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Congenital myasthenic syndromes (CMS) are inherited neuromuscular disorders caused by defects at neuromuscular junctions, which are often a result of acetylcholine receptor gene mutations. A subset of CMS patients (around 14% in the US and Europe) have limb-girdle myasthenia (LGM). This disease can be highly disabling with symptoms including increasing weakness of skeletal muscles. As a result of collaborative work between Newcastle and Oxford, it was determined that many LGM patients have a mutation of the Dok-7 gene (unrelated to the acetylholine receptor), and do not, therefore, respond to standard CMS treatments. Since then, a number of additional mutations have been discovered, and genetic testing is now available for the majority of known LGM-causative genes. Crucially, Dok-7 patients, and those with other non-receptor related mutations, can now be diagnosed accurately and treated effectively, with ephedrine and salbutamol (in the US, albuterol). This significantly improves these patients' quality of life by enabling them to walk and breathe unassisted.
Chronic granulomatous disease is a rare but very serious inherited disorder of the immune system that leaves sufferers vulnerable to potentially fatal bacterial and fungal infections. Researchers at Newcastle University demonstrated very high survival and cure rates following bone marrow transplantation for the disease and good quality of life for successfully transplanted patients. This led to a change in national clinical policy, and doctors at both specialist disease centres in the UK now recommend transplantation to families where previously they would not have done so. In the five years prior to 2008 there were only 11 transplants for chronic granulomatous disease in the UK and in the following five years, 36 transplants. 32 children are alive and cured of the disease.
Research conducted by Professor Tim Goodship and co-workers at Newcastle has had a profound effect on the prognosis for patients with atypical haemolytic uraemic syndrome (aHUS). By engaging in research on the genetic factors underlying the disease they developed an understanding of the molecular mechanisms responsible. Identifying that the majority of patients with aHUS have either acquired or inherited abnormalities of the regulation of complement (part of the immune system) led to the establishment of a UK national service for genetic screening and treatment with the complement inhibitor eculizumab. As eculizumab is now available to patients in England, the progression to end-stage renal failure can be prevented and patients already on dialysis will soon be successfully transplanted.
Research at the University of Nottingham has defined the clinical phenotype and management of lymphangioleiomyomatosis, a rare and often fatal multisystem disease affecting 1 in 200,000 women worldwide. The group has led the development and evaluation of new therapies and diagnostic strategies which are now part of routine clinical care. The research has underpinned the transformation of this previously under recognised and untreatable disease into a condition recognised by respiratory physicians, with international clinical guidelines, patient registries, clinical trials, specific treatments and a UK specialist clinical service.
Research from the University of Nottingham on aminoglycoside antibiotics in cystic fibrosis (CF) has changed clinical practice and improved patient safety internationally. There are over 70,000 people with CF worldwide. Most require frequent and prolonged intravenous courses of aminoglycoside antibiotics (which can cause kidney damage) to treat chronic lung infection with Pseudomonas aeruginosa. This infection may lead to respiratory failure and death. Our research has influenced national and international guidelines, and changed practice, such that once-daily aminoglycosides (less toxic to the kidneys) are now used. We have also stopped the use of gentamicin, in favour of less toxic aminoglycosides.
Dialysis has revolutionised the management of End Stage Kidney Disease (ESKD), but the benefits of this invasive, demanding treatment may not be clear-cut for elderly, frail patients with other serious comorbidities. University of Hertfordshire and East and North Hertfordshire NHS Trust researchers have led the development of Conservative Management, an alternative to dialysis for some patients, providing multidisciplinary support and careful symptomatic management until death. The research shows that quality of life is maintained, survival may not be significantly compromised, and preferred place of death is more often achieved than for counterparts on dialysis. Conservative Management programmes have been adopted across the UK and elsewhere, influencing the care of many patients.
Motor neuron disease (MND) is a devastating and debilitating disease with poor prognosis; most patients die from progressive respiratory failure within three years of onset. A randomised controlled trial conducted in Newcastle provided robust evidence that non-invasive ventilation for patients with MND can significantly improve quality of life and increase survival (216 days with non-invasive ventilation compared to 11 days without). Findings from this trial underpinned recommendations concerning the use of non-invasive ventilation in MND in clinical guidelines internationally, and use in clinical practice has increased in the UK, across Europe, and in the US and Australasia. In the UK, the number of MND patients successfully established on non-invasive ventilation in 2009 had increased 3.4-fold since 2000 and since 2009 has further increased almost two-fold.
Non-alcoholic fatty liver disease (NAFLD) is the most common liver disease in the developed world with a prevalence of 20-25% in the general population. Until Newcastle validated its new diagnostic, the only accurate way to determine the severity of NAFLD was by liver biopsy, an expensive and invasive procedure which is associated with morbidity and occasional mortality. Studies lead by Professor Day in Newcastle have established a non-invasive fibrosis scoring system, the NAFLD Fibrosis Score (NFS), which is capable of accurately differentiating patients with and without fibrosis. The NFS has now been incorporated into two international guidelines, allows biopsy to be avoided in up to 75% of patients and could save the NHS nearly £2m annually.
Research on Congenital Adrenal Hyperplasia (CAH) at the University of Sheffield has resulted in both health and commercial impacts. The research has led to a new drug treatment, Chronocort®, being developed for CAH. Chronocort® has been tested in CAH patients with the positive outcome of improved disease control.
Commercial impact arose from the creation of a spin-out company, Diurnal Ltd, in 2004 which has raised investment of £3.8M since 2008, including £0.4M from pharmaceutical industry sources, and (as an SME partner) a €5.6M Framework 7 grant to develop a paediatric treatment for CAH. Diurnal has created five new jobs and has contracts with six UK companies worth £2.7M.
Neuroblastoma is a paediatric cancer that arises from the sympathetic nervous system. The average age at diagnosis is 18 months and the disease accounts for approximately 15% of all childhood cancer-related deaths. Determining optimal treatment for individual patients is crucial for increasing chances of survival and for reducing side effects of chemotherapy and radiotherapy. Newcastle-led research identified unbalanced 17q gain as the most common segmental chromosomal abnormality (SCA) in patients with neuroblastoma; this was present in more than 50% of patients. Gain of 17q is now one of the key SCAs used to determine treatment for patients in a European neuroblastoma trial and in UK treatment centres. Newcastle research also led to the development of a simple diagnostic test for the detection of the main SCAs in neuroblastoma.