Vaccines are the most successful public health initiative of the 20th century. They save millions of lives annually, add billions to the global economy and extended life expectancy by an average of 30 years. Even so, the UN estimates that globally 6 million children each year die before their 5th birthday. While vaccines do exist to prevent these deaths, it is limitations in manufacturing capacity, technology, costs and logistics that prevent us for reaching the most vulnerable. The UK is a world leader in vaccine research and has played a significant leadership role in several public health emergencies, most notably the Swine Flu pandemic in 2009 and the recent Ebola outbreak in West Africa. While major investment has been made into early vaccine discovery - this has not been matched in the manufacturing sciences or capacity. Consequently, leading UK scientists are forced to turn overseas to commercialise their products. Therefore, this investment into The Future Vaccine Manufacturing Hub will enable our vision to make the UK the global centre for vaccine discovery, development and manufacture. We will create a vaccine manufacturing hub that brings together a world-class multidisciplinary team with decades of cumulative experience in all aspects of vaccine design and manufacturing research. This Hub will bring academia, industry and policy makers together to propose radical change in vaccine development and manufacturing technologies, such that the outputs are suitable for Low and Middle Income Countries. The vaccine manufacturing challenges faced by the industry are to (i) decrease time to market, (ii) guarantee long lasting supply - especially of older, legacy vaccine, (iii) reduce the risk of failure in moving between different vaccine types, scales of manufacture and locations, (iv) mitigating costs and (v) responding to threats and future epidemics or pandemics. This work is further complicated as there is no generic vaccine type or manufacturing approach suitable for all diseases and scenarios. Therefore this manufacturing Hub will research generic tools and technologies that are widely applicable to a range of existing and future vaccines. The work will focus on two main research themes (A) Tools and Technologies to de-risk scale-up and enable rapid response, and (B) Economic and Operational Tools for uninterrupted, low cost supply of vaccines. The first research theme seeks to create devices that can predict if a vaccine can be scaled-up for commercial manufacture before committing resources for development. It will include funds to study highly efficient purification systems, to drive costs down and use genetic tools to increase vaccine titres. Work in novel thermo-stable formulations will minimise vaccine wastage and ensure that vaccines survive the distribution chain. The second research theme will aim to demystify the economics of vaccine development and distribution and allow the identification of critical cost bottlenecks to drive research priorities. It will also assess the impact of the advances made in the first research theme to ensure that the final cost of the vaccine is suitable for the developing world. The Hub will be a boon for the UK, as this research into generic tools and technologies will be applicable for medical products intended for the UK and ensure that prices remain accessible for the NHS. It will establish the UK as the international centre for end-to-end vaccine research and manufacture. Additionally, vaccines should be considered a national security priority, as diseases do not respect international boundaries, thus this work into capacity building and rapid response is a significant advantage. The impact of this Hub will be felt internationally, as the UK reaffirms its leadership in Global Health and works to ensure that the outputs of this Hub reach the most vulnerable, especially children.

The UK government's support for the Life Sciences Industry Strategy (Bell Report, 2017) recognises the importance of developing new medicines to facilitate UK economic growth. Examples include new antibody therapies for the treatment of cancer, new vaccines to control the spread of infectious diseases and the emergence of cell and gene therapies to cure previously untreatable conditions such as blindness and dementia. Bioprocessing skills underpin the safe, cost-effective and environmentally friendly manufacture of this next generation of complex biological products. They facilitate the rapid translation of life science discoveries into the new medicines that will benefit the patients that need them. Recent reports, however, highlight specific skills shortages that constrain the UK's capacity to capitalise on opportunities for wealth and job creation in these areas. They emphasise the need for 'more individuals trained in advanced manufacturing' and for individuals with bioprocessing skills who can address the 'challenges with scaling-up production using biological materials'. The UCL EPSRC CDT in Bioprocess Engineering Leadership has a successful track record of equipping graduate scientists and engineers with the bioprocessing skills needed by industry. It will deliver a 'whole bioprocess' training theme based around the core fermentation and downstream processing skills underpinning medicines manufacture. The programme is designed to accelerate graduates into doctoral research and to build a multidisciplinary research cohort; this will be enhanced through a partnership with the Synthesis and Solid State Pharmaceutical Centre (SSPC) and the National Institute for Bioprocess Research and Training (NIBRT) in Ireland. Research projects will be carried out in partnership with leading UK and international companies. The continued need for the CDT is evidenced by the fact that 96% of previous graduates have progressed to relevant bioindustry careers and many are now in senior leadership positions. The next generation of molecular or cellular medicines will be increasingly complex and hence difficult to characterise. This means they will be considerably more difficult to manufacture at large scale making it harder to ensure they are not only safe but also cost-effective. This proposal will enable the CDT to train future bioindustry leaders who possess the theoretical knowledge and practical and commercial skills necessary to manufacture this next generation of complex biological medicines. This will be achieved by aligning each researcher with internationally leading research teams and developing individual training and career development programmes. In this way the CDT will contribute to the future success of the UK's bioprocess-using industries.