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Cardiovascular research : New technologies, methods, and applications
Cardiovascular Research: New Technologies, Methods & Applications serves as an essential reference material offering a complete overview of innovative new technologies, methods, and applications in current cardiovascular research. Cardiovascular Research: New Technologies, Methods & Applications presents a methods and applications approach to cardiovascular research written by prominent international researchers presenting commissioned summaries of cutting edge research.
Cardiovascular Regeneration Therapies Using Tissue Engineering Approaches
The cardiovascular system transports oxygen and nutrients to all parts of the body; therefore, any impediment to this system through, for example, a circulatory disorder, represents a serious threat to organs, tissues, and cells. Obstructive diseases of vessels with a diameter of more than 1 mm can be treated by conventional surgical and interventional approaches; however, blockages in small vessels with a diameter of less than 1 mm cannot be treated by conventional methods. As a consequence, therapeutic ang- genesis and vasculogenesis for the treatment of ischemic diseases have been widely studied in the last decade. These methods may contribute to the re pair of intractable cardiovascular diseases with a main vascular involvement in the body's smallest vessels. In this book, Hikaru Matsuda and I have tried to summarize recent Japanese developments in the field of cardiovascular regeneration therapies using tissue engineering.
Cardiac reconstructions with allograft tissues
Cryopreserved allograft tissues are now standard materials for the reconstructive cardiac surgeon. Since publication of the first edition ("Cardiac Reconstructions with Allograft Valves") in 1989, the field has progressed dramatically with increased clinical use of cardiovascular allograft tissues, with the development of new surgical techniques, and with advances in the understanding of the fundamentals of valve transplantation biology and cryopreservation. As a result, over two-thirds of the present volume represents new material. Fifty-six authors bring their expertise to thirteen comprehensive, lavishly illustrated sections which discuss the principles of the use of homograft valves, major clinical series of homograft valves for both left and right ventricular outflow tracts, cryopreserved allograft tissue for cardiac reconstruction, cell biology of heart valve leaflets, cryobiology of heart valve preservation, morphological, biochemical, and explant pathology studies of allograft heart valves, allograft valve banking, as well as detailed explanation of surgical techniques for valve and root methods for left and right ventricular outflow tract reconstructions, the Ross operation and variants, and complex reconstructions. A final section presents potential future directions for the field. Over 400 illustrations, created expressly for this book, depict the surgical techniques from the perspective of the surgeon standing at the operating table.
Cancerimmunotherapies : Solid tumors and hematologic malignancies
Presents the clinical scope of cancer immunotherapeutic agents for solid tumors and Hematologic malignancies, elaborates on the scientific details of their modes of action, and presents the impact of these agents on oncology, patients and the broader healthcare system. At present, cancer immunotherapies fall broadly into three categories: immune checkpoint inhibitors (ICIs), adoptive T cell therapies, and cancer vaccines which have distinct mechanisms of action. Immune checkpoint inhibitors rely upon disrupting tumor antigen recognition as self by the immune system through inhibition of checkpoint molecules. Adoptive T cell therapies involve the engineering of T cells ex vivo to target and destroy tumor cells. The first part of this book will provide an overview of the discovery and mechanistic details of the technology. The second part will be devoted to elaborating on the clinical outcomes, successes and limitations for specific tumor subtypes, which includes both solid tumors and hematologic malignances for both pediatric and adult populations.
Cancer vaccination and challenges Vol.1 : strategies for therapeutic cancer vaccine development
Deals with different strategies of cancer vaccine development, focusing on techniques for the development of therapeutic cancer vaccines and the roles of tumor antigens, proteins/peptides, microbial genes, and stem cells for the development of vaccines for cancer management.
Cancer Stem Cells : Novel Concepts and Prospects for Tumor Therapy
This book describes the recent developments in the emerging field of cancer stem cells. Their possible impact for the identification of novel treatment paradigms for cancer are discussed. The book will mainly be of interest to scientists and clinicians involved in cancer research, or to students wishing to enter into this area.
Cancer Metastasis and the Lymphovascular System : Basis for Rational Therapy
Sentinel lymph node (SLN) procedures have opened a window of opportunity for the study of micrometastasis. In eighty percent (80%) of metastasis there lies an orderly pattern of progression via the lymphatic network, while 20% of the time systemic metastasis occurs, bypassing the lymphatic system. During the past two decades, significant progress has been achieved in understanding the anatomical, functional, cellular and molecular aspects of the lymphovascular system and the metastasis process.Molecular imaging advances help to localize early cancers more precisely.
Cancer immunotherapy : Methods and protocols
Details multiple areas of new and emerging methods to develop the next generation of immunotherapy treatments. Chapters guide readers through analysis and characterisation of the interactions between tumour and immune cells, and cell engineering tools for cancer treatment, to provide a unique and compelling set of techniques instrumental to work with, and engineer, immune cells. 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.
Cancer Gene Therapy
the authors comprehensively review the anticancer genes and gene delivery methods currently available for cancer gene therapy, including the transfer of genetic material into the cancer cells, stimulation of the immune system to recognize and eliminate cancer cells, and the targeting of the nonmalignant stromal cells that support their growth. They also thoroughly examine the advantages and limitations of the different therapies and detail strategies to overcome obstacles to their clinical implementation
Cancer drug resistance : methods and protocols
Discusses the latest techniques used to identify cancer drug resistance determinants at the molecular, cellular, and functional levels. Chapters in this book cover up-to-date topics including tumor-microenvironment cell co-culture methods and microfluidics systems; workflows for functional assessment of drug resistance in vitro and in vivo; quantitative techniques for identifying quiescent blood-flow circulating cells; and single-cell characterization methods, such as mass cytometry.
Cancer drug resistance
In Cancer Drug Resistance, leading scientists from the best academic institutions and industrial laboratories summarize and synthesize the latest discoveries concerning the changes that occur in tumor cells as they develop resistance to a wide variety of anticancer therapeutics, as well as suggest new approaches to the biology of drug resistance that may afford new therapeutic opportunities.
Cancer cell biology : methods and protocols
Provides detailed methods on the mechanisms of underlying cancer cell biology. Chapters guide readers through techniques for culturing cancer cell lines, xenografts, cryopreservation of tumor cells, analyzing the co-culture of breast cancer cells, protein secretion by ELISA, flow cytometry-based, multi-parametric immunofluorescence analysis, protein expression by western blot, analysis of surface protein levels, protein recycling by biotinylation assay, and proteomics analysis by liquid chromatography-mass spectrometry.
Cancer : Cell Structures, Carcinogens and Genomic Instability
Tumors can be induced by a variety of physical and chemical carcinogens. The resulting tumor cells are usually abnormal in their morphology and behavior and transmit their abnormalities to their daughter tumor cells. Most theories of the pathogenesis of tumors suggest that carcinogens in some way cause alterations either of the genomes or of inheritable patterns of gene expression in normal cells, which then cause morphological and behavioral changes. This volume presents a collection of articles aimed at the question by what genetic or epigenetic mechanisms carcinogens can cause morphological abnormalities of tumor cells. It includes reviews of cellular targets of known carcinogens, and presents varying viewpoints of how morphological abnormalities and the actions of carcinogens might be related.
Calcium Signalling and Disease : Molecular Pathology of Calcium
This topic is a new entry in the area of cellular calcium signaling: yet, it now spans the entire area, with discoveries that cover both genetic and acquired pathologies, even offering glimpses in the direction of therapy.Cellular calcium homeostasis, and thus calcium signalling, is mainly regulated by membrane intrinsic proteins and calcium sensor proteins. Both classes may be involved in pathological processes that affect both human and animals, ranging from common and important diseases (e.g. migraine, diabetes, epilepsia, manic depression, infertility, various types of cancer, Alzheimer’s disease, muscular dystrophy) to rare genetic conditions (e.g., a number of genetic heart conditions, autoimmune retinopathies, night blindness, hereditary amyloid polyneuropathy, malignant hyperthermia, cerebellar ataxia, atherothrombotic disease).
Breast MRI : Diagnosis and Intervention
This superbly illustrated practical guide is an excellent resource on all aspects of breast MRI for practicing radiologists, oncologists, and surgeons, as well as residents and fellows. Drs. Elizabeth Morris and Laura Liberman, two experts in the field from the Memorial Sloan-Kettering Cancer Center, have collaborated with colleagues from their institution and selected medical centers to share their expertise. Introductory chapters are devoted to diagnosis and cover the basics of performing breast MRI exams, setting up a breast MRI program, and understanding clinical indications. Additional chapters discuss breast interventional procedures including MRI-guided needle localization, MRI-guided biopsy, and percutaneous ablation of breast cancer; MRI of breast implants.
Breast cancer chemosensitivity
In Breast Cancer Chemosensitivity, a group of world leading experts review critical aspects of resistance to systemic therapy in breast cancer patients. Beginning with a clinical overview of the problem Breast Cancer Chemosensitivity moves on to focus on the latest findings of molecular mechanisms of drug resistance. These include in-depth discussions on multidrug resistance by P-glycoprotein and the multidrug resistance protein family, resistance to therapeutic agent-induced apoptosis, cell cycle deregulation, deregulation of DNA repair, loss of tumor suppressor genes, integrin-mediated adhesion, insulin-like growth factors, epidermal growth factor, and ErbB2 in modulating breast cancer response to systemic therapy, especially, certain chemotherapeutic agents. Breast Cancer Chemosensitivity provides an example of using novel approaches for chemosensitization of breast cancer cells that gives readers an idea about the future direction in breast cancer treatment.
Branching Morphogenesis
Branching morphogenesis, the creation of branched structures in the body, is a key feature of animal and plant development. This book brings together, for the first time, expert researchers working on a variety of branching systems to present a state-of-the-art view of the mechanisms that control branching morphogenesis. Systems considered range from single cells, to blood vessel and drainage duct systems to entire body plans, and approaches range from observation through experiment to detailed biophysical modelling. The result is an integrated overview of branching.
Brain tumor pathology : Current diagnostic hotspots and pitfalls
Since Bailey and Cushing (1926), all brain tumor classifications have been called histogenetic. The nosographic position that the tumor types progressively acquired in the classification systems derived from the resemblance of tumor cells to those of the cytogenesis, modified whenever new information became available from different biological research fields and especially from molecular genetics. Classically, on the basis of the rough correspondence between the mature/immature aspect of tumor cells and the benign/malignant biological behavior of the tumors, the histological labels contained a prognostic significance. The supposed origin of the tumors was thus a factor for prognosis. Later on, with the concept of anaplasia (Cox, 1933; Kernohan et al., 1949) new criteria were introduced for establishing the malignancy grades of tumors. Immunohistochemistry and later molecular genetics further refined the prognostic diagnoses, substantially increasing the opportunities to recognize the cell origin of tumors, beside revealing the pathogenetic mechanisms. Prognoses became more accurate, as required by the greater and more targeted possibilities of therapy.
Brain Repair
Brain Repair, addresses all relevant issues underlying the mechanisms of brain damage, brain plasticity and post-traumatic reorganisation after CNS lesions. This book is divided the three major sections that follow; cellular and molecular basis of brain repair, plasticity and reorganisation of neural networks, and experimental therapy strategies. Brain Repair is written by high profile, international experts who describe in detail the newest results from basic research and highlight new model systems, techniques and therapy approaches. Based on a careful analysis of the cellular and molecular reaction patterns of the CNS to lesions, the contributions cover possibilities for endogenous reorganisation and repair as well as exciting new therapies emerging from basic research, some of which have already been introduced into the clinics.
Brain development in Drosophila melanogaster
The central nervous system (CNS) represents the organ with the highest structural and functional complexity. Accordingly, uncovering the mechanisms leading to cell diversity, patterning and connectivity in the CNS is one of the major challenges in developmental biology. The developing CNS of the fruitfly Drosophila melanogaster is an ideal model system to study these processes. Several principle questions regarding neurogenesis (like stem cell formation, cell fate specification, axonal pathfinding) have been addressed in Drosophila by focusing on the relatively simply structured truncal parts of the nervous system. This book provides an overview of some major facets of recent research on Drosophila brain development.
