Galenical pharmacy or galenics is the science dealing with the pro duction of drug substances from raw materials, the purity of such substances, their formulation into pharmaceutical preparations with the desired effects and safety in use, and the quality control, stability and storage of the preparations. The field has taken its name from the Greek physician Galen (131-201 A.D.), who had a profound influence on medicine for many centuries because he collected and systematized the medicinal knowledge of his time. The discovery of insulin is attributed to Banting and Best who, in 1921, prepared an extract of the pancreas of the fetal calf and showed that the extract was capable of reducing the blood sugar level of a diabetic dog. This outstanding discovery gave rise to the rapid develop ment of the manufacture of insulin of bovine and porcine origin. By 1925, two Danish manufacturers of insulin preparations were established; both have since been in the forefront ofthe development of insulin preparations, the latest achievement being the marketing of human insulin by Novo in 1982. The development of highly purified human insulin produced semisynthetically from porcine insulin or by DNA recombinant methods are significant contributions to safe and efficient insulin therapy. Insulin is a protein which is destroyed in the gastrointestinal tract.
Galenical pharmacy or galenics is the science dealing with the pro duction of drug substances from raw materials, the purity of such substances, their formulation into pharmaceutical preparations with the desired effects and safety in use, and the quality control, stability and storage of the preparations. The field has taken its name from the Greek physician Galen (131-201 A.D.), who had a profound influence on medicine for many centuries because he collected and systematized the medicinal knowledge of his time. The discovery of insulin is attributed to Banting and Best who, in 1921, prepared an extract of the pancreas of the fetal calf and showed that the extract was capable of reducing the blood sugar level of a diabetic dog. This outstanding discovery gave rise to the rapid develop ment of the manufacture of insulin of bovine and porcine origin. By 1925, two Danish manufacturers of insulin preparations were established; both have since been in the forefront ofthe development of insulin preparations, the latest achievement being the marketing of human insulin by Novo in 1982. The development of highly purified human insulin produced semisynthetically from porcine insulin or by DNA recombinant methods are significant contributions to safe and efficient insulin therapy. Insulin is a protein which is destroyed in the gastrointestinal tract.
A major challenge confronting the pharmaceutical scientist working with protein formulation is the instability during processing, storage and use of the protein drug. This book reviews stability aspects encountered since the pioneering isolation of insulin in 1921. An introductory chapter, treating insulin purity and stability in historical perspective, is followed by a chapter with a description of the structure of insulin. The main part of the book is a comprehensive review of the literature dealing with stability of insulin in pharmaceutical formulation, including biological stability and the physical and chemical decomposition of insulin. The physical stability (i.e. the tendency of insulin to form insoluble fibrils) is reviewed as are methods to stabilize insulin for long-term use in infusion pumps. The book will be of interest to research and clinical pharmacologists involved with insulin and other protein-based drug substances.
This book reviews the physiological basis of bile formation as well as its ontogenesis, describes the most important cholestatic liver diseases in infancy, and critically reviews treatment modalities of cholestatic liver diseases: surgical and medical, new and old. The book addresses paediatricians and hepatologists, as well as basic scientists interested in bile acid metabolism and its derangements in cholestasis. This is the proceedings of the Falk Symposium No. 63 `Pediatric Cholestasis: Novel Approaches to Treatment' held in Titisee, Germany, October 9-10, 1991.
Galenical pharmacy or galenics is the science dealing with the pro duction of drug substances from raw materials, the purity of such substances, their formulation into pharmaceutical preparations with the desired effects and safety in use, and the quality control, stability and storage of the preparations. The field has taken its name from the Greek physician Galen (131-201 A.D.), who had a profound influence on medicine for many centuries because he collected and systematized the medicinal knowledge of his time. The discovery of insulin is attributed to Banting and Best who, in 1921, prepared an extract of the pancreas of the fetal calf and showed that the extract was capable of reducing the blood sugar level of a diabetic dog. This outstanding discovery gave rise to the rapid develop ment of the manufacture of insulin of bovine and porcine origin. By 1925, two Danish manufacturers of insulin preparations were established; both have since been in the forefront ofthe development of insulin preparations, the latest achievement being the marketing of human insulin by Novo in 1982. The development of highly purified human insulin produced semisynthetically from porcine insulin or by DNA recombinant methods are significant contributions to safe and efficient insulin therapy. Insulin is a protein which is destroyed in the gastrointestinal tract.
Cost models are an essential part of database systems, as they are the basis of query performance optimization. Based on predictions made by cost models, the fastest query execution plan can be chosen and executed or algorithms can be tuned and optimised. In-memory databases shifts the focus from disk to main memory accesses and CPU costs, compared to disk based systems where input and output costs dominate the overall costs and other processing costs are often neglected. However, modelling memory accesses is fundamentally different and common models do not apply anymore. This work presents a detailed parameter evaluation for the plan operators scan with equality selection, scan with range selection, positional lookup and insert in in-memory column stores. Based on this evaluation, a cost model based on cache misses for estimating the runtime of the considered plan operators using different data structures is developed. Considered are uncompressed columns, bit compressed and dictionary encoded columns with sorted and unsorted dictionaries. Furthermore, tree indices on the columns and dictionaries are discussed. Finally, partitioned columns consisting of one partition with a sorted and one with an unsorted dictionary are investigated. New values are inserted in the unsorted dictionary partition and moved periodically by a merge process to the sorted partition. An efficient attribute merge algorithm is described, supporting the update performance required to run enterprise applications on read-optimised databases. Further, a memory traffic based cost model for the merge process is provided.
The Sobotta Clinical Atlas of Human Anatomy is tailored specifically to the needs of medical and health professional students. It utilizes a regional approach for learning human anatomy that integrates core concepts of anatomical structure and function with modern methods of diagnostic imaging, cross-sectional anatomy, illustrations of real world functions, clinically relevant surface anatomy and key examples of how anatomical knowledge informs clinical practice. The 'Clinical Remarks' and 'Structure/Function' sections provide important and easily identifiable practical examples, which reinforce clinical application of anatomical knowledge. Moreover, all anatomical images are accompanied by descriptive text and summary tables which serve to highlight the key concepts associated with each specific image. Key features of the atlas include: More than 1850 anatomical, radiological, cross-sectional and functional images with clinically relevant labels give you a solid grounding in human anatomy Descriptive text provides you with additional information for all images Summary tables allow you to organize valuable key concepts The regional approach to anatomy enables you to place functional, clinical and cross-sectional images in context 'Clinical Remarks' and 'Structure/Function' vignettes give you a head-start in learning anatomy in a clinically relevant manner Surface anatomy illustrations equip you with valuable knowledge for your first physical examinations The perfect study tool for courses in medicine – as well as a range of other courses, including dentistry, pharmacy, nursing, kinesiology or the movement sciences and physician assistants A unique PIN code provides you with bonus access to a complete digital copy of your atlas
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