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Starting from a mechanism-based hypothesis, Alastair Compston and colleagues in Cambridge have led the academic development of Alemtuzumab as a highly effective therapy for relapsing-remitting multiple sclerosis through Phase 1, 2 and two Phase 3 trials (1991-2012). The impacts to date are demonstration of the importance of the therapeutic `window of opportunity' in treating multiple sclerosis; a product licence in the European Union (September 2013) for the commonest potentially disabling neurological disease of young adults; expansion of the work-force in industry to develop and market this initiative; and an estimated several-fold increase in revenue to the University of Cambridge (and other beneficiaries) from total royalties of £18.6M from 1997 to date.
Alemtuzumab, a humanised therapeutic antibody, is a major addition to the repertoire of immunosuppressive agents used for organ and stem cell transplants. Administered as an induction agent in a short course of treatment, alemtuzumab reduces the incidence of graft rejection without preventing recovery of the patient's ability to fight infection. Alemtuzumab also decreases graft versus host disease, a vital factor in the treatment of aplastic anaemia and acute leukaemias. Furthermore, its important role in minimising immunosuppressive therapy helps prevent treatment-associated problems for the patient. Currently used off-licence for transplants, alemtuzumab improves patient survival and healthcare.
By identifying a novel approach to treat allergy and autoimmune disease the University of Bristol has created a new field of research into antigen-specific peptide immunotherapy. Initial work carried out by Professor David Wraith at the University has since 2008 led to the creation of new businesses, (including the spinout company Apitope), generated 100s of millions of pounds of investment and underpinned both the adoption of new technology and the development of new products by the pharmaceutical industry. The commercial impact of this research into antigen specific immunotherapy is on-going and expanding.
This case study summarises a body of research on Multiple Sclerosis (MS) developed at Plymouth University under the leadership of Professor Zajicek and Professor Hobart. Hobart's work on linical outcome measurements has directly influenced clinical research, trials and drug licensing, especially in MS and Alzheimer's disease. The MS scales developed by Hobart have been endorsed by the United States FDA and are in demand by commercial organisations in the development and trialling of treatments for MS and have led to the licensing of new drugs. Zajicek has led the topical field in evaluating the potential benefits and risks of cannabis for treating MS, contributing to the evidence base behind the medical use of cannabinoids in general, and pioneering its global potential use to slow neurodegeneration.
Research led by University of Oxford scientists has resulted in widespread use of the humanised therapeutic antibody, Campath (alemtuzumab), in patients with chronic lymphocytic leukaemia (CLL). Licensed by both the European and American regulatory authorities in 2004 for the treatment of CLL, Campath is used as first-line treatment for patients with aggressive forms of the disease and following relapse. It can induce long-term clinical remission even in cases resistant to other drugs. Campath has now been used in approximately 15,000 patients, and has generated revenues of approximately £750 million from the licensed treatment of CLL.
Research undertaken by Professor Woodroofe has impacted on a range of beneficiaries: people with multiple sclerosis (MS), their families and carers, and health professionals, including nurses, physiotherapists and doctors. This has been achieved through an array of innovative dissemination activities involving shared learning among researchers and beneficiaries. Through these activities beneficiaries gained a greater knowledge and deeper understanding of the disease process in MS, which they subsequently shared within their own networks. Woodroofe's research on MS has been published in leading international journals making an important contribution to the field and underpinning the impact achieved.
Psoriatic arthritis (PsA) is a chronic inflammatory disease of joints, skin and tendons that affects 0.5-0.8% of the population worldwide. PsA can cause substantial psychological and social problems and also causes increased risk of death from cardiovascular disease. Research conducted by Prof Iain McInnes at the University of Glasgow in partnership with leading pharmaceutical company, Janssen, has provided robust evidence of the clinical benefits and safety of the cytokine blocker ustekinumab, leading to its approval for use for PsA by the European Medicines Agency in July 2013. This was the first approval of a PsA drug with a new mode of action in a decade, providing a novel treatment for approximately 1.25 million PsA patients across Europe.
Professor Platt and colleagues at the University of Oxford have developed the drug miglustat, the first oral therapy for rare lysosomal storage diseases. These are primarily neurodegenerative diseases that affect 1 in 5,000 live births, always leading to premature death. In 2009, miglustat became the first treatment to be licensed for treating neurological manifestations in Niemann-Pick disease type C (NPC). It is now prescribed for the majority of NPC patients worldwide, and has led to significant improvements in both life expectancy and quality of life. Miglustat was approved for type 1 Gaucher disease in 2002 and, since 2008, has proved an effective treatment for patients previously stabilised with enzyme replacement therapy; miglustat has the additional benefit of improving bone disease. Sales of miglustat since 2008 have generated CHF 315 million in revenues for Actelion, the company sublicensed to sell the drug.
Sustained research by the University of Oxford's Mahidol Oxford Tropical Medicine Research Unit in Thailand (MORU) has been the driving force behind the current World Health Organization recommendations for the management of acute and chronic infection in patients with melioidosis. This research has motivated improvements in treatments and provided new strategies to identify at-risk populations, enabling clinicians to make early diagnoses. Melioidosis is a major cause of severe illness in parts of Southeast Asia and there are increasing numbers of cases in India, China, and Brazil.
COPD affects up to 3.5 million people in the UK and costs the NHS £700m pa. Over the last 15 years, research by Professor Calverley and colleagues at the University of Liverpool (UoL) has impacted significantly on the care of COPD patients. Specifically, this group showed that routine testing of COPD patients for the presence of bronchodilator reversibility was unreliable and did not predict clinical outcomes. This changed international guideline recommendations in 2007 and the Quality Outcomes Framework payments to GPs in 2009. They showed that oral corticosteroids accelerated recovery from exacerbations and that anti-inflammatory drugs, whether inhaled corticosteroids or PDEIV inhibitors, reduced exacerbations by 25% with a subsequent fall in the number and length of hospitalisations. This led to changed NICE guidance for corticosteroids in 2010 and drug registration with EMA and FDA for the PDEIV inhibitor treatment in 2011. Treatment in UK and Western Europe has changed as a result of this research.