middle of, that we are putting in place. As the landscape for drug discovery changes profoundly, the Government are intent on making sure the country leads in this new model of personalised, targeted, patient-led research, moving from a world in which a drug is traditionally developed around a notional theoretical target that is normally developed in an academic laboratory and then, if it is lucky, put through a process to raise money and be spun out or partnered. That original target is turned into a drugable target that a pharmaceutical company can make a drug against. The early synthetic chemical compounds are tested against vast libraries. With luck, they are taken through pre-clinical testing and extensive in vitro and in vivo testing. They then go “over the wall” as the industry refers to it, into development to phase 1, phase 2, phase 3 and phase 4 trials, through MHRA and European Medicines Agency safety approval, to NICE for health economic approval and then to the NHS to decide how to best use the drug.
That landscape still works for many drugs and is still the conventional system in which drugs are developed. In truth, however, the breakthroughs in genomics and informatics mean we can, and are, developing a different landscape. That is why the Government are investing in the cell therapy catapult and the precision medicine catapult: so that we lead in academic research, working with industry partners on the new model of personalised and precision medicine. It is why we set up the biomedical catalyst to support quick funding for small companies and academic groups developing key technologies in this space.
It is why I am delighted that we announced, in the autumn statement, ring-fenced funding for the Medical Research Council and the other research councils. That budget is now £700 million a year for leading research around the UK. It is why we confirmed the £1 billion-a-year commitment to the National Institute for Health Research, an embedded clinical research network at the heart of our NHS all around the country that is the jewel in the UK crown, and the establishment of the NIHR Office for Clinical Research Infrastructure, allowing innovators internationally to come in and work in our research hospitals. The progress of NIHR means we now have over 200 industrial studies on new medicines in the UK. We are increasing year-on-year the number of patients enrolling on clinical trials, including, importantly, first-in-man and first-in-patient studies. The UK is now going back up the international league for drugs having their first exposure to people, here in the NHS and the NIHR.
It is why, on informatics and genomics, we launched the Genomics England programme. In 2012, the Prime Minister announced that we would be the first nation on earth to sequence 100,000 entire genomes—those of NHS patients—and link them with their hospital records. The project has captured the world’s imagination—I have called it the NASA of 21st biomedicine—and triggered phenomenal academic and industrial investment in the UK. It is already driving new diagnostic insights into rare diseases and insights into how we can use existing medicines better.
It is also why we have invested in the clinical practice research datalink and the aggregating of the NHS’s long-term cohort studies. These are phenomenal resources for research. Before coming to the House, I was involved in one, funded by the MRC and Cancer Research UK, that involved 250,000 women at risk of ovarian cancer. As a part of that, we collected blood, tissue, genomic and medical record information. I am proud that, after the academic study was finished, a group of medics at University College London, along with MRC Technology, UCL Ventures and CRUK, used that database to form a company called Abcodia Ltd, an ageing biomarker company. The database contains biomarkers that allow us to diagnose not just cancers but a range of diseases in ageing women much earlier. The scale of that dataset allows us to lead.
My hon. Friend the Member for Daventry mentioned Professor Simon Lovestone, at King’s College London, who led the world in the use of informatics and integrated medical records in mental health and who has now gone to Oxford University to pioneer that work. The Government are investing in genomics and informatics because it is a transformational technology that is changing the way drugs are developed.
I want to entice the House to think about where this might go and the direction the Bill points us in. This new world is coming fast. The first genome to be sequenced, 10 years ago, cost £10 billion. It now costs $5,000 and can be done in 24 hours. Not least because of the leadership of Genomics England, it will soon be possible to do it in minutes for a few pounds and pence. That will allow the NHS, when patients arrive with cancer, rare diseases and, increasingly, any disease, to identify the right genomic diagnostic and profile the right treatment and drug much more quickly. When a patient arrives, whether at a GP practice, hospital or clinic, we will, in due course, be able to do a quick and easy genomic diagnosis.
Thanks to the Bill, front-line clinicians will be able much more quickly to identify innovative drugs from which their patients might benefit. That will not happen overnight; it will not happen by Easter; it will not happen by the end of this parliamentary Session, but it is a quiet revolution of 21st century medicine that we are leading, and data and information sit right at its heart. My hon. Friend has taken three Bills that were generating more heat than light, crystallised their essential purpose, which was noble and well-intended, and brought them together in one Bill. I hope that it will be treated in the Lords in the way that this debate and cross-party consensus invite and that it will not be significantly re-amended, not least because, if it is, it will probably run out of time to reach the statute book.
Many people comment that the House spends too much time doing yah-boo politics for its own sake. Today, we have struck a blow for joined-up government and parliamentary process. It is wonderful to see MPs form all mainstream parties—I have not heard anything from UKIP—in support of a measure that offers real benefits for patients and front-line clinicians, without undermining the latter’s clinical sovereignty over patients. It is about giving them information, so that they can make the exquisite clinical judgment we all want them to make. I am happy to commend the Bill to the House and to congratulate all those involved, and I am delighted to have done my bit to help strike a blow for joined-up government.