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Research conducted by Professor TM Cox has led to several advances in the management of lysosomal storage disorders; i) development of miglustat (Zavesca®); now available throughout the world (EMA and FDA approved) for adult patients with Gaucher's disease and throughout the European Union and five other countries worldwide for adult and pediatric patients with Niemann- Pick type C disease, ii) development of the potential successor eliglustat; now in Phase 3 clinical trials, iii) identification of a biomarker for Gaucher's: CCL18/PARC, now incorporated into NHS standard operating procedures for monitoring therapeutic intervention. His pre-clinical research into gene therapy for Tay-Sachs disease also helped establish the NIH-funded Gene Therapy Consortium and gain the FDA's pre-IND approval for clinical trials in 2013, which together have raised public awareness of this disease.
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.
Corticosteroids are the traditional mainstay of treatment for inflammatory conditions but their side effects are often severe, especially in children. Professor MacDonald's team researched alternatives to corticosteroids in childhood Crohn's disease. With Nestlé they developed a polymeric, milk-based formula feed (Modulen IBD) that was highly effective in inducing clinical remission. NICE guidance have changed to reflect these findings. The treatment is now first-line therapy for childhood Crohn's in UK and the rest of Europe and recommended in clinical guidelines in USA. We estimate that across Europe alone, 13,000 new cases of childhood Crohn's annually will be spared steroid therapy as a result of this work.
Our biomarker research and underpinning technologies have commercially impacted upon the global R&D strategies of Unilever, Philips and Mars, realising new market areas for them, resulting in several million GBP invested in related R&D as well as "claim support" for products both in development and already available on shelves. Unilever have adopted biomarker outcomes as endpoints in clinical trials of new products, and Philips and Mars are developing with us saliva-based near-patient diagnostic tests for the human and small animal markets. We have also spun out two SME's: A) Oral Health Innovations (OHI) Ltd has developed online risk and disease analysis software for oral conditions, which was piloted, adopted and launched by Denplan, the UKs largest dental capitation plan operator (accessing 6500 dentists and 1.8 million patients), at the 2013 annual British Dental Association conference; and B) GFC Diagnostics makes SmokeScreen™ a non-invasive, sensitive and objective saliva test developed from our biomarker research at Birmingham University. Both technologies have already provided demonstrable social and commercial impact and given their uptake to date, will also deliver economic, environmental and health impacts.
Pioneering basic research into the role of oxygen free- radical damage and antioxidant micro-nutrient protection in human periodontal diseases by the Periodontal Research Group in Birmingham has led to the development and marketing of novel toothpaste formulations and new applications for other nutrient products in collaboration with global consumer healthcare companies. This work has changed thinking in the field and has had significant commercial impact in terms of changing business R&D and marketing strategies. Resultant technologies have demonstrated reductions in gingivitis and periodontitis with associated social, economic and health impacts. In addition, our research is enabling Triclosan, an antibacterial compound used widely in soaps, detergents, mouthwashes and toothpastes, to be replaced with more environmentally-friendly, natural and equally efficacious agents.
The UCL Centre for Amyloidosis and Acute Phase Proteins has identified the cause and treatment for the prototypical cryopryin associated periodic syndrome (CAPS), and subsequently for a range of other hereditary and acquired autoinflammatory disorders. As a result of the research, canakinumab was licensed for this condition. In recognition, NHS Specialised Services commissioned the UK CAPS Treatment Service in 2010 to deliver life-changing IL-1 blocking therapy to the national caseload of CAPS patients at UCL.
Research at the UCL Institute of Ophthalmology over the last 20 years has resulted in the identification of a large number of novel genes that cause inherited retinal disease. These genes have been incorporated into diagnostic tests, which have allowed molecular diagnosis, improved genetic counselling including pre-natal/pre-implantation diagnosis, better information about prognosis and have informed decisions about which diseases should be prioritised for clinical trials of novel treatments. The identification of these genes has greatly improved understanding of disease mechanisms, an essential prerequisite for developing new treatment approaches such as gene therapy.
Rheumatoid arthritis is a debilitating inflammatory condition, affecting around 500,000 people in the UK and around 0.5-1% of the adult population worldwide. Using novel techniques to study human synovium, Professor Sir Marc Feldmann and Professor Sir Ravinder Maini from the Kennedy Institute of Rheumatology identified a therapeutic target, TNFα, for treatment of rheumatoid arthritis. Following successful clinical trials, showing the safety and effectiveness of this new target, anti-TNFα antibodies have now become the gold standard treatment for severe rheumatoid arthritis worldwide. In addition to dramatically impacting patient care, anti-TNFα antibodies represent the largest group of therapies against rheumatoid arthritis on the market, with annual sales currently exceeding US$24.4 billion.
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.
King's College London (KCL) research has made a major contribution to improving the quality of life for patients who have anaemia linked with chronic kidney disease. Studies undertaken by KCL researchers established that intravenous iron supplementation was required in anaemic patients with advanced kidney disease, in whom oral iron therapy was ineffective, and defined the best regimes for administration of intravenous iron. Subsequent KCL work on drugs that stimulate production of red blood cells (erythropoiesis) defined the target levels of haemoglobin to aim for in chronic kidney disease patients. Most recently, KCL researchers made the key discovery that the novel drug peginesatide for the first time enables the rescue of patients who develop a rare and potentially fatal reaction against erythropoietin (which is the commonest treatment for anaemia in chronic kidney disease). These KCL research studies have had a significant impact by making a major contribution to national and international clinical guidelines, including UK NICE guidelines and the 2012 National Kidney Foundation KDIGO Clinical Practice Guideline for Anemia in Chronic Kidney Disease.