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The FLAIR (Fluid Attenuated Inversion Recovery) MRI sequence developed at Imperial College has transformed the sensitivity of clinical neuroimaging for white matter brain lesions. FLAIR has had significant commercial impact with incorporation as a standard imaging sequence offered by all manufacturers on their MRI scanners. The inclusion of FLAIR in routine diagnostic MRI protocols in radiology centres worldwide provides evidence of the continued extensive reach of impact for better healthcare outcomes through improved diagnosis and management. The use of FLAIR has led to more powerful Phase II trial designs for development of medicine for stroke, neuroinflammatory disorders, epilepsy and neuro-oncology based on imaging outcomes.
New methods to study the biophysical action of the human digestive system were developed in Nottingham using high speed magnetic resonance imaging (MRI) and have been used by: (i) the food and drug industry (Unilever, Proctor & Gamble, Mitsubishi Chemicals, Reckitt Benckiser, Glaxo and McNeil Pharmaceuticals) to develop new products; (ii) Plant Bioscience Limited (PBL) to develop an artificial Dynamic Gut Model (DGM) which is now being applied commercially to characterise drug and food ingestion; (iii) the BBC and other media agencies in programmes related to the promotion of better understanding of nutrition in an effort to combat obesity.
Research by a team at Southampton into amyloid beta protein (A03b2) immunisation to treat Alzheimer's disease has been key to changing the way the global medical community understands and reacts to the disease. The first to observe that A03b2 immunisation clears A03b2 plaques, the team's studies were pivotal in initiating and informing the safe clinical trial development of 40 immunotherapy agents; investments of $3bn by the pharmaceutical industry; and 30 phase II and phase III studies. The research shaped US government policy on new safety measures for clinical trials and played a leading role in the doubling of UK funding to tackle Alzheimer's.
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.
Scientists in the MRC Cyclotron Unit within Imperial College pioneered quantitative Molecular Imaging methods for neuroscience drug development that have since been expanded through collaboration between Imperial and GlaxoSmithKline (GSK) scientists. Human Molecular Imaging has had significant commercial impact with adoption by the major pharmaceutical companies to reduce the risks and costs associated with early drug development. This led directly to the selection of the Imperial Hammersmith Hospital site for the world's first clinical imaging centre embedded in a pharmaceutical company. New GSK investment created new and highly skilled UK employment opportunities first at this GSK Clinical Imaging Centre (CIC) and then Imanova, Ltd., a specialised imaging CRO that was "spun out" from the CIC. Outcomes from studies commissioned by GSK in the CIC and later in Imanova have directly influenced GSK clinical development planning, strategy and drug candidate progression. More recently, outcomes from Imanova are influencing clinical development decisions of other pharmaceutical organisations in similar ways.
We established a comprehensive international collaboration to develop, validate and apply new scales for the identification and quantification of non-motor symptoms and signs in Parkinson's disease (PD). This was intended to provide tools to assess response to treatment, help define the clinical prodrome of PD and provide a means to evaluate novel therapies designed to modify the course of disease. The scales have been produced, validated and published. They have been incorporated as end points in international clinical trials for PD and have been introduced by specialist societies and NHS commissioners as a standard of care for PD patients.
Systemic sclerosis (SSc) is an important, but uncommon, connective tissue disease with high mortality and has a major non-lethal morbidity. Research at UCL has been instrumental in defining modern management of SSc and has contributed in three main ways. First we have defined the importance of regular proactive screening of cases, secondly we have defined the use of immunosuppression and thirdly we have delineated important clinical and laboratory subsets of SSc that underpin an individualised (or personalised) approach to assessment and treatment. These topics exemplify stepwise progress in management of SSc that also has direct relevance to other more common medical conditions.
Psynova Neurotech is a prize-winning spin-out company founded by Professors Sabine Bahn and Chris Lowe from the University of Cambridge. It focuses on the commercialization of novel blood-based biomarker tests for conditions like schizophrenia, depression and bipolar disorder. Psynova and its partner company Rules Based Medicine (now Myriad RBM Inc.) launched the first commercially available Aid for the Diagnosis of Schizophrenia (VeriPsychTM) in 2010. In June 2011, Psynova and Rules Based Medicine were acquired by Myriad Genetics Inc. for £50 million. In February 2011 Psynova Neurotech and Professor Bahn were announced winner of the ACES best European Life Science spin-out award.
The UCL Centre for Amyloidosis and Acute Phase Proteins has designed and developed new chemical entities targeting serum amyloid P component (SAP), C-reactive protein (CRP) and transthyretin, for novel therapeutic approaches to amyloidosis, Alzheimer's disease, cardiovascular and inflammatory diseases. The UCL spin out company, Pentraxin Therapeutics Ltd, founded by Sir Mark Pepys to hold his intellectual property (IP), has licensed two programmes to GlaxoSmithKline (GSK). These highly synergistic, collaborative multi-million pound developments, strikingly exemplify new working relationships between academia and the pharmaceutical industry.
Multiple Sclerosis (MS) is the most common disabling neurological disease of young adults in the UK, affecting 1 in 800 of the population. In most patients the early years are characterised by relapse and remissions; relapses are often disabling and permanent disability occurs when remissions fail to recover fully. Research at the UCL Institute of Neurology — from early MRI studies through phase 1-3 clinical trials — has resulted in the licensing of natalizumab for highly active relapsing remitting MS. Natalizumab is now widely used to treat such patients with very good efficacy and close monitoring. Natalizumab is a potent treatment that has reduced relapse rate by two-thirds and relapse-related disability by 50%. By July 2013, over 115,000 patients around the world had received this treatment.