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How basic chemical ideas help advance the understanding and treatment of disease Biomedical Chemistry presents clear, concise coverage of the application of chemistry to drug discovery and determination of disease etiology, highlighting its role in the explosive growth of biotechnology and molecular biology. Through expert contributions from leading researchers in diverse fields, the book provides readers with an understanding of how fundamental chemical concepts are used in the development of novel approaches to the major problems in medicine today. The authors explain both the science and reasoning underlying each experimental approach, exploring cutting-edge developments in AIDS, cancer, alcoholism, Parkinson's disease, trypanosomiasis, emphysema, and malaria. Contemporary research problems discussed include: * Mechanism-based drug discovery * Design of new antitumor and antiviral agents * Targeting tumors using magnetic drug delivery * Antisense and antigene agents Easily accessible to anyone with a solid undergraduate background in chemistry, Biomedical Chemistry is an excellent resource for researchers in health-related fields as well as anyone seeking an overview of frontier topics in medicinal chemistry, organic chemistry, and biochemistry.
Biomedical Chemistry provides readers with an understanding of how fundamental chemical concepts are used to combat some diseases. The authors explain the interdisciplinary relationship of chemistry with biology, physics, pharmacy and medicine. The results of chemical research can be applied to understand chemical processes in cells and in the body, and new methods for drug transportation. Also, basic chemical ideas and determination of disease etiology are approached by developing techniques to ensure optimum interaction between drugs and human cells. This Book is an excellent resource for students and researchers in health-related fields with frontier topics in medicinal and pharmaceutical chemistry, organic chemistry and biochemistry.
The aim of this book is to return to the biomimicry and medicinal potential that inspired many of the early supramolecular chemists and to set it in the context of current advances in the field. Following an overview of supramolecular chemistry, the first section considers the efforts made to synthesize artificial systems that mimic biological entities. The second section addresses the application of supramolecular principles to molecular diagnostics with a particular emphasis on the ‘receptor-relayreporter’ motif. Many of the examples chosen have clinical importance. The third section takes the clinical diagnostic theme further and demonstrates the therapeutic applications of supramolecular chemistry through photodynamic therapy, drug delivery, and the potential for synthetic peptides to form antibiotic tubes. The short epilogue considers the potential for supramolecular solutions to be found for further challenges in biomimetic and therapeutic chemistry.
Using a straightforward and broad approach this book incorporates inorganic and organic chemistry at degree level. It covers fundamental vocabulary and philosophy of chemistry, basic organic chemistry and selected inorganic topics of interest to the natura
There have been great advances in biomedical imaging techniques in recent years and they are becoming prominent in supramolecular chemistry. This book will clarify the current understanding of these techniques.
This penetrating case study of institution building and entrepreneurship in science shows how a minor medical speciality evolved into a large and powerful academic discipline. Drawing extensively on little-used archival sources, the author analyses in detail how biomedical science became a central part of medical training and practice. The book shows how biochemistry was defined as a distinct discipline by the programmatic vision of individual biochemists and of patrons and competitors in related disciplines. It shows how discipline builders used research programmes as strategies that they adapted to the opportunities offered by changing educational markets and national medical reform movements in the United States, Britain and Germany. The author argues that the priorities and styles of various departments and schools of biochemistry reflect systematic social relationships between that discipline and biology, chemistry and medicine. Science is shaped by its service roles in particular local contexts: This is the central theme. The author's view of the political economy of modern science will be of interest to historians and social scientists, scientific and medical practitioners, and anyone interested in the ecology of knowledge in scientific institutions and professions.
The focus of this new book is for medicinal chemists on the chemical agents that have been used, or might be required in the future, and the methods of synthesis for inserting the reporter groups. Medicinal chemists need to know the critical issues involved in using such chemical agents with regard to the biological applications - for instance - what properties are needed chemically and why? The topics covered in the book are: PET, SPECT, contrast agents, radioimaging/radionuclide conjugates, receptor mapping, small animal imaging (eg. WBAR - whole body autoradiography); photoinduced labelling, as well as chapters on the physical techniques used including: NMR, mass spectrometry and Xray. A key reference for academics, postgraduates, researchers, industrialists and professionals working in or joining this field.
Teaches the fundamentals of mass transport with a unique approach emphasizing engineering principles in a biomedical environment Includes a basic review of physiology, chemical thermodynamics, chemical kinetics, mass transport, fluid mechanics and relevant mathematical methods Teaches engineering principles and mathematical modelling useful in the broad range of problems that students will encounter in their academic programs as well as later on in their careers Illustrates principles with examples taken from physiology and medicine or with design problems involving biomedical devices Stresses the simplification of problem formulations based on key geometric and functional features that permit practical analyses of biomedical applications Offers a web site of homework problems associated with each chapter and solutions available to instructors Homework problems related to each chapter are available from a supplementary website (
This book represents a critical evaluation of the most recent discoveries about carbon nanotubes and includes a cautious description of their impact on personal health and environmental pollution. It also offers an overview of the main research groups around the world which have been focusing their efforts on the exploitation of this intriguing material, with the purpose of inspiring young scientists to follow their pathway.
Biomedical Chemistry provides readers with an understanding of how fundamental chemical concepts are used to combat some diseases. The authors explain the interdisciplinary relationship of chemistry with biology, physics, pharmacy and medicine. This Book is an excellent resource for students and researchers in health-related fields with frontier topics in medicinal and pharmaceutical chemistry, organic chemistry and biochemistry.