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Horizons in Clinical Nanomedicine
Nanomedicine—the application of nanotechnology to health sciences—has the potential to address many important medical problems by exploiting the advanced physicochemical characteristics of nanostructured materials and devices. It can revolutionize conventional medicine by offering cutting-edge developments in the processes of diagnosing, treating, and preventing diseases, injuries, or genetic disorders. Thus, clinical nanomedicine holds promise to preserve and improve human health. This book provides a comprehensive overview on the forefront developments of nanotechnology in various domains of clinical medicine, such as cardiology, oncology, pharmacology, immunology, dermatology, virology, hematology, orthopedics, embryology and congenital defects, dentistry, and tissue engineering. It also extensively discusses the toxicology aspects of engineered nanomaterials.
Handbook of Clinical Nanomedicine
This unique handbook (60 chapters) examines the entire "product life cycle," from the creation of nanomedical products to their final market introduction. While focusing on critical issues relevant to nanoproduct development and translational activities, it tackles topics such as regulatory science, patent law, FDA law, ethics, personalized medicin
Global Health Impacts of Nanotechnology Law
Small things add up: trillions of dollars of products applying nanotechnology have been marketed to consumers promising new medicines, strong packaging to protect goods from contamination, stronger eyelash mascara and long-lasting lipstick, construction materials for housing, cheaper energy, and new drugs to fight cancer. Nanotechnology applications to consumer products represent a huge slice of daily economic life, heralding a revolutionary age for science and technology. How can the benefits of nanotechnology be realized while protecting public health? Global Health Impacts of Nanotechnology Law: A Tool for Stakeholder Engagement fills a major void in legal, scientific policy discourse about nanotechnology for people who are curious about nanoscience, bioethics, and law. The pioneering, plain-language text of Dr. Ilise L. Feitshans, international health law scholar and former international civil servant, enables readers to move comfortably across disciplines and explore how nanotechnology can reshape both commerce and public health to improve daily life worldwide.
Horizons in Clinical Nanomedicine
Nanomedicine-the application of nanotechnology to health sciences-has the potential to address many important medical problems by exploiting the advanced physicochemical characteristics of nanostructured materials and devices. It can revolutionize conventional medicine by offering cutting-edge developments in the processes of diagnosing, treating,
Recent Development of Electrospinning for Drug Delivery
Several promising techniques have been developed to overcome the poor solubility and/or membrane permeability properties of new drug candidates, including different fiber formation methods. Electrospinning is one of the most commonly used spinning techniques for fiber formation, induced by the high voltage applied to the drug-loaded solution. With modifying the characteristics of the solution and the spinning parameters, the functionality-related properties of the formulated fibers can be finely tuned. The fiber properties (i.e., high specific surface area, porosity, and the possibility of controlling the crystalline–amorphous phase transitions of the loaded drugs) enable the improved rate...
The New Harvard Guide to Women’s Health
This holiday themed release offers five religiously themed stories about Christmas, offering lessons about life and spirituality. Among the stories offered in the program are Oh Little Town of Bethlehem, Don't Forget the Baby Jesus, The Christmas Tree, Dear Santa, and The First Christmas. ~ Cammila Collar, Rovi
Electronic Structure of Organic Semiconductors
Written in the perspective of an experimental chemist, this book puts together some fundamentals from chemistry, solid state physics and quantum chemistry, to help with understanding and predicting the electronic and optical properties of organic semiconductors, both polymers and small molecules. The text is intended to assist graduate students and researchers in the field of organic electronics to use theory to design more efficient materials for organic electronic devices such as organic solar cells, light emitting diodes and field effect transistors. After addressing some basic topics in solid state physics, a comprehensive introduction to molecular orbitals and band theory leads to a description of computational methods based on Hartree-Fock and density functional theory (DFT), for predicting geometry conformations, frontier levels and energy band structures. Topological defects and transport and optical properties are then addressed, and one of the most commonly used transparent conducting polymers, PEDOT:PSS, is described in some detail as a case study.
Analytical Techniques in the Pharmaceutical Sciences
The aim of this book is to present a range of analytical methods that can be used in formulation design and development and focus on how these systems can be applied to understand formulation components and the dosage form these build. To effectively design and exploit drug delivery systems, the underlying characteristic of a dosage form must be understood--from the characteristics of the individual formulation components, to how they act and interact within the formulation, and finally, to how this formulation responds in different biological environments. To achieve this, there is a wide range of analytical techniques that can be adopted to understand and elucidate the mechanics of drug de...
The Platelet
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