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The book targets new advances in areas of treatment and drug delivery sciences for tuberculosis. It covers advances in drug therapy and drug targeting that focus on innovative trend defining technologies and drug delivery platforms in the understanding of host-pathogens relationship for providing better therapy. A wide variety of novel and nano-formulations using promising technologies are being explored to deliver the drug via different administration routes. This book It addresses the gap between new approaches and old treatment modalities and how they are superior in pharmacological performance when tested in in-vitro and in-vivo. Audience from wide range group like from researchers to regulatory bodies can benefit from the compiled information to find out patient needs and current research advances in the field of tuberculosis research..
The Peritoneal cavity (PC) is the key metastatic site for intra-abdominal malignancies (e.g., GI tract and rectal cancer). PC sites can be used to target several other diseases where lymphatic drug delivery is desired without dumping large amounts of the drug. Till recently, it was thought that treatment with curative intent was impossible but that was challenged by the introduction of cytoreductive surgery (CRS) and heated intraperitoneal chemotherapy (HIPEC), and PIPAC (pressurized intraperitoneal aerosol chemotherapy). Recently, a growing number of preclinical and clinical studies advocate intraperitoneal (IP) chemotherapy as an alternative post-operative therapy for cancer. Although their effectiveness has been proven both experimentally and clinically, there is still little understanding of the role of drug delivery systems (DDS) in targeting drugs in the intraperitoneal (IP) cavity.There are two main challenges one posed by IP cavity where the residence time of a small molecular weight drug (In summary, challenges like delivery to IP cavity, tumor or organ-specific targeting, efficient tissue penetration, optimal cellular uptake and intracellular residence of a drug, biocompatibility, toxicity, etc can be easily solved by smartly designing functional drug delivery systems (both nano and micro). Nanotechnologies have always fascinated humans for several decades and are now widely explored in the biomedical field. Diverse types of nanoparticles are being explored around the world, some examples include biodegradable nanoparticles, green nanoparticles, polymeric nanoparticles, lipid nanoparticles, metal nanoparticles, graphene, carbon nanotubes, and several others. Now a day's nanoparticles are gaining interest for drug targeting of chemotherapeutic drugs, immunotherapy, and gene delivery. Whereas microparticles can be explored for delayed drug delivery to the peritoneal cavity due to relatively slow removal from IP fluid. Hydrogels or other adhesive drug delivery may help to enhance peritoneal adhesions; thereby maintaining the balance between benefit and risk. Overall, drug delivery systems are key in IP targeting. That means drug delivery specialist and clinician needs to be connected to get the best out of this route of drug administration.The present book is a link between pharmaceutical scientists (drug formulators), clinicians, toxicologists, and regulatory experts. This book also provides a new perspective to researchers to divert or guide their research in an optimal way. Exploring Drug Delivery to the Peritoneum serves as a platform for upcoming technologies especially in the medical devices sector to face up and show potential in delivering drugs. It is a chance for commercial partners like insurance companies and the pharma industry to explore this direction.
This book targets new advances in areas of treatment and drug delivery sciences for Malaria. This is the only published book which compiles the complete road map of malarial drug delivery systems along with an overview on the pathology, current state of malaria across the globe, new clinical trials, emerging drugs and evolving novel drug delivery platforms. A wide variety of novel micro-and nano-formulations using promising technologies are being explored to deliver the malarial drug via different administration routes. This book addresses the gap between new approaches and old treatment modalities and how the former is superior in pharmacological performance when tested in in-vitro and in-vivo. Audience from wide range group like from researchers to regulatory bodies can benefit from the compiled information to find out patient needs and addresses a much-needed update to the existing malaria drug delivery research.
Characterization of Micro and Nanoparticles for Biomedical Applications is a helpful guide for industry researchers, academicians, regulatory experts and material scientists working in the field of pharmaceuticals, cosmeceuticals, nutraceuticals, agriculture, food, fragrance, and in the chemical industries. It aims to provide a one-stop resources on all the analytical techniques used in the field of micro and nanoparticles evaluation and characterization. The book's chapters bring together knowledge on current analytical methodologies, limitations and advances in the in vitro analysis field. Users from the equipment industry will benefit from its innovations by understanding the needs of researchers and the challenges of current techniques. With the expectation of "high-quality data" essentially dependent on the analytical methodology applied for characterization, this is integral to success. For routine products like tablets, capsules, and solutions, the regulatory guidelines, product-specific monographs, and pharmacopoeial annexures are set and "standard of operation." However, for nano-micro pharmaceuticals, regulatory guidelines are still evolving.
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