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Author:   Marinos C. Dalakas (Professor of Neurology, Thomas Jefferson University School of Medicine, Philadelphia, USA)
Publisher:   Elsevier - Health Sciences Division
Imprint:   Elsevier - Health Sciences Division
ISBN:  

9780323908870

ISBN 10:   032390887
Pages:   492
Publication Date:   09 February 2026
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
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Table of Contents

1. Introduction to Neuroimmunotherapies: An impressive progress towards targeted effective biologics Section 1. Special Invited Chapters: Evolution of Autoimmune Neurology 2. Autoimmune encephalitis, Autoimmune dementias and Autoimmune psychotic disorders 3. The History of Paraneoplastic Neurologic Disorders of the CNS, PNS, and Autonomic Nervous Systems: Perspective on the Past Towards a Brighter Future Section 2. Basic principles of immune activation in neurological diseases as related to targeted immunotherapies 4. Role of B cells and pathogenic autoantibodies in autoimmune CNS and PNS Neurologic diseases 5. Role of complement in neurological autoimmunities: why need to target complement activation for effective immunotherapy 6. Paraneoplastic autoimmune neurological disorders and role of immune checkpoint inhibitors Section 3. Immunotherapeutic agents in Autoimmune Neurological Diseases: Current and evolving biologics 7. The evolution and current status of anti-B cell therapies in autoimmune Neurologic diseases 8. Evolving targeted biologics against T cells, cytokines and intracellular immune targets for multiple sclerosis with implications in other autoimmune neurological diseases 9. FcRn inhibitors: a new era in neurotherapeutics 10. Intravenous Immunoglobulin (IVIg) use in Neurology 11. HSCT for Multiple sclerosis: Improving understanding and addressing misconceptions 12. Autonomic nervous system autoimmunity and proposed immunotherapies Section 4.  Immunotherapies for specific Neurological Diseases (how do I do it): A step-by step approach based on evidence-based indications with a view to the future 13. Immunotherapies on Autoimmune Encephalitis 14. Immunotherapies in Relapsing-remitting Multiple sclerosis 15. Immunotherapies in progressive Multiple sclerosis 16. Disease Modifying Therapy in Pediatric Multiple Sclerosis 17. Immunotherapies for neuromyelitis optica spectrum disorder (NMOSD) and myelin oligodendrocyte glycoprotein antibody-associated disease (MOGAD) 18. Immunotherapies in Autoimmune Movement Disorders and Cerebellar Ataxia 19. Immunobiology and Immunotherapies in Stiff-person syndrome and GAD antibody-spectrum disorders: Present and future therapeutic prospects 20. Immunotherapies on Guillain-Barre syndrome and other Acute Autoimmune neuropathies 21. Immunotherapies in CIDP and other Chronic Autoimmune Neuropathies 22. Immunotherapy considerations for distal sensory-predominant and small fiber peripheral neuropathies 23. Immunotherapies in Autoimmune neuromuscular Junction disorders: Acute and Chronic management 24. Immunotherapies in Autoimmune Inflammatory Myopathies: Rationale and therapeutic updates 25. The Future Unfolded: CAR T Cells and the Transformation of Treatment Algorithms in Autoimmune Neurology

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Author Information

Dr. Marinos Dalakas is Professor of Neurology and Director of the Neuromuscular Division at Thomas Jefferson University School of Medicine in Philadelphia. He is Professor of Neurology and Chief of the Neuroimmunology Laboratory in the Department of Pathophysiology at the University of Athens Medical School in Athens, where he has been Emeritus Professor since 2016. Dr. Dalakas is an appointed member in various scientific societies and is a member of the American Neurological Association, the American Academy of Neurology, the European Neurological Society, and the International Society of Greek Neuroscientists, among other professional organizations. Dr. Dalakas has published widely. His areas of research are broad and include neuroimmunology, neurovirology, genetics, and immunotherapies in neurologic diseases. He has focused on neuropathies, myopathies, dystrophies, ALS, multiple sclerosis, and various autoimmune neurological disorders, with the application and design of new treatments. He completed a 3-year fellowship training in neuromuscular diseases at the Medical Neurology Branch of the NINCDS in Bethesda, Maryland and an additional 5-year training in Neuroimmunology/Neurovirology at NINDS. He subsequently served as Chief of the Neuromuscular Diseases Section of the NINDS, NIH, a position he held for 20 years before joining Thomas Jefferson University.

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