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200 00$aTextbook of hepatology$b[electronic resource] $efrom basic science to clinical practice
205   $a3rd ed.
210   $aMalden, MA $cBlackwell$dc2007
215   $a1 online resource (2358 p.)
300   $aRev. ed. of: Oxford textbook of clinical hepatology. 2nd ed. 1999.
311   $a1-4051-2741-4 
320   $aIncludes bibliographical references and indexes.
327   $aTEXTBOOK OF Hepatology : From Basic Science to Clinical Practice; Contents; Contributors; Foreword; Preface to the third edition; Preface to the first edition; Volume One; Section 1 Architecture of the liver; 1.1 Macroscopic anatomy of the liver; 1.2 Liver and biliary tract histology; 1.3 Ultrastructure of the hepatocyte; 1.4 Liver sinusoidal endothelial cells; 1.5 Kupffer cells; 1.6 The hepatic stellate cell; 1.7 Biliary epithelial cells; 1.8 Hepatic stem cells; 1.9 Embryology of the liver and intrahepatic biliary tract; Section 2 Functions of the liver; 2.1 Hepatic circulation
327   $a2.1.1 Regulation of hepatic blood flow2.1.2 Hepatic microcirculation; 2.1.3 Hepatic lymph and lymphatics; 2.2 Functions of the liver; 2.2.1 Functional organization of the liver; 2.2.2 Cell biology of the hepatocyte; 2.2.3 Molecular biology of the liver cell; 2.2.4 Hepatic transport processes; 2.2.5 Modulation of liver function by hepatic nerves; 2.2.6 In vitro techniques: isolated organ perfusion, slices, cells and subcellular elements; 2.3 Metabolism; 2.3.1 Carbohydrates and the liver; 2.3.2 Lipoprotein metabolism; 2.3.3 Protein and amino acid metabolism
327   $a2.3.4 Mitochondria and energy formation2.3.5 Bilirubin metabolism; 2.3.6 Metabolism of bile acids; 2.3.7 Ammonia, urea production and pH regulation; 2.3.8 Protein synthesis and degradation in the liver; 2.3.9 Glutathione; 2.3.10 Haem biosynthesis and excretion of porphyrins; 2.3.11 Vitamins and the liver (A and D); 2.3.12 Normal iron metabolism; 2.3.13 Normal copper metabolism and lowering copper to subnormal levels for therapeutic purposes; 2.3.14 Trace elements and the liver; 2.3.15 Hepatic metabolism of drugs; 2.4 Synthetic function; 2.4.1 Albumin and other carrier proteins
327   $a2.4.2 The liver and coagulation2.4.3 Function and metabolism of collagen and other extracellular matrix proteins; 2.5 Regulation of the liver cell mass; 2.5.1 Control of liver cell proliferation; 2.5.2 Regeneration of chronically injured liver; 2.6 Excretion; 2.6.1 Physiology of bile formation; 2.6.2 Motility of the biliary tree; 2.7 Immunology of the liver; 2.7.1 Cytokines in liver physiology and pathology; 2.7.2 Intrahepatic lymphocytes; 2.7.3 Antibody production and transport in the liver; Section 3 Basic concepts in pathobiology; 3.1 Hepatocyte apoptosis and necrosis
327   $a3.2 Ischaemia...reperfusion injury to the liver3.3 Genetics and liver diseases; 3.3.1 Genetic polymorphisms in liver disease; 3.3.2 Immunogenetics of liver disease; 3.3.3 Genetic determinants of complex liver diseases: mouse models and quantitative trait locus analysis; 3.4 Cellular cholestasis; 3.5 Oncogenes and tumour suppressor genes; 3.6 Genomics, gene arrays and proteomics in the study of liver disease; Section 4 Pathology; 4.1 Histological features; 4.2 Classifications, scoring systems and morphometry in liver pathology; Section 5 Investigation of hepatobiliary disease
327   $a5.1 Signs and symptoms of liver disease
330   $aTHE encyclopedic guide to hepatology - for consultation by clinicians and basic scientists Previously the Oxford Textbook of Clinical Hepatology, this two-volume textbook is now with Blackwell Publishing. It covers basic, clinical and translational science (converting basic science discoveries into the practical applications to benefit people). Edited by ten leading experts in the liver and biliary tract and their diseases, along with outstanding contributions from over 200 international clinicians, this text has global references, evidence and extensive subject matter
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200 14$aThe mechanics of constitutive modeling$b[electronic resource] /$fNiels Saabye Ottosen, Matti Ristinmaa
210   $aAmsterdam ;$aLondon $cElsevier$d2005
215   $a1 online resource (759 p.)
300   $aDescription based upon print version of record.
311   $a0-08-044606-X 
320   $aIncludes bibliographical references (p. [705]-735) and index.
327   $aFront Cover; The Mechanics of Constitutive Modeling; Copyright Page; Contents; Preface; Chapter 1. Notations and Cartesian tensors; 1.1 Matrix notation; 1.2 Cartesian coordinate system; 1.3 Index notation; 1.4 Change of coordinate system; 1.5 Cartesian tensors; 1.6 Example of tensors - Isotropic tensors; Chapter 2. Strain tensor; 2.1 Introduction; 2.2 Small strain tensor; 2.3 Rigid-body motions; 2.4 Physical significance of the strain tensor; 2.5 Change of coordinate system; 2.6 Principal strains and principal directions - Invariants; 2.7 Extremum values of the normal strain
327   $a2.8 Cayley-Hamilton's theorem2.9 Deviatoric strains; 2.10 Important strain invariants; 2.11 Change of coordinate system - Mohr's circle; 2.12 Special states of strain; Chapter 3. Stress tensor; 3.1 Introduction; 3.2 Change of coordinate system; 3.3 Principal stresses and principal directions - Invariants; 3.4 Stress deviator tensor; 3.5 Change of coordinate system - Mohr's circle; 3.6 Special states of stress; 3.7 Equations of motion; 3.8 Weak formulation - Principle of virtual work; Chapter 4. Hyper-elasticity; 4.1 Strain energy and hyper-elasticity
327   $a4.2 Complementary energy and hyper-elasticity4.3 Linear hyper-elasticity  Anisotropy; 4.4 Linear elasticity - Matrix formulation; 4.5 Change of coordinate system when using matrix format; 4.6 Anisotropy in linear hyper-elasticity; 4.7 Initial strains - Thermoelasticity; 4.8 Most general isotropic hyper-elasticity; 4.9 Isotropic linear elasticity; 4.10 Nonlinear isotropic Hooke formulation; 4.11 Plane strain; 4.12 Plane stress; 4.13 Incompressible linear hyper-elasticity; Chapter 5. Cauchy-elasticity; 5.1 Response function, principle of coordinate invariance and isotropic tensor function
327   $a5.2 Most general isotropic Cauchy-elasticity5.3 Proof of most general form of isotropic Cauchy-elasticity; 5.4 Nonlinear isotropic Hooke formulation; Chapter 6. Representation theorems; 6.1 Scalar functions; 6.2 Second-order tensor functions; 6.3 Thermoelasticity; 6.4 Viscoelasticity; 6.5 Orthotropic linear elasticity; 6.6 Transverse isotropic linear elasticity; Chspter 7. Hypo - elasticity; 7.1 Time-independent response; Chapter 8. Failure and initial yield criteria; 8.1 Haigh-Westergaard coordinate system - Geometrical interpretation of stress invariants
327   $a8.2 Symmetry properties of the failure or initial yield curve in the deviatoric plane8.3 von Mises criterion; 8.4 Drucker-Prager criterion; 8.5 Coulomb criterion; 8.6 Mohr's failure mode criterion; 8.7 Tresca criterion; 8.8 Experimental results for metals and steel - von Mises versusTresca; 8.9 Rankine criterion and modified Coulomb criterion; 8.10 Experimental results for concrete versus the modified Coulomb criterion; 8.11 4-parameter criterion; 8.12 Experimental results for concrete versus the 4-parameter criterion; 8.13 Anisotropic criteria; Chapter 9. Introduction to plasticity theory
327   $a9.1 Change of yield surface due to loading - Hardening rules
330   $aConstitutive modelling is the mathematical description of how materials respond to various loadings. This is the most intensely researched field within solid mechanics because of its complexity and the importance of accurate constitutive models for practical engineering problems. Topics covered include:Elasticity - Plasticity theory - Creep theory - The nonlinear finite element method - Solution of nonlinear equilibrium equations - Integration of elastoplastic constitutive equations - The thermodynamic framework for constitutive modelling - Thermoplasticity - Uniqueness and discont
606   $aMechanics, Applied$xMathematical models
606   $aMathematics
615  0$aMechanics, Applied$xMathematical models.
615  0$aMathematics.
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700   $aOttosen$b Niels Saabye$0627401
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