Log in
More than three million people are in pain at any one time in the UK, with inadequate analgesic treatment because of side-effects or lack of drug efficacy. By identifying roles for the voltage-gated sodium channel subtypes Nav1.7 and Nav1.8 in peripheral pain, our research has had a significant impact on the clinical understanding of human pain disorders and on the commercial development of selective analgesics with fewer side-effects. We have developed and disseminated several transgenic mouse lines which are widely used by the pharmaceutical industry. Through media appearances, we have also increased public awareness of the physiological basis of pain.
The Glasgow Composite Measure Pain Scale (CMPS) has provided the first validated pain questionnaire for the rapid assessment of acute pain in dogs in surgical and clinical settings. Developed by the University of Glasgow School of Veterinary Medicine, the scale aids clinical decisions on appropriate pain relief intervention and has been freely downloaded by over 3,000 clinical users since its launch in 2008. In addition, it has been used extensively by veterinary healthcare companies to successfully obtain regulatory approval for analgesic drugs and in marketing support materials. The University of Glasgow researchers have been instrumental in developing international pain guidelines with the World Small Animal Veterinary Association, which represent more than 180,000 veterinarians worldwide, and has thereby promoted awareness of pain management in companion animals.
Research by Maria Fitzgerald's group in the Department of Neuroscience, Physiology & Pharmacology has provided fundamental biological knowledge of the development of pain pathways in the human fetus that is recognised all over the world. As a direct result of her published research, she co-authored a report from the Royal College of Obstetrics and Gynaecology on clinical recommendations for practice in fetal medicine and fetal termination. Published in March 2010, this report provides authoritative, evidence-based recommendations for medical practitioners, abortion advisory groups and patients, and consequently determines clinical practice throughout the UK. The recommendations impact upon a large number of women; in 2011 there were 196,082 abortions in England and Wales.
Newcastle University research has changed policy and practice relating to the provision of pain relief to rodents and rabbits. This has impacted on up to 35 million animals worldwide during the REF period. Having established the under-use of analgesics in laboratory rodents, Newcastle researchers developed objective pain scoring systems. These established that analgesics should be administered to rodents and rabbits, and that the efficacy of this treatment should be assessed objectively. The research resulted in changes to policy statements, institutional policies (both academic and industrial) and individual research worker practices in the USA, Canada, Australia, Europe and the UK. This has produced clear benefits to the welfare of animals used in biomedical research, helps to satisfy public concerns that animals used in research should experience the minimum pain and distress, and improves scientific outcomes of research, since pain is an uncontrolled experimental variable, that can adversely affect study results.
Based on electrophysiological research conducted at the University of Warwick from 2000, Neurosolutions was founded as a spin-out company in 2001. As well as developing its own novel compounds, Neurosolutions provides specialised translational biomedical research services to the biotechnology and pharmaceutical industries to facilitate preclinical drug development of novel strategies to treat neurological disorders. In 2005, Neurosolutions floated on the Australian Stock Exchange (ASX) as Neurodiscovery to support the clinical development in-house of two compounds (both are patent-protected): NSL-043 for neuropathic pain (which completed 2 phase I studies in 2008-2009) and NSL-101 for dental pain (which completed phase II trials in 2009-2010). In 2010, Neurosolutions expanded its operations to Montreal, Canada. Neurosolutions is a profit- making contract research organisation with 15 full-time staff based in the UK and in Montreal, has annual revenues averaging £1.4M per annum and has earned around £7.5M in contracts from the biotechnology and pharmaceutical industries since its launch.
The Pain Research Group (PRG) is a research team within the Centre for Health and Social Care Research (CHSCR). The PRG's research programme in chronic pain management encompasses a range of robust methodological approaches to achieve better patient outcomes with local, national and international impact. The PRG has adopted a dual approach to investigating the treatment of chronic pain, incorporating psychological factors with the application of neuromodulation techniques. This has led to significant improvements in patient outcomes and patient satisfaction surveys demonstrate excellent, positive results. The research has had significant influence on clinical practice at national level, underpinning recommendations for best practice issued by the British Pain Society in relation to spinal cord stimulation and intrathecal drug therapy. It has also contributed to NICE's clinical guidelines on the implementation of spinal cord stimulation and influenced clinical decision making through the NHS evidence database. At an international level, our research has contributed to three sets of guidelines issued by the Polyanalgesic Consensus Conference: inflammatory mass, intrathecal drug therapy for chronic pain and recommendations for reducing mortality and morbidity of intrathecal drug therapy. The reduction of morbidity and mortality in intrathecal drug therapy is of particular significance as the reduction of harm and unnecessary complications in healthcare is of high concern to healthcare organisations worldwide.
Adolescents (and their families) in the UK and around the world are now better able to cope with chronic pain because of the unique work carried out at the University of Bath Centre for Pain Research (BCPR), directed by Professor Christopher Eccleston.
The BCPR produced the first multidimensional `one-stop' tool to assess the impact of pain on children's lives, which has now been adopted in at least 12 countries. Pioneering treatments from Bath have influenced therapeutic approaches worldwide.
The Bath team also manage the evidence base for chronic pain, giving access through the Cochrane Library, advising internationally on clinical service development and improvement.
There a great need to develop novel drugs to treat pain and in particular chronic pain. Scientists at King's College London (KCL) identified nerve growth factor (NGF) as an important mediator of persistent pain and validated it as a therapeutic target by demonstrating the beneficial effects of neutralising its activity using biological reagents in a number of animal models. The KCL team collaborated closely with the scientists at Genentech who went on to develop a neutralising antibody to NGF for the treatment of pain. This drug has been found to exhibit unprecedented efficacy in phase III trials in man and is currently being considered for registration. Their discovery has also led to several other major pharmaceutical companies initiating drug discovery programs in this area and has contributed to the subject area of pain management.
A high quality clinical trial, systematic reviews and meta-analyses performed by a team at Brunel University have directly informed key international clinical practice guidelines, policies and on the management of low back pain and neuropathic pain and have been cited by users (NHS Trusts: Addenbrookes) in response to such guidelines. In this way our research is directly informing clinical practice.
Eight per cent of all live births in the UK are preterm. Many of these infants spend time in special care, receiving an average of ten painful procedures per day of hospitalisation. Analgesics are administered to infants on an ad hoc basis and evidence of their efficacy has relied upon observations of behaviour and indirect physiologic responses. Fitzgerald and Slater at UCL have pioneered neurophysiological measurement of pain activity in the human infant brain, based upon Fitzgerald's developmental pain research. Using this measure, they have carried out the first ever randomised clinical trial of neonatal analgesic efficacy using a quantitative neural outcome.