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A one-of-a-kind book discussing drug-membrane sensors in pharmaceutical analysis Pharmaceutical Applications of Membrane Sensors is the first book to deal with the theory of drug-membrane sensors, as well as applications of such devices in pharmaceutical analysis. The book contains three main parts. The three major sections of the book cover the design and principles of membrane drug sensors, the use of membrane sensors in the analysis of pharmaceuticals, and various aspects of drug release monitoring by membrane sensors. Detailed analytical methods for more than 400 organic pharmaceuticals assayed by membrane sensor techniques are presented. Pharmaceutical Applications of Membrane Sensors will be a valuable reference for specialists in analytical and pharmaceutical chemistry, electroanalytical chemistry, medicine, pharmaceutical sciences, and pharmacology.
A one-of-a-kind book discussing drug-membrane sensors in pharmaceutical analysis Pharmaceutical Applications of Membrane Sensors is the first book to deal with the theory of drug-membrane sensors, as well as applications of such devices in pharmaceutical analysis. The book contains three main parts. The three major sections of the book cover the design and principles of membrane drug sensors, the use of membrane sensors in the analysis of pharmaceuticals, and various aspects of drug release monitoring by membrane sensors. Detailed analytical methods for more than 400 organic pharmaceuticals assayed by membrane sensor techniques are presented. Pharmaceutical Applications of Membrane Sensors will be a valuable reference for specialists in analytical and pharmaceutical chemistry, electroanalytical chemistry, medicine, pharmaceutical sciences, and pharmacology.
Polymers are one of the most fascinating materials of the present era finding their applications in almost every aspects of life. Polymers are either directly available in nature or are chemically synthesized and used depending upon the targeted applications. Advances in polymer science and the introduction of new polymers have resulted in the significant development of polymers with unique properties. Different kinds of polymers have been and will be one of the key in several applications in many of the advanced pharmaceutical research being carried out over the globe. This 4-partset of books contains precisely referenced chapters, emphasizing different kinds of polymers with basic fundamentals and practicality for application in diverse pharmaceutical technologies. The volumes aim at explaining basics of polymers based materials from different resources and their chemistry along with practical applications which present a future direction in the pharmaceutical industry. Each volume offer deep insight into the subject being treated. Volume 1: Structure and Chemistry Volume 2: Processing and Applications Volume 3: Biodegradable Polymers Volume 4: Bioactive and Compatible Synthetic/Hybrid Polymers
Fundamentals of Quorum Sensing, Analytical Methods and Applications in Membrane Bioreactors, Volume 81, describes the novelty of membrane bioreactors for the treatment of wastewater and the removal of specific contaminants that affect water quality or pose harm to humans. Topics of note in the updated release include Water Chemistry and Microbiology, Quorum Sensing as Bacterial Communication Language, the Effects of Quorum Sensing, Quorum Quenching, Membrane Bioreactors for Wastewater Treatment, Removal of Specific Contaminants, Microextraction Techniques, and the Determination of Quorum Sensing Chemicals. The contents of this updated volume will be appealing to a wide range of researchers as the authors of most chapters are experts in their respective fields with numerous published studies. - Gives an overview of quorum sensing as a communication language for bacteria and quorum quenching mediated approaches to mitigate or eliminate the effects of quorum sensing - Presents various sensitive determination methods where a variety of microextraction strategies is used for preconcentration of analyte(s)
This book describes a broad area of nanomedicine which involves mainly applications, diseases, and diagnostics. The comprehensive coverage provides researchers, academics, and health specialists with a great tool, that includes techniques applicable to various uses.
Flow-through sensors are more suitable than classical probe-type sensors for addressing real (non-academic) problems. The external shape and operation of flow-through (bio)chemical sensors are of great practical significance as they facilitate sample transport and conditioning, as well as calibration and sensor preparation, maintenance and regeneration, all of which result in enhanced analytical features and a wider scope of application. This is a systematic presentation of flow-through chemical and biochemical sensors based on the permanent or transient immobilization of any of the ingredients of a (bio)chemical reaction (i.e. the analyte, reagent, catalyst or product) where detection is integrated with the analytical reaction, a separation process (dialysis, gas diffusion, sorption, etc.) or both.The introductory chapter provides an overview of (bio)chemical sensors and their impact on analytical chemistry. Essential concepts of flow-through (bio)chemical sensors including their definition, classification, the types of flow-cells where the sensing microzone can be accommodated, continuous-flow configurations to which they can be coupled, the measurement modes available and the types of transient signals obtained, among others, are the subject of Chapter 2. The remaining chapters classify the most relevant types of flow-through (bio)chemical sensors according to the processes taking place at the sensing (recognition) microzone, as well as their position in space and time.The book deals critically with most types of flow-through sensors, discussing their possibilities and shortcomings to provide a realistic view of the state-of-the-art in the field. The large numbers of figures, the wealth of literature references and the extensive subject index complement the text.
A volume in the Principles and Applications in Engineering series, Clinical Engineering focuses on managing the deployment of medical technology and integrating it appropriately with desired clinical practices. It provides a description of the wide range of responsibilities clinical engineers encounter, describes technology management and assessmen
Over the last century, medicine has come out of the "black bag" and emerged as one of the most dynamic and advanced fields of development in science and technology. Today, biomedical engineering plays a critical role in patient diagnosis, care, and rehabilitation. More than ever, biomedical engineers face the challenge of making sure that medical d
This introductory text covers in detail the technology and applications of biosensors in their many forms. It provides an extensive survey of the basic principles, functions and applications of different categories of biosensors. The presentation is concise, systematic and well illustrated. Numerous schematics illustrate design and function. This book is an overview of the basic theories of operation for a number of specific types of biosensor transducers that have been investigated, with a general survey of some of the many applications using various biological elements that have been tested to date. A major portion of this book has been devoted to electrochemical transducers, since they have been most widely used. This bestselling text provides basic information for all those involved in the research, development, and applications of biosensors.
Biological and Pharmaceutical Applications of Nanomaterials presents the findings of cutting-edge research activities in the field of nanomaterials, with a particular emphasis on biological and pharmaceutical applications. Divided into four sections-nanomaterials for drug delivery, antimicrobial nanomaterials, nanomaterials in biosensors, and safet