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Die umfassend überarbeitete 2. Auflage enthält ein neues Kapitel zur chemischen Analyse von Biopharmazeutika, in dem die Identifizierung, Reinheitsprüfung und die Analyse on Peptiden und proteinbasierten Formulierungen erläutert werden. Die neue Auflage bietet ebenfalls verbesserte farbige Abbildungen und Tabellen, eine gestraffte Kapitelstruktur und überarbeitete Inhalte, die das Fachgebiet klarer und verständlicher präsentieren. - Bietet eine Einführung in die grundlegenden Konzepte der pharmazeutischen analytischen Chemie und Statistik. - Untersucht systematisch pharmazeutische Anwendungen, die in anderen Lehrbüchern zu dem Fachgebiet fehlen. - Untersucht verschiedene Analysetechniken, die in der Regel in Pharmalaboren zur Anwendung kommen. - Präsentiert Fragestellungen aus der Praxis, aktuelle praktische Beispiele und detaillierte Illustrationen. - Die aktualisierten Inhalte entsprechen den aktuellen europäischen und US-amerikanischen Arzneibuchvorschriften und -richtlinien.
This textbook is the first to present a systematic introduction to chemical analysis of pharmaceutical raw materials, finished pharmaceutical products, and of drugs in biological fluids, which are carried out in pharmaceutical laboratories worldwide. In addition, this textbook teaches the fundamentals of all the major analytical techniques used in the pharmaceutical laboratory, and teaches the international pharmacopoeias and guidelines of importance for the field. It is primarily intended for the pharmacy student, to teach the requirements in “analytical chemistry” for the 5 years pharmacy curriculum, but the textbook is also intended for analytical chemists moving into the field of pha...
Bioanalysis of Pharmaceuticals: Sample Preparation, Separation Techniques and Mass Spectrometry is the first student textbook on the separation science and mass spectrometry of pharmaceuticals present in biological fluids with an educational presentation of the principles, concepts and applications. It discusses the chemical structures and properties of low- and high-molecular drug substances; the different types of biological samples and fluids that are used; how to prepare the samples by extraction, and how to perform the appropriate analytical measurements by chromatographic and mass spectrometric methods. Bioanalysis of Pharmaceuticals: Sample Preparation, Separation Techniques and Mass ...
Sample treatment has been the focus of intensive research in the last 20 years since it still remains a bottleneck in precise analytical procedures. The low concentration of the target analytes, the large amount of potential interfering agents and the incompatibility of the sample matrix with the instrumental techniques are the main reasons for these bottlenecks. In most of these methods, sample treatment is an unavoidable step and it has a clear influence on the quality (sensitivity, selectivity, and accuracy) of the final analytical results. While the usefulness of microextraction techniques has been established, their complete acceptance in analytical laboratories (including official meth...
This textbook is the first to present a systematic introduction to chemical analysis of pharmaceutical raw materials, finished pharmaceutical products, and of drugs in biological fluids, which are carried out in pharmaceutical laboratories worldwide. In addition, this textbook teaches the fundamentals of all the major analytical techniques used in the pharmaceutical laboratory, and teaches the international pharmacopoeias and guidelines of importance for the field. It is primarily intended for the pharmacy student, to teach the requirements in “analytical chemistry” for the 5 years pharmacy curriculum, but the textbook is also intended for analytical chemists moving into the field of pha...
This comprehensive directory comprises information on more than 800 European analytical scientists and includes complete addresses, telephone and fax numbers, fields of expertise, research topics as well as consulting activities. Private, governmental and official laboratories are also included. Exhaustive indexes allow easy access to all entries. The increasing demand for internationally approved professionals in all fields of analytical chemistry makes this volume an invaluable source of information for the analytical industry, R + D institutions, consultants, private laboratories and university departments seeking for cooperation and service partners or consultancy.
July 05-07, 2018 Berlin, Germany Key Topics : Recent Developments In Separation Techniques, Recent Upgrades In Sample Preparation Process, Bio-Separation Techniques, Biomarker And Biosensors Analysis - Regulations, Separation Techniques In Biochemistry, Analytical Chemistry, Mass Spectrometry, Spectroscopic Methods In Separation Techniques, Emerging Industrial Separation Technologies, Hyphenated Techniques, Chromatography, Separation Techniques In Organic Chemistry., Separations In Inorganic Chemistry, Separation Techniques In Environmental Chemistry, Desalination & Wastewater Treatment Techniques, Separation Techniques In Chemical Engineering, Membrane Separation Techniques, Separation Techniques Used In Nanotechnology, Current Trends In Fundamental Separation Techniques, Separation Techniques In Clinical / Pharmaceutical Chemistry, New Instrumentation And Multidimensional Separations, Separation Techniques And Applications, Separation Techniques Used In Geology / Mineralogy, Market Analysis Of Separation Techniques, Fractionation & Magnetism As A Separation Technique, Separation Based On Rate Phenomena,
Principles and Practice of Bioanalysis provides a guide to the methods available and the techniques currently used in this field. It provides up to the minute information and guidance on the methods and strategy used in developing and running ultra-trace analyses for drugs, metabolites and other substances. The authors writes in an informal and didactic style, offering a logical path through the problems of small molecule (bio)analysis and enables readers to choose appropriate methods of analysis for their needs. Principles and Practice of Bioanalysis provides an overview of analytical methods for analytical scientists within the pharmaceutical industry, research and development, the agrochemical industry, and scientists in the health service, biology and biochemistry. It also gives postgraduate students a useful reference for their research methods.
Solid Phase Microextraction (SPME) has been introduced as a modern alternative to current sample preparation technology, and has a wide range of applications. Focusing on quantitative aspects of analysis, Applications of Solid Phase Microextraction aims to describe these applications. In industry, practical uses of SPME can be found in environmental, food, pharmaceutical, clinical and forensic applications, all of which are described in this book. Important scientific applications such as reaction monitoring, characterization of coatings and distributions of analytes in natural multiphase systems are also discussed. Throughout there are descriptions of new technologies, including new coatings and interfaces for analytical instrumentation (SPME/LC and SPME/CE), automation and calibration processes. Written by internationally recognised experts, edited by the scientist involved in the research since its infancy, and encompassing a wide range of applications, this book will be ideal for anyone wishing to explore the feasibility of using SPME technology.
Quality by design (QbD) is becoming an integral element of the modern pharmaceutical and chemical development approach. In this book, the future ramifications of emergent modern applications of QbD and green analytical chemistry in drug design, process analytical technologies, and bioanalytical process development instruments are discussed. It will reveal and improve the QbD principles used in bioanalysis, process development, downstream processing, and the combination of QbD and green analytical chemistry employing eco-friendly and green solvents for product development. In addition, it will provide complete information regarding applying the QbD concept and ideology to quality control and process development. The book will be beneficial to PhD research scholars, researchers, and postgraduate and undergraduate students of pharmacy and chemical sciences for understanding the concept of quality by design and green chemistry for drug design, as it illustrates the necessary inputs that are related to product quality and, ultimately, process sustainability.