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A new, more structured way of assessing the various harms done to individuals, families, communities and wider society by a range of legal and illegal drugs was first articulated by Professor David Nutt and colleagues at the University of Bristol. The "rational scale" they developed in the light of their research has stimulated extensive policy debate and informed drug classification in the UK and overseas. The research underpinning the scale has been disseminated through numerous public lectures and discussions and has stimulated worldwide media coverage. As a consequence, public awareness of drug harms has increased and public engagement in important debates about drugs has intensified.
Our research on cannabis, ketamine and MDMA (ecstasy) has used pioneering methods to provide a unique new evidence-base on which illegal drugs can be evaluated. This work has influenced government policy and legal proceedings in the UK and abroad. We have engaged widely with drug users, other members of the public, drug services and the media to disseminate our findings widely, and increase public knowledge of the topic. Our research on the effects of recreational drug use thus has changed national and international media discourse about this topic, and has increased public awareness and engagement.
High-profile cases of growth hormone misuse by leading international sports stars have made the development of an effective detection test a main priority of global anti-doping organisations. A research team headed by the University of Southampton developed a new test, adopted at the 2012 Olympic Games, which identified two drugs cheats at the London Paralympic Games just weeks after it was first introduced. The subsequent bans serve to act as a powerful deterrent to other athletes and help restore public confidence in fair competition. The World Anti-Doping Agency has announced its commitment to rolling out the test internationally.
Research by Professor Abdul Basit's group at the UCL School of Pharmacy is leading to improved treatments for ulcerative colitis and other conditions through increased knowledge of the complex physiology of the gastrointestinal tract. Improved understanding of in vivo drug release and uptake has allowed development of three patent-protected technologies for improved drug delivery: PHLORALTM, for release of drugs in the colon, and DuoCoatTM and ProReleaseTM formulations designed to allow intact transit through the stomach followed by immediate release upon gastric emptying. These technologies are the subject of licences and ongoing development programmes, with PHLORALTM currently in phase III clinical trials. The impact is therefore the introduction of enabling technologies that have positively influenced the drug development programmes of pharmaceutical companies.
King's College London (KCL), operating a state-of-the-art Drug Control Centre (DCC) in collaboration with GlaxoSmithKline (GSK), delivered the anti-doping analysis at the London 2012 Olympic and Paralympic Games. This operation, undertaken in their World Anti-Doping Agency's (WADA) accredited laboratories, was characterised by unprecedented scale, speed and accuracy. It succeeded in protecting the health of athletes and the integrity of the Games. KCL was chosen to undertake the 24/7 anti-doping operation based on its cutting-edge bio-analytical research in drug control. Although a number of athletes were disqualified in the pre-Games testing, the deterrent effect of the KCL work was evidenced by the few doping cases during the Games itself. Using the new biomarker test developed by the DCC at KCL in collaboration with colleagues at the University of Southampton, the team identified for the first time the administration of recombinant human growth hormone (hGH) in two athletes. The findings of the KCL-led operation are already being used to develop similar testing facilities for the 2016 Olympic Games in Rio de Janeiro and have opened up the science of drug-testing to schools through the "Scientists in Sport" initiative.
Research into impaired cognitive performance related to drug misuse began at Edge Hill University (EHU) in 1998. It has predominantly concentrated upon impairments related to use of the illegal drug `ecstasy' (3,4-methylenedioxymethamphetamine: MDMA), although some has focussed upon cannabis related impairments in order to identify which of these drugs was related to a specific performance decrement. The impacts presented arise from contributions to policy development through the Advisory Council on the Misuse of Drugs (ACMD), the consultation response team of the British Psychological Society (BPS), media debate drawing upon our research, and through informing the design of a drug use prevention campaign.
Nearly all solid dosage forms contain drugs in crystalline form; and all crystals have the potential to `morph', suddenly, into different forms which can affect the safety and efficacy of the medicinal product. A number of high-profile cases in which marketed medicines had to be withdrawn [Lee, et al., Annu. Rev. Chem. Biomol. Eng. 2011, 2, 259-280] led multinational drug company Pfizer to conclude that a greater understanding of polymorphism was required to enable drug product design for the 21st Century. The University of Greenwich pioneered methods to predict crystal behaviour on the shelf and during manufacture that were affordable, timely and effective. It enabled Pfizer to select the optimal polymorphic drug form and manage risk associated with uncontrolled solid-state transformations, thereby safeguarding patients and avoiding huge costs.
The emergence of new psychoactive substances (NPS) in Europe over the last decade (including performance and image enhancing drugs), poses challenges to policy makers. These are substances which are frequently not controlled under law, and governments have struggled to address potential societal and health harms of use. We have analysed this drugs market, described the potential health harms of NPS, and generated evidence on effective intervention responses for some of these. Our findings have provided the necessary evidence to support the development of robust, responsive and predictive policy making at both national and international levels.