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As the first neurological hospital in the world, founded in 1859, the National Hospital, Queen Square, and its affiliated Institute of Neurology remain leading neurological centres providing exceptional clinical services, teaching and research. Illustrated by over 100 historical images and much unpublished archival material, this book provides a comprehensive history of the National Hospital, the Institute, and their staff. It relates the ups and downs of the Hospital and Institute in war and peacetime, their financial struggles, many personality conflicts, efforts to remain independent and to maintain neurological dominance, academic and clinical contributions, issues relating to specialisation and subspecialisation and relations between disciplines, and the changing roles of the Hospital and Institute. The history is told from varying perspectives against the backdrop of the evolution of British clinical neuroscience, the special position of London medicine, and the influence of world wars, and is set in the context of modern British social history

"The National Hospital for the Relief and Cure of Paralysis and Epilepsy, as it was first named, was founded in November 1959, and opened its doors for business in 1860 as the first specialist neurological hospital in the world. It quickly gained a reputation as the 'mecca of neurology' and soon became a place of pilgrimage for neurologists from many countries. This book celebrates the fluctuating fortunes, and fascinating history from foundation to eventual amalgamation of the National Hospital with University College Hospital in 1996, and its Institute of Neurology with University College London in 1997"--

This paper identifies the mechanism by which patients with multiple sclerosis develop secondary autoimmunity after treatment with the lymphocyte-depleting humanized monoclonal antibody alemtuzumab (Campath-1H). In identifying this mechanism, it shows that T-cell homeostatic proliferation can lead to autoimmunity in humans. Alemtuzumab is one of the most effective treatments of multiple sclerosis tested to date; it is currently licensed in the European Union and under consideration by the Food and Drug Administration. Understanding what drives its most significant side effect is of clear clinical importance.

Genome-wide association studies (GWAS) have identified more than 50,000 unique associations with common human traits. While this represents a substantial step forward, establishing the biology underlying these associations has proven extremely difficult. Even determining which cell types and which particular gene(s) are relevant continues to be a challenge. Here, we conduct a cell-specific pathway analysis of the latest GWAS in multiple sclerosis (MS), which had analyzed a total of 47,351 cases and 68,284 healthy controls and found more than 200 non-MHC genome-wide associations. Our analysis identifies pan immune cell as well as cell-specific susceptibility genes in T cells, B cells and monocytes. Finally, genotype-level data from 2,370 patients and 412 controls is used to compute intraindividual and cell-specific susceptibility pathways that offer a biological interpretation of the individual genetic risk to MS. This approach could be adopted in any other complex trait for which genome-wide data is available. ; This investigation was supported in part by the following sources: NIH/NINDS awards R01NS088155 and 1R01NS099240, the Valhalla Charitable Foundation, and the Heidrich Family and Friends Foundation (Sergio E. Baranzini). US National Multiple Sclerosis Society (TA 3056-A-2), the Harvard NeuroDiscovery Center and an Intel Parallel Computing Center award (Nikolaos A. Patsopoulos). Swedish Medical Research Council; Swedish Research Council for Health, Working Life and Welfare, Knut and Alice Wallenberg Foundation, AFA insurance, Swedish Brain Foundation, the Swedish Association for Persons with Neurological Disabilities. Cambridge NIHR Biomedical Research Centre, UK Medical Research Council (G1100125) and the UK MS society (861/07). NIH/NINDS: R01 NS049477, NIH/NIAID: R01 AI059829, NIH/NIEHS: R01 ES0495103. Research Council of Norway grant 196776 and 240102. NINDS/NIH R01NS088155. Oslo MS association. Research Council KU Leuven, Research Foundation Flanders. AFM, AFM-Généthon, CIC, ARSEP, ANR-10-INBS-01 and ANR-10-IAIHU-06. Research Council KU Leuven, Research Foundation Flanders. Inserm ATIP-Avenir Fellowship and Connect-Talents Award. German Ministry for Education and Research, German Competence Network MS (BMBF KKNMS). Oslo MS association, Research Council of Norway grant 196776 and 240102. Dutch MS Research Foundation. TwinsUK is funded by the Wellcome Trust, Medical Research Council, European Union, the National Institute for Health Research (NIHR)-funded BioResource, Clinical Research Facility and Biomedical Research Centre based at Guy's and St Thomas' NHS Foundation Trust in partnership with King's College London. German Ministry for Education and Research, German Competence Network MS (BMBF KKNMS). Italian Foundation of Multiple Sclerosis (FISM). NMSS (RG 4680A1/1). German Ministry for Education and Research, German Competence Network MS (BMBF KKNMS). Lundbeck Foundation and Benzon Foundation. ; publishedVersion