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Nanotechnology-Based Targeted Drug Delivery Systems for Brain Tumors addresses brain anatomy and tumors and the progress and challenges in delivering drugs across the blood brain barrier. Several chapters are devoted to the latest technologies and advances in nanotechnology, along with practical solutions on how to design more effective nanocarriers for drug and gene delivery. This valuable resource prepares readers to develop novel drug delivery systems for the treatment of brain tumors that further promote the latest nanomedical technologies. Addresses the progress and challenges inherent in delivering drugs across the blood brain barrier and offers strategies to maximize effectiveness Draws upon the experience and expertise of international scientists working in the fields of drug delivery and nanomedicine Considers the future possibilities of nanotechnology for delivering nanocarriers that better diagnose and treat brain tumors
Despite progress in surgery, radiotherapy, and chemotherapy, an effective treatment of gliomas does not yet exist. This new monograph in the ASME-Momentum Press series on Biomedical & Nanomedical Technologies book shows how nanotechnology could be used both to improve the treatment efficacy and to reduce the adverse side effects. It will explain how nanotechnology-based approaches to targeted delivery of drugs across the brain-blood barrier may potentially be engineered to carry out specific functions as needed.
Despite progress in surgery, radiotherapy, and in chemotherapy, an effective curative treatment of gliomas does not yet exist. Mortality is still close to 100% and the average survival of patients with GBM is less than 1 year. The efficacy of current anti-cancer strategies in brain tumors is limited by the lack of specific therapies against malignant cells. Besides, the delivery of the drugs to brain tumors is limited by the presence of the blood brain barrier. The oncogenesis of gliomas is characterized by several biological processes and genetic alterations, involved in the neoplastic transformation. The modulation of gene expression to more levels, such as DNA, mRNA, proteins and transduction signal pathways, may be the most effective modality to down-regulate or silence some specific gene functions. Gliomas are characterized by extensive microvascular proliferation and a higher degree of vasculature. In malignant gliomas targeted therapies efficacy is low. In this complex field, it seems to be very important to improve specific selective drugs delivery systems. Drugs, antisense oligonucleotides, small interference RNAs, engineered monoclonal antibodies and other therapeutic molecules may diffuse into CNS overcoming the BBB. Nanotechnology could be used both to improve the treatment efficacy and to reduce the adverse side effects. Nanotechnology-based approaches to targeted delivery of drugs across the BBB may potentially be engineered to carry out specific functions as needed. Moreover, nanoparticles show tumor-specific targeting and long blood circulation time, with consequent low-short-term toxicity. Nanotechnology deals with structures and devices that are emerging as a new field of research at the interface of science, engineering and medicine. Nanomedicine, the application of nanotechnology to healthcare, holds great promise for revolutionizing medical treatments, imaging, faster diagnosis, drug delivery and tissue regeneration.
This volume provides a guide on nanoformulations and other drug delivery approaches for both academic and industry scientists. The chapters in this book cover diverse topics and techniques in nanoparticle drug delivery, gene therapy, neurosurgical brain implant, exosomes, MRI-guided focused ultrasound (MRgFUS), and advanced preclinical glioblastoma multiforme animal models. Some chapters discuss state-of-the-art and innovative nanomedicines for glioblastoma, surface-modified nanoparticle drug carriers for brain cancer treatment, focused ultrasound (FUS)-mediated blood-brain barrier disruption for enhanced drug delivery to brain tumors; gene therapy delivery approaches to treat brain cancer, and a liposome-template hydrogel nanoparticles (LHNPs) as a powerful CRISPR/Cas9 delivery vehicle. In the Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your laboratory. Cutting-edge and thorough, Nanotherapy for Brain Tumor Drug Delivery is a valuable resource for the scientific community working on this important therapeutic field, and will help fast-track the clinical translation of revolutionary nanotechnologies for treating brain tumors. .
This concise monograph series focuses on the implementation of various engineering principles in the conception, design, development, analysis and operation of biomedical, biotechnological and nanotechnology systems and applications. Authors are encouraged to submit their work in the following core topics, but authors should contact the commissioning editor before submitting a proposal: Biomedical Devices & Materials Trauma Analysis Vibration and Acoustics in Biomedical Applications Innovations in Processing, Characterization and Applications of Bioengineered Materials Viscoelasticity of Biological Tissues and Ultrasound Applications Dynamics, and Control in Biomechanical Systems Clinical Applications of Bioengineering Transport Phenomena In Biomedical Applications Computational Modeling and Device Design Safety and Risk Analysis of Biomedical Engineering Modeling and Processing of Bioinspired Materials and Biomaterials Nanomedical Devices & Materials Bio Nano Materials Nano Medical Sciences Materials for Drug & Gene Delivery Nanotechnology for Central Nervous System Nanomaterials & Living Systems Interactions Biosensing, Diagnostics & Imaging Cancer Nanotechnology Micro & Nano Fluidics Environmental Health & Safety Soft Nanotechnology & Colloids Book jacket.
Brain Tumor Targeting Drug Delivery Systems: Advanced Nanoscience for Theranostics Applications is a comprehensive reference focused on the latest advancements in nanotechnology for brain tumor therapy. With practical insights and cutting-edge research, this book equips readers with the knowledge to develop innovative drug delivery systems for effective brain tumor diagnosis and treatment. Structured into insightful chapters, this book covers the anatomy, physiology, and pathophysiology of the brain, addressing barriers to targeted drug delivery strategies. Chapters explore theranostics-based delivery systems, including polymeric nanoparticles, liposomes, dendrimers, nanoemulsions, micelles, and inorganic nanoparticles, for precise brain tumor diagnosis and treatment. This informative resource is designed for students and research scholars in pharmacology, pharmaceutical industry scientists, professors, and clinical medicine researchers. With comprehensive chapters and references for further reading, this book facilitates easy understanding of the intricate nanomedical technology, empowering researchers to make significant strides in the field of brain tumor therapy. Key Features: Structured chapters for easy understanding of nanotechnology concepts In-depth coverage of theranostics-based delivery systems for brain tumor diagnosis and treatment References for further reading and exploring new advances in drug delivery systems
Despite recent advances, therapeutic efforts have not been successful establishing a definitive strategy of treatment for brain gliomas, because of the presence of the blood-brain barrier. Innovative Brain Tumor Therapy presents a synopsis of the studies on nanoparticles as ideal devices for brain tumor treatment. Their nanometric size, electrostatic charge, and lipophilic characteristics allow them to penetrate into the brain tissue freely. Promising in-vitro results have been reported, but remain to be validated in humans. This title focuses on the blood-brain barrier pathophysiology in brain tumors, and the possibilities of overcoming this with nanoparticle-based systems. Relevant patents of nanoparticles used as drug delivery carriers are also reported, as well as future scenarios in nanoparticles and stem cells.
Nano Drug Delivery Strategies for the Treatment of Cancers discusses several current and promising approaches for the diagnosis and treatment of cancer by using the most recent developments in nanomedical technologies. The book presents introductory information about the biology of different types of cancer in order to provide the reader with knowledge on their specificities. In addition, it discusses various novel drug delivery systems, detailing their functionalities, expected outcomes and future developments in the field, focusing on brain, mouth and throat, breast, lung, liver, pancreas, stomach, colon, bool, skin and prostate cancers. The book is a valuable source for cancer researchers, oncologists, pharmacologists and nanotechnologists who are interested in novel drug delivery systems and devices for treatment of various types of cancer that take advantage of recent advances in this exciting field. Discusses a wide range of promising approaches for the diagnosis and treatment of cancer using the latest advancement in cutting-edge nanomedical technologies Provides foundational information on different types of cancer and their biology to help the reader choose the best nano drug delivery system for patients Presents novel drug delivery systems based on nanoparticles, microparticles, liposomes, self-assembling Micelles and block copolymer micelles
Brain Tumors and Nanotechnology explores the complex world of brain tumors and the ground-breaking role that nanotechnology is playing in both detection and treatment. It offers comprehensive and up-to-date strategies in the treatment of brain tumors, with a special emphasis on the revolutionary impact of nanotechnology. It begins with an in-depth analysis of the anatomy of the brain and nervous system, highlighting the constituents of the central nervous system (CNS) such as neurons and glial cells. It also offers a thorough understanding of the intricate structure of the human brain, including the hemispheres, brainstem, diencephalon, and ventricular system. It then reveals the understanding of the complicated nature of brain tumors and the potential for nanotechnology to revolutionize their diagnosis and treatment. Brain Tumors and Nanotechnology will be a longstanding valuable resource for researchers, medical professionals, and students in the field.
Nanotechnology Methods for Neurological Diseases and Brain Tumors: Drug Delivery across the Blood-Brain Barrier compiles the latest (and future potential) treatment strategies for brain tumors and neurological diseases, in particular Alzheimer's, Parkinson's and stroke, those that bypass the blood/brain barrier. The current understanding of brain drug delivery and access is discussed in Chapter One, with the next section focusing on the implementation of the nose-to-brain intranasal route in brain-targeted drug delivery. In addition, nanotechnology-based brain drug delivery is covered in Chapter Three. This avenue offers impressive improvement in the treatment of neurological diseases and brain tumors by using bio-engineered systems that interact with biological systems at a molecular level. In Chapter Four, emphasis is placed on the need for brain-targeted experimental models that mimic disease conditions. Final chapters discuss the very latest advances in targeted treatment strategies for neurological diseases and brain tumors.