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" Oxygen Transport to Tissue Xxiii Oxygen Measurements in the 21st Century: "
Wilson, David F.; Evans, Sydney M.; Biaglow, John; Pastuszko, Anna
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BL
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| Record Number
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723576
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b543291
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| Main Entry
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Wilson, David F.; Evans, Sydney M.; Biaglow, John; Pastuszko, Anna
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| Title & Author
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Oxygen Transport to Tissue Xxiii Oxygen Measurements in the 21st Century: : Basic Techniques and Clinical Relevance.\ Wilson, David F.; Evans, Sydney M.; Biaglow, John; Pastuszko, Anna
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| Publication Statement
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Springer Verlag, 2013
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| ISBN
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1461502055
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: 9781461502050
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| Contents
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Tumor Biology and Physiology. 1. The Role of Tumor Oxygenation in Vascular and Clinical Response to Angiogenesis Inhibition; M.S. Gee, W.M.F Lee. 2. Comparison of Fluctuations of Oxygen Tension in FSA, 9L and R3230AC Tumors in Rats; L.I. Cardenas-Navia, et al. 3. Effect of Carbogen-Breathing on Redox Status of the RIF-1 Tumor; G. Illangovan, et al. 4. Evaluation of Microregional Variations in Tumor Hypoxia Following the Administration of Endostatin; B.M. Fenton, et al. 5. Effect of Hydralazine on Blood Flow, Oxygenation and Interstitial Fluid Pressure in Subcuataneous Tumors; T. Jarm, et al. 6. Oxygenation of Cervix Cancers: Impact of Clinical and Pathological Parameters; M. Hoeckel, P. Vaupel. 7. Quantitative Spatial Analysis of Hypoxia and Vascular Perfusion in Tumor Sections; T.M. Busch, et al. 8. Tumor Oxygenation and its Relevance to Tumor Physiology and Treatment; P. Vaupel, M. Hoeckel. 9. Mechanisms Underlying Hypoxia Developments in Tumors; M.W. Dewhirst. 10. Lack of Association Between Tumor Hypoxia, GLUT-1 Expression and Glucose Uptake in Experimental Sarcomas; O. Thews, et al. 11. The Impact of Tissue Microenvironment on Treatment Simulation; A. Dasu, J. Denekamp. 12. Evidence for and Against Hypoxia as the Primary Cause of Tumor Aggressiveness; P. Okunieff, et al. 13. Characterization of Human Gc Protein-Derived Macrophage Activation Factor (GcMAF) and its Functional Role in Macrophage Tumoricidal Activity; S.B. Mohamad, et al. Blood Physiology and Blood Substitutes. 14. Effect of HemoglobinSolutions as Hemodiluents on Capillary Oxygen Tension; R.N. Pittman, et al. 15. Different Efficacy In Vitro of Hemoglobin Based Oxygen Carriers and Red Cells; E. Bucci, et al. 16. A Novel Blood Transfusant Candidate: Intact Human Erythrocytes Containing Hemoglobin Exclusively Nitrosylated in the -Subunits; A. Tsuneshige, T. Yonetani. 17. The Contribution of Hemoglobin to Oxygen Transport in the Microcrustacean Daphnia Magna; R. Pirow. 18. Modifications of Red Blood Cell Shape and Glycoproteins Membrane Content in Septic Patients; M. Piagnerelli, et al. 19. Fiber Optic Immunosensors for Cardio-Vascular Disease Diagnosis: Quantification of Protein C, Factor V Leiden, and Cardiac Troponin T in Plasma; H.J. Kwon, et al. 20. Soft Gel Chromatography Column Analysis and Design for the Production of High Molecular Weight Blood Factors: Model Molecule Protein C; Weiwei He, D.F. Bruley. 21. Development of an Economic Miniantibody Production Process for the Purification of Protein C (Anti-Coagulant/Anti-Thrombotic); L.K. Korah, et al. Nitric Oxide Biology and Physiology. 22. Nitric Oxide Synthesis in Brain is Stimulated by Oxygen; S.R. Thom, D.G. Buerk. 23. Oxygen Indirectly Regulates Nitric Oxide Availability; P.E. James, et al. 24. Modeling the Regulation of Oxygen Consumption by Nitric Oxide; K. Lamkin-Kennard, et al. Oxygen Measurement Methods and Applications. 25. Oxygen Sensor Design: Analysis and correction of Problems Associated With Zero Current, Stability and Structure; C.J. Koch. 26. Computer Simulation of Oxygen Microelectrode Measu
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| LC Classification
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QP99.3.O9W557 2013
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| Added Entry
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Wilson, David F.; Evans, Sydney M.; Biaglow, John; Pastuszko, Anna
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