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200 10$aRadiation pathology$b[electronic resource] /$fLuis Felipe Fajardo L-G, Morgan Berthrong, Robert E. Anderson
210   $aNew York $cOxford University Press$dc2001
215   $a1 online resource (471 p.)
300   $aDescription based upon print version of record.
311   $a0-19-511023-4 
320   $aIncludes bibliographical references and index.
327   $a""Contents""; ""1. Basic radiation, physics, chemistry, and biology""; ""2. Exposures of human populations to ionizing radiation""; ""3. Acute radiation syndromes""; ""4. Mutations and genetic effects""; ""5. Consequences of fetal and childhood exposures""; ""6. Radiation-induced life shortening""; ""7. Radiation and host defense mechanisms""; ""8. Radiation carcinogenesis""; ""9. Diagnostic radiology""; ""10. Techniques and technology in the practice of radiotherapy""; ""11. Overview of radiation injury in organs and tissues""; ""12. Cardiovascular system""; ""HEART""; ""BLOOD VESSELS""
327   $a""13. Respiratory tract""""LARYNX""; ""LUNG""; ""14. Alimentary tract""; ""ORAL CAVITY AND PHARYNX""; ""ESOPHAGUS""; ""STOMACH""; ""SMALL INTESTINE""; ""LARGE INTESTINE AND ANAL CANAL""; ""15. Liver""; ""16. Pancreas""; ""17. Salivary Glands""; ""18. Urinary system""; ""KIDNEY""; ""URETERS AND URINARY BLADDER""; ""19. Female reproductive organs""; ""20. Mammary glands""; ""THE FEMALE BREAST""; ""THE MALE BREAST""; ""21. Male reproductive organs""; ""TESTIS""; ""PROSTATE""; ""PENIS""; ""22. Endocrine glands""; ""HYPOTHALAMIC-HYPOPHYSEAL AXIS""; ""THYROID""; ""PARATHYROID GLANDS""
327   $a""ADRENAL GLANDS""""23. Nervous system""; ""CENTRAL NERVOUS SYSTEM""; ""SPINAL CORD""; ""PERIPHERAL NERVES""; ""24. Musculoskeletal system""; ""BONES""; ""SKELETAL MUSCLES""; ""25. Hematopoietic tissue""; ""26. Lymphoreticular system""; ""27. Organs of special senses""; ""EYE AND ITS ADNEXA""; ""EAR""; ""28. Skin""; ""29. Differential diagnosis of atypical cells in irradiated tissues""; ""30. Risk assessment""; ""Epilogue""; ""Index""; ""A""; ""B""; ""C""; ""D""; ""E""; ""F""; ""G""; ""H""; ""I""; ""J""; ""K""; ""L""; ""M""; ""N""; ""O""; ""P""; ""Q""; ""R""; ""S""; ""T""; ""U""; ""V""; ""W""
327   $a""X""
606   $aRadiation$xToxicology
606   $aRadiation injuries$xPathophysiology
608   $aElectronic books.
615  0$aRadiation$xToxicology.
615  0$aRadiation injuries$xPathophysiology.
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700   $aFajardo$b Luis Felipe$0917552
701   $aAnderson$b Robert E$g(Robert Edwin),$f1931-2009.$0917553
701   $aBerthrong$b Morgan$0917554
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 00$aDendritic Cell Control of Immune Responses
210   $cFrontiers Media SA$d2016
215   $a1 online resource (121 p.)
225 1 $aFrontiers Research Topics
311 08$a2-88919-868-5 
330   $aDendritic cells (DC) are among the first cells to encounter pathogens and damage in peripheral tissues and, upon activation, DC migrate to lymph nodes where they activate and educate T cells to initiate and shape the immune response. DC present pathogen-derived antigen to T cells and drive T cell differentiation into particular effector cells through the expression and secretion of co-stimulatory molecules and cytokines respectively. The study of DC biology has included the identification of multiple DC subsets in tissues and lymphoid organs, the differentiation and plasticity of DC subsets, the functional consequences of DC interaction with pathogen, control of DC migratory properties and the impact of DC on T cell activation and differentiation. In recent years sophisticated systems biology approaches have been developed to deepen our understanding of DC function. These studies have identified differences between DC subsets located in various tissues and critical factors that drive the outcome of the interaction between DC and T cells. DC are currently being used in in various clinical therapeutic settings, including as vaccines for cancer and autoimmune disease. A clear understanding of DC factors that contribute to specific immune responses is vital to the success of DC based therapies. This research topic will give a comprehensive overview of current issues in DC biology and provides an update on the clinical uses of DC in the therapy of autoimmunity and cancer.
606   $aMedicine$2bicssc
610   $aAutoimmunity
610   $aCancer
610   $aDendritic Cells
610   $aImmune Regulation
610   $aT cells
615  7$aMedicine
676   $a616.07/9
702   $aButterfield$b Lisa Helene
702   $aMorel$b Penelope Anne
906   $aBOOK
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