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Targeted therapies were initially developed to exploit the upregulation and dependence on key oncogenic pathways critical to cancer progression. Additionally, they also presented as a method to overcome chemoresistance by supplementing conventional therapeutic regimens with targeted therapies. However, the development of resistance to these combinatorial approaches has led to the reassessment of currently available therapeutic options to overcome resistance to targeted therapy. This book aims to provide an update on the advancements in the therapeutic arms race between cancer, clinicians and scientists alike to overcome resistance to targeted therapies. Subject experts provide a comprehensive overview of the challenges and solutions to resistance to several conventional targeted therapies in addition to providing a discussion on broad topics including targeting components of the tumor microenvironment, emerging therapeutic options, and novel areas to be explored concerning nanotechnology and the epigenome.
This book aims to educate nurses and advanced practice providers (APP’s) about known mutations, availability of targeted therapy and the management of patients with non-small cell lung cancer (NSCLC). It will educate nurses and practitioners about the scope of therapy to assure safe and effective lung cancer treatment. In this era of personalized medicine, nurses and APP’s are responsible for guiding patients from diagnosis through treatment. This starts with the identification of patients that can benefit from these therapies, the key role of biopsy acquisition (ie. what to test, when and how often) and treatment selection based on the mutation identified. Readers will learn about the mechanisms of action, administration, potential adverse side effects and unique management strategies for these targeted agents. Lung cancer continues to be the leading cause of cancer death in the United States and worldwide. Recent advances in the identification of specific oncogenic mutations that drive cancer development, growth and metastasis have led to major paradigm shifts in lung cancer treatment. Sophisticated methods are required to identify specific mutations at the time of diagnosis. This book explains how molecularly targeted therapies have been developed that target these drivers. To date, several tyrosine kinase inhibitors have been approved to target the epidermal growth factor receptor (EGFR), EML4-ALK ,ROS1 and BRAF. Most recently, immune checkpoint inhibitors have been approved with some indication that efficacy may be enhanced for patients who overexpress PD-L1. While some driver mutations have been identified, there is ongoing investigation into additional mutations. In the case of driver mutations, lung cancers will develop resistance to therapy. This book provides nurses and APP’s with the mechanisms of resistance that have been identified such as T790 mutation and many others in the EGFR mutation, and shows how the next level of drug development is focused on identifying mechanisms of resistance and development of new agents that overcome these mutations. With this book in hand, nurses and practitioners will be able to navigate patients through this ever expanding field of lung cancer treatment.
​​​​The traditional approaches to treat various cancers include chemotherapy, radiation and/or hormonal therapy. While these therapies continue to be effective in large part, they are not selective and highly toxic. There have been encouraging results in alternative therapeutic approach called antibody-mediated anti-cancer therapy, which is less toxic, more selective, and can also reverse drug/radiation resistance. Monoclonal antibodies or mAbs can be used to destroy malignant tumor cells and prevent tumor growth by blocking specific cell receptors. mAbs can bind only to cancer cell-specific antigens and induce an immunological response against the target cancer cell. The book covers the common and unique features of mAbs agains various cancer, gives the latest developments on the molecular, biochemical and genetic mechanisms of resistance by various mAbs, as well as discuss novel mAbs to overcome resistance.
Multiple Myeloma remains an incurable malignancy. As the disease progresses, it invariably becomes resistant to treatment and almost all patients develop refractory disease. There are multiple different types of targeted therapies and many of them are used in combination at different stages of disease. Targeted therapies that are approved to be used include Proteasome Inhibitors, Immunomodulatory Drugs and Monoclonal Antibodies. Second and third generations of these drugs are developed to overcome resistance and they have unique mechanism of actions. Targeted therapies that are undergoing clinical trials include CAR-T cells, bi-specific antibodies, vaccines, ubiquitin ligase inhibitors and BCL-2 inhibitors. This book will help to develop an understanding of targeted therapies in Multiple Myeloma. Its goal is to provide a unique review of the mechanism of action and resistance of the many targeted therapies in Multiple Myeloma by leaders of the field. The book will be useful for students in medical science, clinicians, health professionals, scientists, pharmaceutical professionals, drug developers, and policy makers. This book will provide an insightful knowledge of the biology of Multiple Myeloma, the mechanism of action and resistance of targeted therapies, application of biomarkers and genomics and possible strategies in overcoming resistance and future development.
From its introduction, oncological chemotherapy has been encumbered by poor selectivity because antiproliferative drugs are often toxic not only to tumor cells but also to important populations of the body’s non-neoplastic cells. Modern targeted therapies interact with defined molecules present on cancer cells, adding increased selectivity to their toxic effects. This book presents an integrated critical view on the theories, mechanisms, problems and pitfalls of the targeted therapy approach.
The past few years have witnessed an astonishing international effort that established the role of some 20 new molecules in apoptosis and added activation or suppression of apoptosis to the accepted biological functions of a great many others already familiar in cancer biology. Some of these molecules are receptors, transducing cytokine-mediated signals; others appear to intensify or diminish the risk that a compro mised cell will fire its apoptosis effector mechanism. All are of interest as potential targets for tumor therapy, and some may prove to be control points influenced in the pathogenesis of cancer and other diseases as diverse as viral infection, neurodegenerative disorders, and stroke. Sometimes, in the midst of these developments, a kind of euphoria ap pears to have gripped the research community, with the expectation that apoptosis will afford explanations to many unsolved questions in cellu lar regulation. This book, in a series of thoughtful and provocative ar ticles--some from established leaders in the field, and others from younger scientists--seeks to redress the balance.
This book contextualizes translational research and provides an up to date progress report on therapies that are currently being targeted in lung cancer. It is now well established that there is tremendous heterogeneity among cancer cells both at the inter- and intra-tumoral level. Further, a growing body of work highlights the importance of targeted therapies and personalized medicine in treating cancer patients. In contrast to conventional therapies that are typically administered to the average patient regardless of the patient’s genotype, targeted therapies are tailored to patients with specific traits. Nonetheless, such genetic changes can be disease-specific and/or target specific; thus, the book addresses these issues manifested in the somatically acquired genetic changes of the targeted gene. Each chapter is written by a leading medical oncologist who specializes in thoracic oncology and is devoted to a particular target in a specific indication. Contributors provide an in-depth review of the literature covering the mechanisms underlying signaling, potential cross talk between the target and downstream signaling, and potential emergence of drug resistance.
Besides surgery, radiation therapy, endocrine therapy or chemotherapy, which were widely used in cancer patients for decades, the 21st century has seen the emergence of "targeted" therapy, resulting from the identification of molecular pathways in cells and their alterations in tumors. An increasing number of compounds targeting specific molecules or cancer cells have been developed and, for some of them, approved by the United States Food and Drug Administration (FDA) as well as other regulators in EU and Japan Additional new and more efficient types of compounds, are still in clinical trials, but are expected to gain future approval. More than eighty FDA-approved targeted therapies are described here, along with about eighty other promising compounds. These drugs are members of various therapy classes, including tyrosine kinase inhibitors; serine/threonine kinase inhibitors; dual specificity kinase inhibitors; lipid kinase inhibitors; poly ADP ribose polymerase inhibitors; monoclonal antibodies; microtubule targeting agents; histone deacetylase inhibitors; proteasome inhibitors; antimetabolites; immunomodulatory agents; DNA methyltransferase inhibitors; hedgehog pathway inhibitors; enzymes; protein translation inhibitors; vaccines, oncolytic viruses; chimeric antigen receptor T-cells (CAR-T); and so on. A series of "companion" diagnostics intended to be used as an indication for specific therapies, and approved to this aim are also mentioned. The book aims to present the broad landscape of compounds and companion diagnostics that are expected to pave the way towards a future of hope for cancer patients.
Drug Delivery Devices and Therapeutic Systems examines the current technology and innovations moving drug delivery systems (DDS) forward. The book provides an overview on the therapeutic use of drug delivery devices, including design, applications, and a description of the design of each device. While other books focus on the therapy, the primary emphasis in this book is on current technologies for DDS applications, including microfluidics, nanotechnology, biodegradable hydrogel and microneedles, with a special emphasis on wearable DDS. As part of the Developments in Biomedical Engineering and Bioelectronics series, this book is written by experts in the field and informed with information directly from manufacturers. Pharmaceutical scientists, medical researchers, biomedical engineers and clinical professionals will find this an essential reference. Provides essential information on the most recent drug delivery systems available Explains current technology and its applications to drug delivery Contains contributions from biomedical engineers, pharmaceutical scientists and manufacturers
This book provides a comprehensive overview of brain metastases, from the molecular biology aspects to therapeutic management and perspectives. Due to the increasing incidence of these tumors and the urgent need to effectively control brain metastatic diseases in these patients, new therapeutic strategies have emerged in recent years. The volume discusses all these innovative approaches combined with new surgical techniques (fluorescence, functional mapping, integrated navigation), novel radiation therapy techniques (stereotactic radiosurgery) and new systemic treatment approaches such as targeted- and immunotherapy. These combination strategies represent a new therapeutic model in brain metastatic patients in which each medical practitioner (neurosurgeon, neurologist, medical oncologist, radiation oncologist) plays a pivotal role in defining the optimal treatment in a multidisciplinary approach. Written by recognized experts in the field, this book is a valuable tool for neurosurgeons, neuro-oncologists, neuroradiologists, medical oncologists, radiation oncologists, cognitive therapists, basic scientists and students working in the area of brain tumors.