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| differentiation therapy in cancer: Cancer Stem Cells: New Horizons in Cancer Therapies Surajit Pathak, Antara Banerjee, 2020-10-17 This book discusses the recent developments in the therapeutic implications of cancer stem cells for the effective diagnosis, prognosis, and treatment of cancer. It summarizes the various stem cells of common cancers including colon, pancreas, lungs, prostate, melanoma, and glioblastoma, and reviews the potential role of cancer stem cells in tissue aggressiveness, examining the functional contribution of cancer stem cells in the establishment and recurrence of cancerous tumors. Further, it explores the potential of cancer stem cells as novel therapeutic targets for the treatment and prevention of tumor progression. The book also discusses the various approaches for detecting, isolating, and characterizing different cancer stem cells and signaling pathways that control their replication, survival, and differentiation. Lastly, it explores the key features and mechanisms of drug resistance, chemo-resistance, and radio-resistance in cancer stem cells to improve therapeutic rationale. |
| differentiation therapy in cancer: Comparative Oncology Alecsandru Ioan Baba, Cornel Cătoi, 2007 |
| differentiation therapy in cancer: Nutritional Oncology George L. Blackburn, Vay Liang W. Go, John Milner, 2011-05-02 Nutritional oncology is an increasingly active interdisciplinary field where cancer is investigated as both a systemic and local disease originating with the changes in the genome and progressing through a multi-step process which may be influenced at many points in its natural history by nutritional factors that could impact the prevention of cancer, the quality of life of cancer patients, and the risk of cancer recurrence in the rapidly increasing population of cancer survivors.Since the first edition of this book was published in 1999, the idea that there is a single gene pathway or single drug will provide a cure for cancer has given way to the general view that dietary/environmental factors impact the progression of genetic and cellular changes in common forms of cancer. This broad concept can now be investigated within a basic and clinical research context for specific types of cancer. This book attempts to cover the current available knowledge in this new field of nutritional oncology written by invited experts. This book attempts to provide not only the theoretical and research basis for nutritional oncology, but will offer the medical oncologist and other members of multidisciplinary groups treating cancer patients practical information on nutrition assessment and nutritional regimens, including micronutrient and phytochemical supplementation. The editors hope that this volume will stimulate increased research, education and patient application of the principles of nutritional oncology.NEW TO THIS EDITION:* Covers hot new topics of nutrigenomics and nutrigenetics in cancer cell growth * Includes new chapters on metabolic networks in cancer cell growth, nutrigenetics and nutrigenomics* Presents substantially revised chapters on breast cancer and nutrition, prostate cancer and nutrition, and colon cancer and nutrition* Includes new illustrations throughout the text, especially in the breast cancer chapter* Includes integrated insights into the unanswered questions and clearly defined objectives of research in nutritional oncology * Offers practical guidelines for clinicians advising malnourished cancer patients and cancer survivors on diet, nutrition, and lifestyle * Provides information on the role of bioactive substances, dietary supplements, phytochemicals and botanicals in cancer prevention and treatment |
| differentiation therapy in cancer: Growth Factors and Their Receptors in Cell Differentiation, Cancer and Cancer Therapy G V Sherbet, 2011-07-14 Annotation G.V. Sherbet provides insights into the signalling processes involved in morphogenesis and pathogenesis with emphasis on using the elements of the signalling cascades as targets for therapeutic deployment. The book focuses on the relationships and convergence of growth factors and their receptors in development and pathogenesis. |
| differentiation therapy in cancer: The Unfolded Protein Response in Cancer Robert Clarke, 2019-03-01 This volume presents state-of-the-art information on each of the arms of the unfolded protein response (UPR), how their activation/repression are regulated, integrated, and coordinated, how UPR components affect cancer cell biology and responsiveness to therapeutic interventions, and how UPR components/activities offer potentially novel targets for drug discovery, repurposing, and development. The volume will provide the most recent information on the signaling and regulation of the UPR, explore examples of how the UPR and/or specific components contribute to cancer biology, and identify and explore specific examples of potently new actionable targets for drug discovery and development from within the UPR and its regulation. Unique to the volume will be a specific focus on the UPR and its role in cancer biology, as well as a discussion of the role of the UPR in drug responses and resistance in cancer. |
| differentiation therapy in cancer: Approaches to Understanding Breast Cancer , 2017-10-19 Approaches to Understanding Breast Cancer, Volume 151, the latest volume in the Progress in Molecular Biology and Translational Science series focuses on breast cancer, with new chapters that include information on Breast Cancer Epidemiology, Prevention, and Screening, DCIS: Current Principles of Management, Pregnancy and Hormonal Prevention of Breast Cancer, Chemokines: Key Players in Pathobiology of Breast Cancer, Mircrobiota and Breast Cancer, Experimental Therapeutic Use of Estrogen Receptor Beta Agonists in Prevention and Treatment of Endocrine Therapy Resistant Breast Cancers: Observations from Pre-Clinical Models, Targeting Breast Cancer Stem Cells: Key for Anti-Metastatic Therapy, and Experimental Therapy of Advanced Breast Cancer: Target NFAT1-MDM2-p53 Pathway. - Accessible to students and researchers alike - Written by leading authorities in the field |
| differentiation therapy in cancer: The Status of Differentiation Therapy of Cancer Giovanni B. Rossi, Fumimaro Takaku, 1991 |
| differentiation therapy in cancer: Stem Cells and Cancer Stem Cells, Volume 11 M.A. Hayat, 2016-08-23 Volume 11 in this series discusses therapeutic applications of stem cells in disease and tissue injury. Coverage includes pluripotent stem cells, which can give rise to the endodermal, ectodermal, and mesodermal lineages; multipotent stem cells, which can generate all cells in a particular lineage and unipotent stem cells, which can give rise to only one cell type. This volume also examines cancer stem cells, tumor-initiating cells which possesses the capacity of self-renewal and can give rise to the heterogeneous lineages of cancer cells that comprise the tumor. Coverage extends to molecular mechanisms underlying the derivation and expansion of human embryonic stem cells, the role of specific proteins in the maintenance and inhibition of extraembryonic differentiation of these cells and the role of signaling responsible for the self-renewal of mouse embryonic stem cells. Nine chapters discuss the clinical importance of cancer stem cells, encompassing glioma, leukemia, ovarian cancer, pediatric sarcomas and head and neck squamous cell carcinoma. The role of cancer stem cells is also elucidated in epithelial-to-mesenchymal transition in spreading head and neck squamous cell carcinoma. The book goes on to survey therapeutic application of stem cells of hematopoietic and non-hematopoietic origin for regeneration of bones, including in osteoporotic bone disease; to illuminate the application of hematopoietic stem cells in bone regeneration and to discuss their use as a biomarker to facilitate determination of a treatment. The contributors review cells as biomarkers for pediatric solid tumors, and weigh the advantages and limitations of hematopoietic stem cell transplantation. Also included are details of neural stem cell engraftment in the injured spinal cord; the regenerative potential of neural stem/progenitor cells of newborns and cancer gene therapy potential using neural stem cells. Like the preceding volumes in the series, this book is distinguished for its comprehensive approach, its distinguished roster of 58 contributors representing 10 different countries and its thorough review of leading-edge technology and methods. |
| differentiation therapy in cancer: Developmental Biology and Cancer Gisele M. Hodges, Charles Rowlatt, 1993-09-27 This book addresses possible analogies between cancer and developmental biology. An international group of experts provides a multidisciplinary approach, allowing biological or clinical scientists involved with cancer research to integrate specific information from diverse areas. Five concepts of cancer are presented, and developmental biology is reviewed at five levels. These are integrated in discussions of failure in organisation as a basis of cancer and its control. The book will be a valuable reference for both newcomers as well as experienced biological and clinical scientists. Features |
| differentiation therapy in cancer: Clinical Oncology Martin D. Abeloff, 2000 A must-have reference, this new edition provides practical information on treatment guidelines, details of diagnosis and therapy, and personal recommendations on patient management from experts in the field. Consistently formatted chapters allow for a user-friendly presentation for quick access of key information by the practicing clinician. Completely updated, this new edition includes all of the latest developments in treatment strategies of medical, surgical and radiation oncologists. |
| differentiation therapy in cancer: A Comprehensive Guide to Toxicology in Nonclinical Drug Development Ali S. Faqi, 2016-11-03 A Comprehensive Guide to Toxicology in Nonclinical Drug Development, Second Edition, is a valuable reference designed to provide a complete understanding of all aspects of nonclinical toxicology in the development of small molecules and biologics. This updated edition has been reorganized and expanded to include important topics such as stem cells in nonclinical toxicology, inhalation and dermal toxicology, pitfalls in drug development, biomarkers in toxicology, and more. Thoroughly updated to reflect the latest scientific advances and with increased coverage of international regulatory guidelines, this second edition is an essential and practical resource for all toxicologists involved in nonclinical testing in industry, academic, and regulatory settings. - Provides unique content that is not always covered together in one comprehensive resource, including chapters on stem cells, abuse liability, biomarkers, inhalation toxicology, biostatistics, and more - Updated with the latest international guidelines for nonclinical toxicology in both small and large molecules - Incorporates practical examples in order to illustrate day-to-day activities and the expectations associated with working in nonclinical toxicology |
| differentiation therapy in cancer: The Heterogeneity of Cancer Metabolism Anne Le, 2018-06-26 Genetic alterations in cancer, in addition to being the fundamental drivers of tumorigenesis, can give rise to a variety of metabolic adaptations that allow cancer cells to survive and proliferate in diverse tumor microenvironments. This metabolic flexibility is different from normal cellular metabolic processes and leads to heterogeneity in cancer metabolism within the same cancer type or even within the same tumor. In this book, we delve into the complexity and diversity of cancer metabolism, and highlight how understanding the heterogeneity of cancer metabolism is fundamental to the development of effective metabolism-based therapeutic strategies. Deciphering how cancer cells utilize various nutrient resources will enable clinicians and researchers to pair specific chemotherapeutic agents with patients who are most likely to respond with positive outcomes, allowing for more cost-effective and personalized cancer therapeutic strategies. |
| differentiation therapy in cancer: The Nuclear Receptor FactsBook Vincent Laudet, Hinrich Gronemeyer, 2002 The FactsBook Series has established itself as the best source of easily accessible and accurate facts about protein groups. They use an easy-to-follow format and are researched and compiled by experts in the field. This Factsbook is devoted to nuclear receptors. The first section presents an introduction and describes the mode of action of the receptors in general. The second section of the book contains detailed entries covering each type of receptor. Entries provide information on: Nomenclature and structure, Isolation, DNA binding properties, Ligands, Expression, Target genes, Knockouts, Disease association, Gene structure, promoter and isoforms, Chromosomal location, Amino acid sequences, Key references |
| differentiation therapy in cancer: The Molecular Basis of Cancer John Mendelsohn, Peter M. Howley, Mark A. Israel, Joe W. Gray, Craig B. Thompson, 2008-04-01 Successfully fighting cancer starts with understanding how it begins. This thoroughly revised 3rd Edition explores the scientific basis for our current understanding of malignant transformation and the pathogenesis and treatment of cancer. A team of leading experts thoroughly explain the molecular biologic principles that underlie the diagnostic tests and therapeutic interventions now being used in clinical trials and practice. Incorporating cutting-edge advances and the newest research, the book provides thorough descriptions of everything from molecular abnormalities in common cancers to new approaches for cancer therapy. Features sweeping updates throughout, including molecular targets for the development of anti-cancer drugs, gene therapy, and vaccines...keeping you on the cutting edge of your specialty. Offers a new, more user-friendly full-color format so the information that you need is easier to find. Presents abundant figures-all redrawn in full color-illustrating major concepts for easier comprehension. Features numerous descriptions of the latest clinical strategies-helping you to understand and take advantage of today’s state-of-the-art biotechnology advances. |
| differentiation therapy in cancer: Harrison's Manual of Oncology Bruce A. Chabner, Lynch Jr., Dan L. Longo, 2007-12-02 Lange Q&A: Mammography Examination is a comprehensive study guide for the ARRT’s Mammography Examination. The book summarizes the mammography curriculum in a clear and concise format and includes review Q&A plus two complete practice exams. With this book, radiographic technicians get the practice they need to pass the registry examination with flying colors. |
| differentiation therapy in cancer: Stem Cells and Cancer in Hepatology Yun-Wen Zheng, 2018-05-24 Stem Cells and Cancer in Hepatology: From the Essentials to Application offers basic scientists and clinicians in the fields of stem cells, hepatology and oncology an overview of the interaction between liver biology, stem cells and cancer. It discusses how the liver performs regeneration and repair, the role stem cells play in these processes, and the mechanisms by which liver cancers are initiated and developed. As the field of stem cells and cancer stem cells in hepatology is new and dynamic, thus making it difficult for researchers and clinicians to understand the most relevant historic and novel studies, this volume addresses that challenge. |
| differentiation therapy in cancer: The Myc Gene Laura Soucek, Jonathan Whitfield, 2021-05-23 This second edition provides new and updated chapters detailing recent advances in MYC research and current techniques. Chapters guide readers through protocols on how to express and purify MYC protein, X-ray crystallography, NMR, techniques to study how MYC is modified, apoptosis, senescence, proliferation, metabolic changes, translation, tumorigenesis,reprogramming, and clinical application of MYC studies.Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, The Myc Gene: Methods and Protocols, Second Edition aims to ensure successful results in the further study of this vital field. |
| differentiation therapy in cancer: Vascular Differentiation and Plant Hormones Roni Aloni, 2021-01-25 The book is intended as a guide for molecular biology students, equipping them to successfully study plants. It pursues a holistic approach, viewing the whole plant as an integrated operating organism, and is written in a straightforward manner, making it appealing to anyone interested in plants. Further, it reflects the latest findings for scientists and students in the fields of plant sciences, biology, agriculture, forestry, ecology, vascular medicine and cancer, discussing e.g. how hormonal signals induce and regulate simple and complex patterns in plants vascular tissues, their adaptation and evolution. • written by a world-renowned expert who has worked in the field for 50 years • covers the field from the initial studies conducted more than a century ago up to recent studies with up-to-date explanations • describes in details the structure, development, physiology and basic molecular biology of plants’ vascular tissues, their function, regeneration and environmental adaptation • explores the controlling mechanisms of plant vascular differentiation by continuously moving hormonal signals and their precursors • discusses the regulation of stem cells and cambium, control of gradients in vascular cell size along the plant, juvenile-adult transition and rejuvenation, grafting, mechanisms of recovery from bending by reaction wood, evolution of vessels and fibers from tracheids, regulation of ring-porous wood evolution, protecting mechanisms against insects and pathogens, parasitism, plant cancer, and more • helps readers understand the scope and breadth of plant vascular systems in 20 detailed, high-quality chapters • includes a wealth of outstanding original color photographs and illustrations documenting the formation of vascular tissues • provides an in-depth understanding of plant biology by studying their vascular tissues |
| differentiation therapy in cancer: Comprehensive Dermatologic Drug Therapy Stephen E Wolverton, Jashin J. Wu, 2019-12-14 Designed with practical usability in mind, Comprehensive Dermatologic Drug Therapy, 4th Edition, helps you safely and effectively treat the skin disorders you're likely to see in your practice. Dr. Stephen E. Wolverton and new associate editor Dr. Jashin J. Wu lead a team of global experts to bring you concise, complete guidance on today's full spectrum of topical, intralesional, and systemic drugs. You'll prescribe with confidence thanks to expert coverage of which drugs to use, when to use them, and adverse effects to monitor. - Includes new drug interaction tables, drug risk profiles, and FDA guidelines, as well as two new appendices that summarize chapter questions and summarize highest-risk drug interactions. - Covers the best uses for new biologic therapeutics. - Contains new chapters covering medical decision-making principles, PDE-4 and JAK inhibitors, interleukin 17 inhibitors, interleukin 23 inhibitors, additional biologic therapeutics, and hedgehog pathway inhibitors. - Contains quick-access summaries of indications/contraindications, dosage guidelines, drug interactions, drug monitoring guidelines, adverse effects, and treatment protocols. - Features a highly detailed, disease-specific index, as well as purchase information for major drugs. - Helps you assess your knowledge and prepare for certification or recertification with about 800 review questions and answers throughout the book. - Enhanced eBook version included with purchase. Your enhanced eBook allows you to access all of the text, figures, and references from the book on a variety of devices. |
| differentiation therapy in cancer: Redox Regulation of Differentiation and De-differentiation Carsten Berndt, Christopher Lillig, 2024-01-29 Even before oxygen appeared in our athmosphere, redox reactions provided the energy for metabolic steps in the evolution of life. Redox modifications are now important in cellular functions including differentiation/development. This book compiles current knowledge regarding the roles of redox regulation in differentiation and de-differentiation. |
| differentiation therapy in cancer: Epigenetic Therapy of Cancer Michael Lübbert, Peter A. Jones, 2013-12-12 The growing knowledge about disturbances of epigenetic gene regulation in hematopoietic stem cell disorders is now being translated into treatment approaches that target the epigenetic defects pharmacologically. This book first presents the latest evidence regarding the epigenetic regulation of hematopoietic stem cell differentiation and hemoglobin production. The significance of DNA methylation abnormalities in hematopoietic disorders and of epigenetic disturbances in lung cancer and other solid tumors is then discussed. A major part of the book, however, relates specifically to the translation of basic research and drug development to clinical applications, and in this context both present and future clinical strategies are considered. Individual chapters are devoted to the use of DNA hypomethylating agents and chromatin-modifying agents, and the treatment of hematologic malignancies and solid tumors by means of epigenetic agents is discussed in detail. |
| differentiation therapy in cancer: In Vitro Differentiation of T-Cells Shin Kaneko, 2020-08-14 This book explores the vital importance of T-cell differentiation in areas as wide-ranging as pathological analysis, drug development, and cell therapy of human T-cells. Focusing on human embryonic stem cells and human induced pluripotent stem cells, the chapters explore a variety of in vitro T-cell differentiation protocols as well as useful techniques to develop and evaluate cellular medicines. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, In Vitro Differentiation of T-Cells: Methods and Protocols serves as an ideal guide for researchers seeking to differentiate T-cells from pluripotent stem cells in order to achieve any number of significant goals. |
| differentiation therapy in cancer: Herbal Medicine Iris F. F. Benzie, Sissi Wachtel-Galor, 2011-03-28 The global popularity of herbal supplements and the promise they hold in treating various disease states has caused an unprecedented interest in understanding the molecular basis of the biological activity of traditional remedies. Herbal Medicine: Biomolecular and Clinical Aspects focuses on presenting current scientific evidence of biomolecular ef |
| differentiation therapy in cancer: Gynaecological Malignancies Gwo Yaw Ho, Sophia Frentzas, 2020-06-17 “Gynaecological Malignancies - Updates and Advances” aims to present a review of the significant advances in the understanding and management of gynaecological malignancies. Major areas of importance in this field will be covered, incorporating new knowledge that has arisen due to the advancements in molecular techniques and the ability to correlate these molecular changes with clinical behaviour of gynaecologic tumours. The therapeutic implications of molecular subtyping to match appropriate therapies and the appreciation of the use of up to date radiotherapy techniques will be explored. |
| differentiation therapy in cancer: Cancer Stem Cells Lucie Laplane, 2016-06-06 Part IV: The Identity of Stemness and Its Consequences for Cancer Therapies -- Chapter 7. If Stemness Is a Categorical or a Dispositional Property, How Can We Cure Cancers? -- Chapter 8. If Stemness Is a Relational or a Systemic Property, How Can We Cure Cancers? -- Conclusion -- Notes -- References -- Acknowledgments -- Index |
| differentiation therapy in cancer: Clinical Nuclear Medicine Hans-Jürgen Biersack, Leonard M. Freeman, 2008-01-03 This work has true international scope, being a unique European/American joint venture that focuses on the state of the art in both diagnostic and therapeutic radionuclide methodology. Pertinent clinical applications are emphasized rather than attempting to cover everything included in the several large comprehensive texts available in our field. This practical approach should make it an essential guide to nuclear medicine physicians, technologists, students and interested clinicians alike. |
| differentiation therapy in cancer: Mitochondria as Targets for Phytochemicals in Cancer Prevention and Therapy Dhyan Chandra, 2013-12-11 This book highlights the importance of phytochemicals and mitochondria in cancer prevention and therapy. Recent scientific discoveries have identified that naturally occurring biologically active compounds (i.e. phytochemicals) target multiple steps of tumorigenesis leading to the inhibition or delay in cancer progression. Mitochondria, organelles within a cell, are a critical target for phytochemicals in regulating the initiation, promotion, and progression of cancer. The book is divided into three parts to better communicate the important findings related to phytochemicals and mitochondria in cancer research. The first part describes updates on environmental and genetic factors causing cancer initiation and progression, the role of mitochondria function in regulating the process of tumorigenesis, and the role of mitochondria in regulating cell death such as apoptosis, autophagy, and necroptosis. The second part focuses on the elucidation of key target proteins that could be exploited for cancer prevention, an the role of phytochemicals in cancer prevention, updates on basic research related to phytochemicals action critical for cancer prevention, and updates on translational knowledge on cancer prevention by phytochemicals. The third part provides updates on phytochemicals targeting mitochondria for cancer therapy, an overview of action of phytochemicals on cancer stem cells, updates on the role of microRNA in phytochemicals-based therapy of cancer, and updates on phytochemicals-based translation research on therapy for metastatic cancer. |
| differentiation therapy in cancer: 70 Years of Levothyroxine George J. Kahaly, 2021-03-11 This open access book presents the history, pharmacokinetics and pharmacodynamics of levothyroxine, discussing its role in the thyroid pathophysiology of patients of various ages and during pregnancy. It also describes the influence of levothyroxine on heart, bone and in cancer. When it was first synthesized in 1949, levothyroxine represented a significant advance in the treatment of hypothyroidism, providing a safe and effective treatment option for millions of hypothyroid patients around the globe. This synthetic form of thyroxine is now one of the most prescribed drugs in the world. Levothyroxine was first introduced by Merck KGaA,Darmstadt, Germany, in 1972, and since then the company has remained actively engaged in research on this mainstay of hypothyroidism treatment. This book is intended for healthcare professionals. |
| differentiation therapy in cancer: Translational Regenerative Medicine Anthony Atala, Julie Allickson, 2014-12-01 Translational Regenerative Medicine is a reference book that outlines the life cycle for effective implementation of discoveries in the dynamic field of regenerative medicine. By addressing science, technology, development, regulatory, manufacturing, intellectual property, investment, financial, and clinical aspects of the field, this work takes a holistic look at the translation of science and disseminates knowledge for practical use of regenerative medicine tools, therapeutics, and diagnostics. Incorporating contributions from leaders in the fields of translational science across academia, industry, and government, this book establishes a more fluid transition for rapid translation of research to enhance human health and well-being. - Provides formulaic coverage of the landscape, process development, manufacturing, challenges, evaluation, and regulatory aspects of the most promising regenerative medicine clinical applications - Covers clinical aspects of regenerative medicine related to skin, cartilage, tendons, ligaments, joints, bone, fat, muscle, vascular system, hematopoietic /immune system, peripheral nerve, central nervous system, endocrine system, ophthalmic system, auditory system, oral system, respiratory system, cardiac system, renal system, hepatic system, gastrointestinal system, genitourinary system - Identifies effective, proven tools and metrics to identify and pursue clinical and commercial regenerative medicine |
| differentiation therapy in cancer: Advances in Molecular Oncology Fabrizio d'Adda di Fagagna, Susanna Chiocca, Fraser McBlane, Ugo Cavallaro, 2007-07-18 Proceedings of the 2nd Annual IFOM-IEO Meeting on Cancer. This is a new meeting, it has about 200 attendees from Australia, Austria, Belgium, Brazil, Canada, England, France, Germany, Greece, Ireland, Italy, Japan, Netherlands, Spain, Sweden, Switzerland, and the USA. The 2nd IFOM-IEO international meeting on cancer will provide a forum in which the world’s leading cancer researchers and young scientists will discuss the latest advances in molecular oncology. The impact of recent breakthroughs in basic research and of emerging technologies on molecular medicine in cancer will be highlighted. |
| differentiation therapy in cancer: Pluripotent Stem Cells Deepa Bhartiya, Nibedita Lenka, 2013-08-28 Stem cells have generated a lot of excitement among the researchers, clinicians and the public alike. Various types of stem cells are being evaluated for their regenerative potential. Marginal benefit resulting by transplanting autologus stem cells (deemed to be absolutely safe) in various clinical conditions has been proposed to be a growth factor effect rather than true regeneration. In contrast, various pre-clinical studies have been undertaken, using differentiated cells from embryonic stem cells or induced pluripotent stem cells have shown promise, functional improvement and no signs of teratoma formation. The scientists are not in a rush to reach the clinic but a handful of clinical studies have shown promise. This book is a collection of studies/reviews, beginning with an introduction to the pluripotent stem cells and covering various aspects like derivation, differentiation, ethics, etc., and hence would provide insight into the recent standing on the pluripotent stem cells biology. The chapters have been categorized into three sections, covering subjects ranging from the generation of pluripotent stem cells and various means of their derivation from embryonic as well as adult tissues, the mechanistic understanding of pluripotency and narrating the potential therapeutic implications of these in vitro generated cells in various diseases, in addition to the associated pros and cons in the same. |
| differentiation therapy in cancer: Surgical Treatment René Holzheimer, John A. Mannick, 2001 |
| differentiation therapy in cancer: Cancer Stem Cells Vinagolu K. Rajasekhar, 2014-04-14 Cancer Stem Cells covers a wide range of topics in cancer stem cell biology, including the functional characteristics of cancer stem cells and how they're generated, where they are localized, the means by which cancer stem cells can be targeted, and how cancer stem cells can be reprogrammed back to normal tissue stem cells. Each chapter begins with a brief historical note and concept summary, followed by a description of the latest basic or clinical advance associated with the topic. Cancer Stem Cells builds systematically from coverage of the basic research stage to an advanced research level, from clinical relevance to therapeutic potential, and will be a valuable resource for professionals in the fields of cancer research and stem cell biology. |
| differentiation therapy in cancer: Leukemia Stem Cells César Cobaleda, Isidro Sánchez-García, 2021 |
| differentiation therapy in cancer: Molecular Genetic Pathology Liang Cheng, David Y. Zhang, John N. Eble, 2013-03-05 Molecular Genetic Pathology, Second Edition presents up-to-date material containing fundamental information relevant to the clinical practice of molecular genetic pathology. Fully updated in each area and expanded to include identification of new infectious agents (H1N1), new diagnostic biomarkers and biomarkers for targeted cancer therapy. This edition is also expanded to include the many new technologies that have become available in the past few years such as microarray (AmpliChip) and high throughput deep sequencing, which will certainly change the clinical practice of molecular genetic pathology. Part I examines the clinical aspects of molecular biology and technology, genomics. Poharmacogenomics and proteomics, while Part II covers the clinically relevant information of medical genetics, hematology, transfusion medicine, oncology, and forensic pathology. Supplemented with many useful figures and presented in a helpful bullet-point format, Molecular Genetic Pathology, Second Edition provides a unique reference for practicing pathologists, oncologists, internists, and medical genetisists. Furthermore, a book with concise overview of the field and highlights of clinical applications will certainly help those trainees, including pathology residents, genetics residents, molecular pathology fellows, internists, hematology/oncology fellows, and medical technologists in preparing for their board examination/certification. |
| differentiation therapy in cancer: Cancer Genomics for the Clinician Ramaswamy Govindan, MD, Siddhartha Devarakonda, MD, 2019-01-28 Cancer Genomics for the Clinician is a practical guide to cancer genomics and its application to cancer diagnosis and care. The book begins with a brief overview of the various types of genetic alterations that are encountered in cancer, followed by accessible and applicable information on next generation sequencing technology and bioinformatics; tumor heterogeneity; whole genome, exome, and transcriptome sequencing; epigenomics; and data analysis and interpretation. Each chapter provides essential explanations of concepts, terminology, and methods. Also included are tips for interpreting and analyzing molecular data, as well as a discussion of molecular predictors for targeted therapies covering hematologic malignancies and solid tumors. The final chapter explains the use of FDA-approved genomic-based targeted therapies for breast cancer, lung cancer, sarcomas, gastrointestinal cancers, urologic cancers, head and neck cancer, thyroid cancer, and many more. Assembled in an accessible format specifically designed for the non-expert, this book provides the clinical oncologist, early career practitioner, and trainee with an essential understanding of the molecular and genetic basis of cancer and the clinical aspects that have led to advancements in diagnosis and treatment. With this resource, physicians and trainees will increase their breadth of knowledge and be better equipped to educate patients and families who want to know more about their genetic predispositions to cancer and the targeted therapies that could be considered and prescribed. Key Features: Describes how cancer genomics and next generation sequencing informs cancer screening, risk factors, therapeutic options, and clinical management across cancer types Explains what mutations are, what tests are needed, and how to interpret the results Provides information on FDA-approved targeted therapies that are being used in the clinic Covers different sequencing platforms and technologies and how they perform in research settings Includes access to the fully searchable eBook |
| differentiation therapy in cancer: The Genetics of Cancer B.A. Ponder, M.J. Waring, 2012-12-06 It has been recognized for almost 200 years that certain families seem to inherit cancer. It is only in the past decade, however, that molecular genetics and epidemiology have combined to define the role of inheritance in cancer more clearly, and to identify some of the genes involved. The causative genes can be tracked through cancer-prone families via genetic linkage and positional cloning. Several of the genes discovered have subsequently been proved to play critical roles in normal growth and development. There are also implications for the families themselves in terms of genetic testing with its attendant dilemmas, if it is not clear that useful action will result. The chapters in The Genetics of Cancer illustrate what has already been achieved and take a critical look at the future directions of this research and its potential clinical applications. |
| differentiation therapy in cancer: Anatomy and Physiology J. Gordon Betts, Peter DeSaix, Jody E. Johnson, Oksana Korol, Dean H. Kruse, Brandon Poe, James A. Wise, Mark Womble, Kelly A. Young, 2013-04-25 |
| differentiation therapy in cancer: Principles of Cancer Biotherapy Robert K. Oldham, Robert O. Dillman, 2009-08-29 At the time of the first edition of Principles of Cancer Biotherapy in 1987, this book represented the first comprehensive textbook on biological therapy. In 1991, when the second edition was published, there was still some doubt on the part of many oncologists and cancer researchers as to the therapeutic value of these new approaches. By 2003 and the fourth edition, it was generally agreed that biopharmaceuticals were producing major opportunities for new cancer therapies. Cancer biotherapy has now truly matured into the fourth modality of cancer treatment. This fifth revised edition describes the tremendous progress that has been made in recent years using biologicals in cancer treatment. This book summarizes an evolving science and a rapidly changing medical practice in biotherapy. In this new millennium, it is now possible to envision a much more diversified system of cancer research and treatment that will afford greater opportunities for a patient’s personalized cancer treatment. This was first envisioned in the 1987 initial edition of this textbook and is now a “new” and popular approach to cancer treatment. Some forms of cancer biotherapy use the strategy of tumor stabilization and control through continued biological therapy, akin to the use of insulin in the treatment of diabetes. This textbook illustrates new methods of thinking and new strategies for control of cancer. It is always difficult to move from past dogma to future opportunity, but this fifth edition of Principles of Cancer Biotherapy illustrates why it is so important to the patients for researchers and clinicians to explore and quickly apply these new opportunities in cancer biotherapy. |
| differentiation therapy in cancer: Onco-developmental Gene Expression William H. Fishman, Stewart Sell, 1976 |
DIFFERENTIATION Definition & Meaning - Merriam-Webster
The meaning of DIFFERENTIATION is the act or process of differentiating. How to use differentiation in a sentence.
What is Differentiation in Maths - BYJU'S
Differentiation is a method of finding the derivative of a function. Differentiation is a process, in Maths, where we find the instantaneous rate of change in function based on one of its …
Differentiation - Formula, Calculus | Differentiation Meaning
Differentiation means the rate of change of one quantity with respect to another. Learn to find the derivatives, differentiation formulas and understand the properties and apply the derivatives.
Introduction to Derivatives - Math is Fun
We can find an average slope between two points. But how do we find the slope at a point? There is nothing to measure! But with derivatives we use a small difference ... ... then have it shrink …
Derivative - Wikipedia
In mathematics, the derivative is a fundamental tool that quantifies the sensitivity to change of a function 's output with respect to its input. The derivative of a function of a single variable at a …
Differentiation | What, How & Basic Rules - A Level Maths
Jan 26, 2021 · Differentiation is the process that we use to find the gradient of a point on the curve. To understand this better we would recall that to find the gradient (slope) of a straight …
Differentiation - GeeksforGeeks
Apr 7, 2025 · Differentiation in mathematics refers to the process of finding the derivative of a function, which involves determining the rate of change of a function with respect to its …
3.3: Differentiation Rules - Mathematics LibreTexts
Combine the differentiation rules to find the derivative of a polynomial or rational function. Finding derivatives of functions by using the definition of the derivative can be a lengthy and, for …
Calculus I - Derivatives - Pauls Online Math Notes
Apr 4, 2022 · Differentiation Formulas – In this section we give most of the general derivative formulas and properties used when taking the derivative of a function. Examples in this section …
Derivative Rules - Math is Fun
Here are useful rules to help you work out the derivatives of many functions (with examples below). Note: the little mark ’ means derivative of, and f and g are functions. "The derivative of" …
DIFFERENTIATION Definition & Meaning - Merriam-Webster
The meaning of DIFFERENTIATION is the act or process of differentiating. How to use differentiation in a sentence.
What is Differentiation in Maths - BYJU'S
Differentiation is a method of finding the derivative of a function. Differentiation is a process, in Maths, where we find the instantaneous rate of change in function based on one of its variables. …
Differentiation - Formula, Calculus | Differentiation Meaning
Differentiation means the rate of change of one quantity with respect to another. Learn to find the derivatives, differentiation formulas and understand the properties and apply the derivatives.
Introduction to Derivatives - Math is Fun
We can find an average slope between two points. But how do we find the slope at a point? There is nothing to measure! But with derivatives we use a small difference ... ... then have it shrink …
Derivative - Wikipedia
In mathematics, the derivative is a fundamental tool that quantifies the sensitivity to change of a function 's output with respect to its input. The derivative of a function of a single variable at a …
Differentiation | What, How & Basic Rules - A Level Maths
Jan 26, 2021 · Differentiation is the process that we use to find the gradient of a point on the curve. To understand this better we would recall that to find the gradient (slope) of a straight line, we …
Differentiation - GeeksforGeeks
Apr 7, 2025 · Differentiation in mathematics refers to the process of finding the derivative of a function, which involves determining the rate of change of a function with respect to its …
3.3: Differentiation Rules - Mathematics LibreTexts
Combine the differentiation rules to find the derivative of a polynomial or rational function. Finding derivatives of functions by using the definition of the derivative can be a lengthy and, for certain …
Calculus I - Derivatives - Pauls Online Math Notes
Apr 4, 2022 · Differentiation Formulas – In this section we give most of the general derivative formulas and properties used when taking the derivative of a function. Examples in this section …
Derivative Rules - Math is Fun
Here are useful rules to help you work out the derivatives of many functions (with examples below). Note: the little mark ’ means derivative of, and f and g are functions. "The derivative of" is also …
