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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000010169168 | QP981.F55 F58 2008 | Open Access Book | Book | Searching... |
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Summary
Summary
Fluorine and Health presents a critical multidisciplinary overview on the contribution of fluorinated compounds to resolve the important global issue of medicinal monitoring and health care. The involved subjects are organized in three thematic parts devoted to Molecular Imaging, Biomedical Materials and Pharmaceuticals. Initially the key-position of partially fluorinated low molecular weight compounds labelled either with the natural 19F-isotope for Magnetic Resonance Imaging (MRI) or labelled with the radioactive [18F]-isotope for Positron Emission Tomography (PET) is highlighted. Both non-invasive methods belong to the most challenging in vivo imaging techniques in oncology, neurology and in cardiology for the diagnosis of diseases having the highest mortality in the industrialized countries. The manifold facets of fluorinated biomaterials range from inorganic ceramics to perfluorinated organic molecules. Liquid perfluorocarbons are suitable for oxygen transport and as potential respiratory gas carriers, while fluorinated polymers are connected to the pathology of blood vessels. Another important issue concerns the application of highly fluorinated liquids in ophthalmology. Moreover, fluorine is an essential trace element in bone mineral, dentine and tooth enamel and is applied for the prophylaxis and treatment of dental caries. The various origins of human exposure to fluoride species is detailed to promote a better understanding of the effect of fluoride species on living organisms.Medicinally relevant fluorinated molecules and their interactions with native proteins are the main focus of the third part. New molecules fluorinated in strategic position are crucial for the development of pharmaceuticals with desired action and optimal pharmacological profile. Among the hundreds of marketed active drug components there are more than 150 fluorinated compounds. The chapters will illustrate how the presence of fluorine atoms alters properties of bioactive compounds at various biochemical steps, and possibly facilitate its emergence as pharmaceuticals. Finally the synthetic potential of a fluorinase, the first C-F bond forming enzyme, is summarized.
Author Notes
Alain Tressaud is Emeritus Research Director at ICMCB-CNRS, Bordeaux University. He is Vice President of the European Academy of Science (Brussels) and member of several European Academies. He founded and chaired until 2008 the French Network on Fluorine Chemistry, sponsored by CNRS. Among the awards he received, the CEA Award of French Academy of Sciences (2008), Fluorine Award of the American Chemical Society (2011), and International Henri Moissan Prize (2013) can be quoted.
His scientific interest covers various fields, e.g. synthesis, physical chemical characterizations, applications in fluorine chemistry, solid state chemistry, and materials sciences. His works also deal with surface modification of materials and intercalation chemistry. His scientific production includes more than 350 papers in international journals, 20 book chapters contributions, and 12 internationalized patents. In addition, he edited 5 books, including the Editor-in-Chief responsibility of the book series "Advances in Fluorine Science" (2006) and "Progress in Fluorine Science" (2016) with Elsevier. In 2011, his book on "Le fluor: histoire, applications & paradoxes" appeared at CNRS-Editions, Paris.
G#65533;nter Haufe, Professor at M#65533;nster Univ., Germany is one of the top leading European scientists in the field of the synthesis of new active molecules in Bioorganics and to their applications in Medical Sciences. His researches are mainly devoted to the discovery of new and selective molecules, active against various illnesses, including cancer, heart arrhythmia, neurological diseases (more than 250 papers in peer-referred journals). He is Editor for Europe, Africa & Australia of the Journal of Fluorine Chemistry. He edited the book: "Fluorine and Health: Molecular Imaging, Biomedical Materials and Pharmaceuticals", Elsevier, Amsterdam (2008). He is Fellow of the European Academy of Sciences (Brussels).
Table of Contents
| Part I Molecular Imaging |
| 1 Fluorine-18 Chemistry for Molecular Imaging with Positron Emission TomographyFrederic Dolle and Dirk Roeda and Bertrand Kuhnast and Marie-Claire Lasne |
| 2 Application of 18 F-PET Imaging for the Study of Alzheimers DiseaseKjell Nagren and Juha O. Rinne |
| 3 18 F-Labeled PET-Tracers for Cardiological ImagingKlaus Kopka and Stefan Wagner and Michael Schafers and Andreas Faust and Otmar Schober and Gunter Haufe |
| 4 [ 18 F]-Labeled PET and PET/CT Compounds in OncologyKen Herrmann and Bernd Joachim Krause |
| 5 Non-Invasive Physiology and Pharmacology Using 19 F Magnetic ResonanceJian-Xin Yu and Weina Cui and Dawen Zhao and Ralph P. Mason |
| Part II Biomedical Materials |
| 6 Fluoride-Based BioceramicsChristian Rey and Christele Combes and Christophe Drouet and Hocine Sfihi |
| 7 Fluoride in Dentistry and Dental RestorativesJohn W. Nicholson and Beata Czarnecka |
| 8 Fluorinated Biomaterials for Cardiovascular SurgeryCharles Baquey and Marie-Christine Durrieu and Robert G. Guidoin |
| 9 Fluorinated Molecules in Eye Surgery: Experimental and Clinical Benefit of a Heavy Silicone Oil Oxane Hd (r) (Mixture of Silicone Oil and RMN3 Fluorine Olefin) in the Treatment of Retinal DetachmentI. Rico-Lattes and J. C. Quintyn and V. Pagot-Mathis|cX. Benouaich and A. Mathis |
| 10 Biocompatibility of Highly Fluorinated Liquids Used in Ophthalmic SurgeryDirk-Henning Menz and Joachim H. Dresp |
| 11 Perfluorochemical-Based Oxygen Therapeutics, Contrast Agents, and BeyondMarie Pierre Krafft and Jean G. Riess |
| 12 Exposure of Humans to Fluorine and Its AssessmentMaja Ponikvar |
| Part III Pharmaceuticals |
| 13 Biological Impacts of Fluorination: Pharmaceuticals Based on Natural ProductsJean-Pierre Begue and Daniele Bonnet-Delpon |
| 14 Synthesis and Pharmacological Properties of Fluorinated ProstanoidsYasushi Matsumura |
| 15 Synthesis and Biochemical Evaluation of Fluorinated Monoamine Oxidase InhibitorsKenneth L. Kirk and Shinichi Yoshida and Gunter Haufe |
| 16 Fluoroolefin Dipeptide Isosteres: Structure, Syntheses, and ApplicationsJohn T. Welch |
| 17 Molecular Interactions of Fluorinated Amino Acids in a Native Polypeptide EnvironmentMario Salwiczek and Christian Jackel and Beate Koksch |
| 18 Biological Fluorination in Streptomyces cattleya: The FluorinaseHai Deng and Fang-Lu Huang and James H. Naismith and David O'Hagan and Jonathan B. Spencer and Xiaofeng Zhu |
