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From patient referral to post-therapy management, Chimeric Antigen Receptor (CAR) T-Cell Therapies for Cancer: A Practical Guide presents a comprehensive view of CAR modified T-cells in a concise and practical format. Providing authoritative guidance on the implementation and management of CAR T-cell therapy from Drs. Daniel W. Lee and Nirali N. Shah, this clinical resource keeps you up to date on the latest developments in this rapidly evolving area. Covers all clinical aspects, including patient referral, toxicities management, comorbidities, bridging therapy, post-CAR monitoring, and multidisciplinary approaches to supportive care. Includes key topics on associated toxicities such as predictive biomarkers, infections, and multidisciplinary approaches to supportive care. Presents current knowledge on FDA approved CAR T-cell products as well as developments on the horizon. Editors and authors represent leading investigators in academia and worldwide pioneers of CAR therapy.
Basics of Chimeric Antigen Receptor (CAR) Immunotherapy presents the latest on how T cell adoptive immunotherapy has progressed in its ultimate goal of curing metastatic malignant cancers. Recent clinical data obtained with checkpoint receptor blockade inhibitors and chimeric antigen receptor (CAR) therapy has been especially promising, thus generating renewed hope that we may be on the verge of finally curing cancer. Over the years, huge progress has been made in controlling several stage IV metastasized cancers through the clinical application of checkpoint receptor inhibitory drugs and CAR-Therapy that has seen unprecedented interest in the immunotherapy field. Presents the first book to provide a basic understanding of chimeric antigen receptor (CARs) design, production and clinical application protocols Provides unique authority as the editor has worked directly with CARs Discusses the challenges encountered in actual clinical trials and how these challenges can be overcome Includes a full chapter on various challenges researchers should expect to encounter in the CAR-therapy field
From patient referral to post-therapy management, Chimeric Antigen Receptor (CAR) T-Cell Therapies for Cancer: A Practical Guide presents a comprehensive view of CAR modified T-cells in a concise and practical format. Providing authoritative guidance on the implementation and management of CAR T-cell therapy from Drs. Daniel W. Lee and Nirali N. Shah, this clinical resource keeps you up to date on the latest developments in this rapidly evolving area. Covers all clinical aspects, including patient referral, toxicities management, comorbidities, bridging therapy, post-CAR monitoring, and multidisciplinary approaches to supportive care. Includes key topics on associated toxicities such as predictive biomarkers, infections, and multidisciplinary approaches to supportive care. Presents current knowledge on FDA approved CAR T-cell products as well as developments on the horizon. Editors and authors represent leading investigators in academia and worldwide pioneers of CAR therapy.
This first open access European CAR-T Handbook, co-promoted by the European Society for Blood and Marrow Transplantation (EBMT) and the European Hematology Association (EHA), covers several aspects of CAR-T cell treatments, including the underlying biology, indications, management of side-effects, access and manufacturing issues. This book, written by leading experts in the field to enhance readers’ knowledge and practice skills, provides an unparalleled overview of the CAR-T cell technology and its application in clinical care, to enhance readers’ knowledge and practice skills.
In this book we provide insights into liver – cancer and immunology. Experts in the field provide an overview over fundamental immunological questions in liver cancer and tumorimmunology, which form the base for immune based approaches in HCC, which gain increasing interest in the community due to first promising results obtained in early clinical trials. Hepatocellular carcinoma (HCC) is the third most common cause of cancer related death in the United States. Treatment options are limited. Viral hepatitis is one of the major risk factors for HCC, which represents a typical “inflammation-induced” cancer. Immune-based treatment approaches have revolutionized oncology in recent years. Various treatment strategies have received FDA approval including dendritic cell vaccination, for prostate cancer as well as immune checkpoint inhibition targeting the CTLA4 or the PD1/PDL1 axis in melanoma, lung, and kidney cancer. Additionally, cell based therapies (adoptive T cell therapy, CAR T cells and TCR transduced T cells) have demonstrated significant efficacy in patients with B cell malignancies and melanoma. Immune checkpoint inhibitors in particular have generated enormous excitement across the entire field of oncology, providing a significant benefit to a minority of patients.
Clinical and preclinical exploration of gene and cellular immunotherapy have seen rapid growth and interest with the development and approval of five Chimeric Antigen Receptor T-cell (CAR-T) products for lymphoma and myeloma and one Bispecific T-Cell Engager (BiTE) for acute lymphoblastic leukemia (ALL). These advances have dramatically improved the management of patients with relapsed refractory lymphoma, myeloma and leukemia. Gene and Cellular Immunotherapy for Cancer offers readers a comprehensive review of current cellular and gene-based immunotherapies. Divided into eighteen cohesive chapters, this book provides an in-depth and detailed look into cellular-based immunotherapies including CAR-T, TCR-T, TIL, Viral CTLs, NK cells in addition to T/NK cell engagers, focusing on their historical perspectives, biology, development and manufacturing, toxicities and more. Edited by two leading experts on gene and cellular immunotherapy, the book will feature chapters written by a diverse collection of recognized and up-and-coming experts and researchers in the field, providing oncologists, immunologists, researchers and clinical and basic science trainees with a bench to bedside view of the latest developments in the field.
Part I- Understanding Cancer Immunotherapy: A brief Review. Immunotherapy, also called biologic therapy, is a type of cancer treatment that boosts the body's natural defenses to fight cancer. It uses substances made by the body or in a laboratory to improve or restore immune system function. Immunotherapy may work by: Stopping or slowing the growth of cancer cells Stopping cancer from spreading to other parts of the body Helping the immune system work better at destroying cancer cells There are several types of immunotherapy, including: Monoclonal antibodies and tumor-agnostic therapies Non-specific immunotherapies Oncolytic virus therapy T-cell therapy Cancer vaccines Part II- “What is Chimeric Antigen Receptor (CAR) T- Cell Therapy?” An Emerging Cancer Treatment Modality. Chimeric antigen receptor (CAR) T-cell therapy is an emerging cancer treatment modality in which the patients’ own immune cells are collected, genetically engineered to recognize a tumor-related target, expanded in vitro, and then reinfused to produce responses and prevent progression in a variety of malignancies (ie, adoptive cell transfer) Several types of adoptive cell transfer(ACT) are under investigation, but CAR T-cell therapy is the first to enter clinical practice. Like other technologies, CAR-T cell therapy has undergone a long development process in the past. Chimeric antigen receptor- (CAR-) T cell therapy is one of the most recent innovative immunotherapies and is rapidly evolving. At present, CAR-T cell therapy is developing rapidly, and many clinical trials have been established on a global scale, which has great commercial potential. I have endeavored to compile this E- Booklet into Two Parts i.e. Part I & Part II for better understanding of Chimeric antigen receptor (CAR) T-cell therapy, an emerging cancer treatment modality. In Part I, an effort has been made to describe Cancer Immunotherapy briefly whereas in Part II know about of CAR T-Cell Therapy-the first to enter clinical practice- has been embodied. Further it is attempted to describe toxicity of CAR-T cell therapy briefly and future development and opportunities for immunotherapy. …Dr. H. K. Saboowala. M.B.(Bom) .M.R.S.H.(London)
This book equips young immunologists and health professionals with a clear understanding of the fundamental concepts and roles of co-signal molecules and in addition presents the latest information on co-stimulation. The first part of the book is devoted to co-signal molecules and the regulation of T cells. Following an initial overview, subsequent chapters examine each co-signal molecule in turn and discuss the mechanisms by which co-signal molecules regulate the different types of T cell. The second part covers various clinical applications, including in autoimmune disease, neurological disorders, transplantation, graft-versus-host disease, and cancer immunotherapy. To date, co-stimulation blockade and co-inhibition blockade have shown beneficial effects and many additional clinical trials targeting co-signal molecules are ongoing. The mechanisms underlying these successful treatments are explained and the future therapeutic potential in the aforementioned diseases is evaluated. Co-signal Molecules in T Cell Activation will be a valuable reference guide to co-stimulation for basic and clinical researchers in the fields of both immunology and pharmaceutical science.
The editors of this special volume would first like to thank all authors for their excellent contributions. We would also like to thank Prof. Dr. Thomas Scheper, Dr. Marion Hertel and Ulrike Kreusel for providing the opportunity to compose this volume and Springer for organizational and technical support. Tissue engineering represents one of the major emerging fields in modern b- technology; it combines different subjects ranging from biological and material sciences to engineering and clinical disciplines. The aim of tissue engineering is the development of therapeutic approaches to substitute diseased organs or tissues or improve their function. Therefore, three dimensional biocompatible materials are seeded with cells and cultivated in suitable systems to generate functional tissues. Many different aspects play a role in the formation of 3D tissue structures. In the first place the source of the used cells is of the utmost importance. To prevent tissue rejection or immune response, preferentially autologous cells are now used. In particular, stem cells from different sources are gaining exceptional importance as they can be differentiated into different tissues by using special media and supplements. In the field of biomaterials, numerous scaffold materials already exist but new composites are also being developed based on polymeric, natural or xenogenic sources. Moreover, a very important issue in tissue en- neering is the formation of tissues under well defined, controlled and reprod- ible conditions. Therefore, a substantial number of new bioreactors have been developed.