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Impact: Health and welfare; policy in the form of national and international guidelines; diagnostic service; engagement with patient groups.
Significance: UoE-formulated diagnostic criteria adopted by the World Health Organisation (WHO), the European Centre for Disease Prevention and Control (ECDC) and US Centers for Disease Control and Prevention (CDC), enable reliable case ascertainment and longitudinal study of disease trends. The UoE Creutzfeldt-Jacob Disease Unit acts as an international reference centre for diagnosis. Case ascertainment has improved.
Beneficiaries: Patients with prion disease and their families, policy-makers, the NHS, charities.
Attribution: The UoE CJD Unit led the work with international collaborators.
Reach: Worldwide; diagnostic criteria are WHO-endorsed and have been adopted worldwide. Pooling of data across Europe has enabled assessment of 11,000 cases of sporadic CJD.
The MRC Prion Unit was established at UCL in 1998 to address national public health issues posed by bovine spongiform encephalopathy (BSE) and variant Creutzfeldt-Jakob disease (vCJD). One of our key strategic priorities has been to create a validated blood test for vCJD in order to protect public health through the screening of donated blood and organs for transplantation. The blood test we have developed has been demonstrated to detect infection in over 70% of patients with vCJD with, to date, 100% specificity and is now in use at the National Prion Clinic for evaluation.
Research on clinically important red blood cell membrane proteins has helped avoid unnecessary treatment of Rhesus negative pregnant women and enabled the early diagnosis of a rare kidney disease. During the late 1990s, researchers at the University of Bristol, in collaboration with the Blood Service in Bristol, cloned, sequenced and characterised many red blood cell membrane proteins important for transfusion, including the Rhesus proteins and Band 3/AE1 (SLC4AE1 gene). The work on Rhesus proteins facilitated the use of less invasive genetic screening methods to ascertain whether treatment was required to avoid Haemolytic Disease of the Foetus or Newborn (HDFN). In the UK, 5,000 women have been screened since 2001. Within the first six months of implementation of a Danish national screening program in January 2010, 862 women avoided unnecessary treatment. Reducing unnecessary treatment of mothers has saved resources and avoided unnecessary exposure to human derived blood products. In addition, research that has identified specific SLC4AE1 gene mutations that cause the rare kidney disease called distal renal tubular acidosis has enabled the early diagnosis and treatment of the disease, resulting in improved outcomes for patients.
Malaria is endemic in more than 100 countries but its rapid and accurate diagnosis in locations remote from clinical laboratory facilities remains challenging yet desperately needed. This case study describes how scientific discoveries made in the field of digital data storage have been developed and applied to deliver a rapid, reliable and low cost malaria diagnosis sensor suitable for field application. Diagnostic devices have been both laboratory-tested and clinically trialled on over 900 patients under adverse field conditions in malaria endemic countries with very promising results. The health impact includes not only significantly reducing unnecessary treatments but potentially saving millions of lives.
Impact: Health and welfare; policy and guidelines. Anderson and colleagues demonstrated that cryopreservation of ovarian tissue could be used for preservation of fertility following cancer therapy. This step-change has been incorporated into guideline documents internationally and has been adopted into clinical practice world-wide.
Significance: Ovarian tissue has been preserved from many hundreds of women; this is now translating into a growing number of babies born worldwide (currently 24 in nine countries).
Beneficiaries: Women at risk of fertility loss including pre-pubertal girls newly diagnosed with cancer; clinicians; the NHS and healthcare delivery organisations.
Attribution: The underpinning research was performed entirely at UoE.
Reach: Worldwide: UK, Europe, US, Australia.
Impact: Health and wellbeing; translation of a clear evidence base for reducing red blood cell use in intensive care and surgery into guidelines and changed clinical practice.
Significance: A 20% reduction in overall UK red blood cell usage between 2002-2012, saving the NHS approximately £100M annually; 7000 fewer patients are exposed to red cell transfusion annually, saving 500 lives.
Beneficiaries: Patients in intensive care units; the NHS and healthcare delivery agencies.
Attribution: Studies were led by Walsh at UoE with NHS and Canadian collaborators.
Reach: 7000 patients per year, UK-wide; incorporation into international guidelines.
Research at UCL on human haemolytic anaemias known as the `hereditary stomatocytoses' has improved diagnosis of these conditions, meaning that patients now avoid unnecessary and potentially life-threatening splenectomies, and inappropriate investigation and treatment for raised potassium levels. Identification of a common single nucleotide polymorphism that causes apparently normal red blood cells to leak salt when cooled (as is normal procedure with donated blood) has raised awareness of this issue in the NHS Blood and Transfusion service, with the result that individuals with this condition have been identified among existing donors, and work is underway to develop a screening method to exclude such individuals from donating blood that cannot be stored safely. Finally, the research has facilitated diagnosis of the recessive metabolic disorder phytosterolaemia by blood count, allowing these individuals to be given appropriate dietary treatment to control their cholesterol levels.
Transmission and control of parasitic zoonoses focuses on diagnostics development and epidemiological studies on zoonoses, developing approaches for the surveillance, prevention and control of non-vector borne zoonotic pathogens and demonstrating the following impact:
A long programme of research By Neil Avent has led to the development of powerful screening and diagnostic measures. It has enabled the implementation of molecular blood grouping and Non- invasive prenatal diagnosis (NIPD) into clinical use. The work began with research that took the lead in developing the commercially available products BLOODchip and MLPA, used extensively in the management of difficult to transfuse patients. This was developed into investigations of NIPD of fetal blood groups (particularly RhD), and through EC funding, drove workshops to establish non-invasive RhD typing as routine in the clinical management of haemolytic disease of the fetus and newborn. This work has shaped the standardisation of NIPT for fetal Rhesus D (RhD) and fetal sexing via External Quality Assessment (EQA) and the EC network Eurogentest.
A low-cost, efficient, blood cell salvage technology (HemoSep) has resulted from research carried out at Strathclyde between 2008 and 2013. The novel technology has been patented and licensed to Brightwake Ltd., who manufacture the device in the UK and market it through a global distribution network. HemoSep has now been used in clinical centres across Europe, North America, and South Africa since its commercial launch in late 2012. The use of the device has been shown to reduce the need for donor blood transfusions in open-heart surgical patients by at least 1 unit (450 ml) with an associated reduction in transfusion related complications such as heightened inflammatory response and bleeding. The reduction in blood transfusions associated with the use of HemoSep has a considerable cost benefit to healthcare providers (in North America blood costs up to $1600 per unit). In addition, commercialisation of HemoSep has led to the creation of new manufacturing, marketing and sales jobs in the UK and overseas.