The lancet oncology
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The lancet oncology · Jun 2015
ReviewNext-generation (epi)genetic drivers of childhood brain tumours and the outlook for targeted therapies.
Arguably, nowhere has there been a greater advance in our understanding of biological mechanisms and potential translational targets during the next-generation sequencing era than in paediatric brain tumours. The so-called omics revolution, enabled by high-throughput sequencing, has empowered large consortia and independent groups alike to make major genetic discoveries, from dominant-negative histone mutations and hijacking of distal enhancer elements, to new oncogenic gene fusions and aberrantly active gene expression. Epigenetic deregulation has also been revealed as a common theme across several tumour subtypes. This Review focuses on key findings that have been transforming the landscape of paediatric neuro-oncology research and how these results are opening new avenues towards potential therapeutic translation.
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The two licensed bivalent and quadrivalent human papillomavirus (HPV) L1 (the major papillomavirus virion protein) virus-like particle (VLP) vaccines are regarded as safe, effective, and well established prophylactic vaccines. However, they have some inherent limitations, including a fairly high production and delivery cost, virus-type restricted protection, and no reported therapeutic activity, which might be addressed with the development of alternative dosing schedules and vaccine products. A change from a three-dose to a two-dose protocol for the licensed HPV vaccines, especially in younger adolescents (aged 9-13 years), is underway in several countries and is likely to become the future norm. ⋯ These two approaches would add an HPV component to existing live attenuated vaccines for measles and typhoid fever. Prophylactic vaccines that are based on induction of broadly cross-neutralising antibodies to L2, the minor HPV capsid protein, are also being developed both as simple monomeric fusion proteins and as virus-like display vaccines. The strong interest in developing the next generation of vaccines, particularly by manufacturers in middle-to-high income countries, increases the likelihood that vaccine production will become decentralised with the hope that effective HPV vaccines will be made increasingly available in low-resource settings where they are most needed.
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The lancet oncology · May 2015
ReviewPrimary endpoints for future prophylactic human papillomavirus vaccine trials: towards infection and immunobridging.
Although available human papillomavirus (HPV) vaccines have high efficacy against incident infection and disease caused by HPV types that they specifically target, new vaccine trials continue to be needed. The goals of these trials could include change of vaccine dose or route of administration (or both), development of second-generation vaccines, and the regional manufacture of biosimilar vaccines. We summarise present thinking about primary endpoints for HPV vaccine trials as developed at an experts workshop convened by the International Agency for Research on Cancer and the US National Cancer Institute in September, 2013. ⋯ However, on the basis of experience from the trials and present knowledge of HPV infection, future efficacy trials for new vaccines can be safely streamlined by the use of persistent HPV infection, which occurs more frequently than CIN2+, and can be more reproducibly measured as a primary endpoint. Immunobridging trials can be sufficient to ascertain immunological non-inferiority for licensure for alternate dosing schedules, bridging to age 26 years or younger, and biosimilar vaccines, with post-licensure surveillance confirming effectiveness. These recommendations are intended to help stimulate continued vaccine development while ensuring appropriate assessment of safety and efficacy.
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Cancers can evade the host immune system by inducing upregulation of immune inhibitory signals. Anti-programmed cell death-1 (PD-1) monoclonal antibodies block these inhibitory signals allowing the host to mount an immune response against malignant cells. ⋯ However, early clinical trials using PD-1 inhibitors have shown significant clinical activity in various subtypes of relapsed lymphoma. In this Review, we assess the scientific literature on the role of the PD-1 pathway in lymphoma, the relevant clinical data for PD-1 inhibition, and future strategies for this next generation of anticancer agents.
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The lancet oncology · May 2015
ReviewPresent status of human papillomavirus vaccine development and implementation.
Oncogenic human papillomavirus (HPV) infection is the cause of nearly all cervical cancers and a proportion of other anogenital and oropharyngeal cancers. A bivalent vaccine containing HPV 16 and 18 and a quadrivalent vaccine containing HPV 6, 11, 16, and 18 antigens are in use in vaccination programmes around the world. In clinical trials, three vaccine doses provided 90-100% protection against cervical infection and pre-cancer related to HPV 16 and 18 in women aged 15-26 years who were not infected at vaccination. ⋯ By 2014, more than 57 countries had included the HPV vaccine in their national health programmes. Data from several countries have shown the effect of vaccination on HPV infection and associated disease, and provided evidence of herd immunity. Expansion of programmes to countries with the highest burden of disease is beginning, but further efforts are needed to realise the potential of HPV vaccines.