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Nanotheranostics is a recent medical field which integrates diagnostic imaging protocols and therapeutic functions to monitor real time drug release in the body and distribution to the target site. The combined processes allow technicians to observe the effectiveness of a specifically designed drug candidate and predict its possible side effects. All these features help clinicians in optimizing treatment options for cancer and other diseases for the individual patient. Current research is tailored to individual therapy because each drug may display a variety of responses depending on variations in an individual’s genetics and subsequently, their clinical biochemistry. Many tumors are still challenging for therapists in terms of available treatment and nanotheranostic strategies may help them to combat cancer more efficiently. Advances in Cancer Nanotheranostics for Experimental and Personalized Medicine presents information about current theranostic technologies in use at clinics and recent research on nanotheranostic applications, with a focus on cancer treatment. Information is presented in seven organized chapters that cover the basics of cancer nanotheranostics, tumor microenvironmental factors, gene therapy and gene delivery concepts, and the combined application of diagnostic imaging with cancer chemotherapy. A chapter focusing on the role of non-coding MRNAs in breast cancer carcinogenesis is also included, giving readers a glimpse of the complexities in the molecular biology of cancer which drive the need for new theranostic technologies. The book is of interest to medical professionals (including oncologists and specialists in internal medicine), diagnostic imaging technicians, and researchers in the fields of pharmacology, molecular biology and nuclear medicine.
The application of nanotechnology in the biomedical field, known as nanomedicine, has gained much interest in the recent past as a versatile strategy for selective drug delivery and diagnostic purposes. The nanotheranostic approach, which aims to combine both therapeutic and imaging/diagnostic functionalities, is characterized by a strong pluridisciplinarity where the chemistry of materials, bioconjugate chemistry, pharmaceutical technology, drug delivery, imaging, and pharmacology, work together. Nanotheranostics combine simultaneous non-invasive diagnosis and treatment of diseases with the exciting possibility to monitor drug release and distribution in real time; thus offering the opportunity to optimize treatment outcomes in cancer and other severe diseases. Clinical applications of nanotheranostics would enable earlier detection and treatment of diseases, and earlier assessment of the response, thus allowing to identify patients which would potentially respond to therapy and have higher possibilities of a favorable outcome.Nanotheranostics for Personalized Medicine presents an integrated and transdisciplinary description of nanotheranostics. It provides principles of imaging techniques and concrete examples of advances and challenges in the development of nanotheranostics for personalized medicine.This book is written for students (Bachelors to Doctoral level) as well as experienced researchers, in academia or the industry, interested in this emerging concept in the nanomedicine field.
Handbook of Nanomaterials for Cancer Theranostics focuses on recent developments in advanced theranostic nanomedicines from a chemical and biological perspective where the advantages of theranostics are achieved by combining multiple components. The authors explore the pros and cons of theranostic nanomaterials developed in cancer research in the last 15 years, with the different strategies compared and scrutinized. In addition, the book explores how nanomaterials may overcome the regulatory hurdles facing theranostic nanomedicines. This is an important research reference for postgraduates and researchers in nanomedicine and cancer research who want to learn more on how nanomaterials can help create more effective cancer treatments. - Highlights the development of smart theranostic nanomaterials to tackle biomedical problems in cancer therapy and diagnostics - Explores the regulatory hurdles facing theranostic nanomedicine - Discusses how the use of nanomaterials can help create more effective cancer treatments
The pace and sophistication of advances in medicine in the past two decades have necessitated a growing need for a comprehensive reference that highlights current issues in medicine. Each volume in the Current Issues in Medicine series is a stand‐alone text that provides a broad survey of various critical topics—all accomplished in a user-friendly yet interconnected format. The series not only highlights current advances but also explores related topics such as translational medicine, regulatory science, neglected diseases, global pandemics, patent law, immunotoxicology, theranostics, big data, artificial intelligence, novel imaging tools, combination drug products, and novel therapies. While bridging the gap between basic research and clinical medicine, this series provides a thorough understanding of medicine’s potential to address health problems from both the patient’s and the provider’s perspectives in a healthcare setting. The range of topics covered and the expertise of the contributing authors accurately reflect the rapidly evolving areas within medicine—from basic medical sciences to clinical specialties. Each volume is essential reading for physicians, medical students, nurses, fellows, residents, undergraduate and graduate students, educators, policymakers, and biomedical researchers. The multidisciplinary approach of the series makes it a valuable reference resource for the pharmaceutical industry, academia, and governments. However, unlike other series on medicine or medical textbooks, this series focuses on current trends, perspectives, and issues in medicine that are central to healthcare delivery in the 21st century. Volume 2 focuses on the current issues in basic medical sciences, subjects that are fundamental to the practice of medicine. Specifically, it discusses clinical immunology, medical microbiology, COVID-19, and big data. These subjects, traditionally taught in the first two years of medical school that precede clinical instruction, provide a core of basic knowledge critical to the success in clinical medicine during rotations, training, and medical practice.
Advances in Cancer Research, Volume 139, provides invaluable information on the exciting and fast-moving field of cancer research. Original reviews are presented on a variety of topics relating to the rapidly developing intersection between nanotechnology and cancer research, with unique sections in the new release focusing on Exosomes as a theranostic for lung cancer, Nanotechnology and cancer immunotherapy, Ultrasound imaging agents and delivery systems, Dendronized systems for the delivery of chemotherapeutics, Thermosensitive liposomes for image-guided drug delivery, Supramolecular Chemistry in Tumor Analysis and Drug Delivery, Gold nanoparticles for delivery of cancer therapeutics, and Single cell barcode microchip for cancer research and therapy. - Provides the latest information on cancer research - Offers outstanding and original reviews on a range of cancer research topics - Serves as an indispensable reference for researchers and students alike
This book is the third volume on this subject and focuses on the recent advances of nanopharmaceuticals in cancer, dental, dermal and drug delivery applications and presents their safety, toxicity and therapeutic efficacy. The book also includes the transport phenomenon of nanomaterials and important pathways for drug delivery applications. It goes on to explain the toxicity of nanoparticles to different physiological systems and methods used to assess this for different organ systems using examples of in vivo systems.
Cancer Nanotheranostics, Volume 2 continues the discussion of the important work being done in this field of cancer nanotechnology. The contents of these two volumes are explained in detail as follows. In the first volume of Cancer Nanotheranostics, we discuss the role of different nanomaterials for cancer therapy including lipid-based nanomaterials, protein and peptide-based nanomaterials, polymer-based nanomaterials, metal-organic nanomaterials, porphyrin-based nanomaterials, metal-based nanomaterials, silica-based nanomaterials, exosome-based nanomaterials, and nano-antibodies. This important second volume discusses nano-based diagnosis of cancer, nano-oncology for clinical applications, nano-immunotherapy, nano-based photothermal cancer therapy, nanoerythrosomes for cancer drug delivery, regulatory perspectives of nanomaterials, limitations of cancer nanotheranostics, safety of nanobiomaterials for cancer nanotheranostics, multifunctional nanomaterials for targeting cancer nanotheranostics, and the role of artificial intelligence in cancer nanotheranostics. Volume 2 is a vital continuation of this two-volume set. Together, these two volumes create a comprehensive and unique examination of this important area of research.
Nanotechnology is an interdisciplinary research field that integrates chemistry, engineering, biology, and medicine. Nanomaterials offer tremendous opportunity as well as challenges for researchers. Of course, cancer is one of the world's most common health problems, responsible for many deaths. Exploring efficient anticancer drugs could revolutionize treatment options and help manage cancer mortality. Nanomedicine plays a significant role in developing alternative and more effective treatment strategies for cancer theranostics. This book mainly focuses on the emerging trends using nanomaterials and nanocomposites as alternative anticancer material’s. The book is divided into three main topic areas: how to overcome existing traditional approaches to combat cancer, applying multiple mechanisms to target the cancer cells, and how nanomaterials can be used as effective carriers. The contents highlight recent advances in interdisciplinary research on processing, morphology, structure, and properties of nanostructured materials and their applications to combat cancer.Cancer Nanotheranostics is comprehensive in that it discusses all aspects of cancer nanotechnology. Because of the vast amount of information, it was decided to split this material into two volumes. In the first volume of Cancer Nanotheranostics, we discuss the role of different nanomaterials for cancer therapy, including lipid-based nanomaterials, protein and peptide-based nanomaterials, polymer-based nanomaterials, metal-organic nanomaterials, porphyrin-based nanomaterials, metal-based nanomaterials, silica-based nanomaterials, exosome-based nanomaterials and nano-antibodies. In the second volume, we discuss the nano-based diagnosis of cancer, nano-oncology for clinical applications, nano-immunotherapy, nano-based photothermal cancer therapy, nano-erythrosomes for cancer drug delivery, regulatory perspectives of nanomaterials, limitations of cancer nanotheranostics, the safety of nano-biomaterials for cancer nanotheranostics, multifunctional nanomaterials for targeting cancer nanotheranostics, and the role of artificial intelligence in cancer nanotheranostics.
Presents nanobiotechnology in drug delivery and disease management Featuring contributions from noted experts in the field, this book highlights recent advances in the nano-based drug delivery systems. It also covers the diagnosis and role of various nanomaterials in the management of infectious diseases and non-infectious disorders, such as cancers and other malignancies and their role in future medicine. Nanobiotechnology in Diagnosis, Drug Delivery and Treatment starts by introducing how nanotechnology has revolutionized drug delivery, diagnosis, and treatments of diseases. It then focuses on the role of various nanocomposites in diagnosis, drug delivery, and treatment of diseases like cancer, Alzheimer's disease, diabetes, and many others. Next, it discusses the application of a variety of nanomaterials in the diagnosis and management of gastrointestinal tract disorders. The book explains the concept of nanotheranostics in detail and its role in effective monitoring of drug response, targeted drug delivery, enhanced drug accumulation in the target tissues, sustained as well as triggered release of drugs, and reduction in adverse effects. Other chapters cover aptamer-incorporated nanoparticle systems; magnetic nanoparticles; theranostics and vaccines; toxicological concerns of nanomaterials used in nanomedicine; and more. Provides a concise overview of state-of-the-art nanomaterials and their application like drug delivery in infectious diseases and non-infectious disorders Highlights recent advances in the nano-based drug delivery systems and role of various nanomaterials Introduces nano-based sensors which detect various pathogens Covers the use of nanodevices in diagnostics and theranostics Nanobiotechnology in Diagnosis, Drug Delivery and Treatment is an ideal book for researchers and scientists working in various disciplines such as microbiology, biotechnology, nanotechnology, pharmaceutical biotechnology, pharmacology, pharmaceutics, and nanomedicine.
Hepatocellular carcinoma (HCC) is a leading cause of death globally. Conventional chemotherapeutic agents are unable to penetrate cancerous hepatocytes completely and are toxic to non cancerous cells and tissues. This toxicity significantly compromises the therapeutic outcome of conventional chemotherapeutic agents which is also reflected in the high mortality of the disease. Nanotherapeutics have shed new light onto HCC treatment by enabling site-specific in vivo delivery of chemotherapeutics specifically to neoplastic hepatocytes without affecting normal hepatocytes. Thus, nanotherapeutics have shown considerable potential and there is tremendous impetus for rapid translation from the pre-clinical to the clinical domain to significantly prolong the survival in HCC. In Nanotherapeutics for the Treatment of Hepatocellular Carcinoma, authoritative experts of the field have explored the important aspects of nanotherapeutics against HCC. The book exhaustively, vividly and explicitly describes the molecular pathogenesis, diagnostic aspects and nanotherapy of HCC, while also highlighting the challenges of conventional therapy and the benefits of nanotherapeutics. Chapters of the book also cover recent investigations of nanotherapeutics against HCC, types of nanomedicines, recent patents, commercially available nanotherapeutics and a future perspective to give a comprehensive review of the topic to readers. In addition to these defining features, the book provides several references for further reading. The book is an ideal resource on HCC nanotherapeutics for medical and pharmacology postgraduate students, faculties, researchers, and biomedical scientists working on HCC and nanotherapy.