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University of Glasgow research has led to the adoption of first-line chemotherapy for ovarian cancer, which has improved patient survival by 11% and has been used to treat 66% of women with ovarian cancer since January 2011 in the West of Scotland Cancer Care Network alone. These therapies are recommended by guidelines for ovarian cancer treatment in the USA, Europe and the UK. The USA guidelines are disseminated to 4.3 million people worldwide and the European guidelines reach 15,000 health professionals. The UK guidelines are used to identify those drugs that are funded by the NHS and used in NHS hospitals.
UCL has conducted a series of national lung cancer trials, which have led to wide-scale changes in clinical practice. Two trials compared different platinum based therapies, which led to centres switching from using chemotherapy with cisplatin to carboplatin-based chemotherapy instead. Carboplatin can be given as an outpatient, and has fewer side effects, and has been (and still is) recommended as an alternative to cisplatin in the UK and US.
Bowel cancer is the third most frequently diagnosed cancer worldwide. University of Glasgow researchers have established Xeloda (an oral 5-fluorouracil precursor) and XELOX (a chemotherapeutic regimen combining Xeloda with oxaliplatin) as highly effective, targeted therapies for patients with bowel cancer. Since 2008, European regulatory approval of these therapies has been incorporated into major international clinical guidelines. The research has transformed patient care by improving the treatment experience, with more convenient dosing schedules and fewer side effects compared with previous chemotherapy procedures. Xeloda and XELOX have transformed chemotherapy for bowel cancer and decreased therapeutic costs, potentially saving around £4,762 (Xeloda) and £947 (XELOX) per patient for the NHS.
Thousands of people across the world with a genetic predisposition (HNPCC) to bowel cancer, together with the population at large, have benefited from research on aspirin and dietary fibre undertaken at the University of Bristol since 1993. Clinical trials involving the Bristol group show that the incidence of bowel cancer has fallen in HNPCC patients who take aspirin. Moreover, aspirin use after diagnosis of bowel cancer has reduced colorectal cancer mortality. Furthermore, a high fibre diet also lowers the risk of bowel cancer. These studies led to national public health initiatives (such as the `five-a-day' campaign) that have been instrumental in increasing public awareness of the importance of aspirin and dietary fibre in reducing the risk of bowel cancer, and in establishing international guidelines on dietary advice.
Colorectal cancer is a common disease, which frequently causes death or morbidity, either because of failure to control the primary tumour or failure to prevent distant metastases. Leeds researchers have devised new treatment approaches using chemotherapy and radiotherapy and tested them in large randomised controlled trials which have led to major changes in clinical practice in the management of rectal cancer and advanced colorectal cancer (aCRC), driving clinical decision-making and improving outcomes for patients. This includes better-evidenced treatment for elderly patients and patient stratification on the basis of molecular biomarkers.
Our research has underpinned the work of Celldex Therapeutics and other US based companies, in developing a vaccine directed against hCGβ for the adjuvant treatment of epithelial cancer. A number of Phase I trials indicated an improvement in survival of vaccinated patients and Phase II trials began for bladder cancer where early data showed promise by improving the survival time. This has had a significant impact on these patients, and has the potential to extend the life of many millions of cancer sufferers (around 32% frequency of hCGβ secretion by carcinomas). Our research input has helped prove the technology and further trials are awaiting finance.
Southampton research underpins the clinical development of a new class of anti-cancer monoclonal antibodies (mAb), such as anti-CD40, anti-CD27 and anti-CD20. The most advanced is a next generation, fully human drug, ofatumumab (commercialised by GlaxoSmithKline/Genmab; trade-name Arzerra) approved in Oct 2009 to treat advanced chronic lymphocytic leukaemia. Its approval was based on a 42% response rate in patients who had failed current `best in class' treatment. Arzerra is now a multi-million dollar drug, launched in 26 countries (and growing) and is being used in 19 on-going clinical trials worldwide for diseases ranging from lymphoma to rheumatoid arthritis and multiple sclerosis. Southampton's work has inspired follow-on funding from government and industry in excess of £12m.
The HiLo trial has changed management for patients with well-differentiated thyroid cancer. Patients undergoing radioiodine ablation therapy are now given a low dose of radioactive iodine, which has fewer side effects, compared to the previous (standard) high dose. Also, to prepare patients for ablation they now have recombinant human TSH (thyrotropin alfa), which is associated with a better quality of life before and during ablation. The combination of low dose radioiodine and thyrotropin alfa means that patients can be treated as outpatients rather than inpatients. This is a more convenient treatment package, reducing health service and societal costs.
Cancer is a widespread deadly disease; annually, one million new breast cancers are diagnosed globally. Endometriosis is a poorly understood disorder, with 80 million patients worldwide. Current therapies for both are inadequate and discovery of new drugs is critical. The Bath group has pioneered identification of new targets and designed two "first-in-class" clinical drugs. The Bath/Imperial College spin-out company Sterix (subsequently acquired by a major pharmaceutical company) has translated them into patients and to the pharmaceutical industry. The steroid sulfatase inhibitors, Irosustat and J995 have entered eighteen clinical trials worldwide in patients with these hormone-dependent diseases, with several ongoing since 2008. Disease was stabilised for cancer patients; the advanced clinical evaluation of both drugs is in progress.
Bladder cancer is the fifth most common form of cancer, with over 70% of cases presenting as non-muscle invasive bladder carcinomas (NMIBC). Research in the Institute of Cancer Therapeutics at the University of Bradford led to the evaluation of Apaziquone (EO9) in phase II clinical trials against high risk NMIBC in The Netherlands, and two multi-centre phase III clinical trials involving 106 centres across the USA, Canada and Europe. A total of 1,746 patients with low or high risk NMIBC received EO9 and significant reductions in the rates of recurrence at two years have been reported. Our research has impacted upon the health and welfare of patients with NMIBC.