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200 10$aForming God$eDivine Anthropomorphism in the Pentateuch /$fAnne K. Knafl
210  1$aWinona Lake, Indiana :$cEisenbrauns,$d2014
210  4$dİ2014
215   $a1 online resource (328 p.)
225 0 $aSiphrut, literature and theology of the Hebrew Scriptures$v12
300   $aTexte remanie de la these, Universite de Chicago, 2014.
311   $a1-57506-316-6 
320   $aIncludes bibliographical references and index.
327   $a""Contents""; ""Acknowledgments""; ""Abbreviations""; ""Chapter 1""; ""Introduction""; ""The Topic and History of Scholarship""; ""The Relevance of a New Study""; ""The Approach of This Study""; ""Structure and Argument""; ""Chapter 2""; ""Methodology and a Test Case""; ""Methodology""; ""Creation and Divine Anthropomorphism:  A Test Case (Genesis 1:1a???2:4a)""; ""Anthropomorphic Features of God in Genesis 1:1a???2:4a""; ""A Preliminary Typology""; ""Chapter 3""; ""The Divine Body""; ""Definition""; ""Goda???s Bodies: Full- and Small-Scale Manifestation""
327   $a""Mental Activity:  Bodily Idiom and the Inner Life of the Deity""""Chapter 4""; ""Divine Location""; ""Definition""; ""Theophany: Earthly Presence""; ""Divine Mobility""; ""Sustained Presence""; ""Chapter 5""; ""Divine Action and Interaction""; ""Definition""; ""A Survey of Divine Action in the Sources""; ""Divine Action with Direct or Indirect Interaction""; ""Chapter 6""; ""Conclusion""; ""A Typology of Divine  Anthropomorphism in the Pentateuch""; ""Divine Anthropomorphism in the  Pentateuchal Sources""; ""Implications of this Study  and Future Avenues of Research""; ""Bibliography""
327   $a""Index of Authors""""Index of Scripture""
330 8 $aThis volume examines divine anthropomorphism in the Hebrew Bible, a study characterized by disagreement and contradiction. Discussions of anthropomorphism in the Hebrew Bible are typically found in three areas of inquiry: ancient Israelite religion, as reflected by the compositions of the Pentateuch ; comparisons with ancient Near Eastern religions ; and comparison with ancient translation and interpretation of the Hebrew Bible. Contradictory arguments exist, both within each area of study and between them, about the intent of biblical writers, with respect to a theology of anthropomorphism. In this work, Knafl asserts that biblical studies has reached this impasse, largely due to its approach to the study of the phenomenon. The prevailing method has been to study divine anthropomorphism within an assumed framework of polemic and by associating it with a theological system. By contrast, Knafl analyzes divine anthropomorphism as a literary-contextual phenomenon and seeks to build a typology, from which secondary arguments regarding theology or history of religion may be built. This typology will provide scholars of biblical studies, history of religion, and (systematic) theology with a means of evaluating divine anthropomorphisms and their relation to human-divine interactions, as a biblical phenomenon.
410  0$aSiphrut ;$v12.
606   $aHistoire des doctrines$2rero
606   $aEnseignement biblique$2rero
606   $aDieu$2rero
606   $aCritique et exegese$2rero
606   $aAnthropomorphisme$2rero
606   $aGod (Judaism)$xHistory of doctrines$2fast$3(OCoLC)fst00944160
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608   $aCriticism, interpretation, etc.
615  7$aHistoire des doctrines.
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615  0$aGod (Judaism)$xHistory of doctrines.
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200 10$aChitin and Chitosan for Regenerative Medicine$b[electronic resource] /$fedited by Pradip Kumar Dutta
205   $a1st ed. 2016.
210  1$aNew Delhi :$cSpringer India :$cImprint: Springer,$d2016.
215   $a1 online resource (387 p.)
225 1 $aSpringer Series on Polymer and Composite Materials,$x2364-1878
300   $aDescription based upon print version of record.
311   $a81-322-2510-4 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aPreface; Contents; About the Editor; Part I Focus on Tissue Engineering; Chitosan Hydrogels for Regenerative Engineering ; Abstract ; 1 Introduction; 1.1 Chitosan; 1.2 Hydrogels; 2 Chitosan Hydrogels; 2.1 Physically Crosslinked Chitosan Hydrogels; 2.1.1 Thermogelling Hydrogels; 2.1.2 pH-Mediated Gelation; 2.1.3 Polyelectrolyte Complexes (PECs); 2.2 Chemically Crosslinked Hydrogels; 2.2.1 Chemically Crosslinked Hydrogels Using Exogenous Crosslinkers; 2.2.2 Photocrosslinked Hydrogels; 2.2.3 Enzymatically Crosslinked Hydrogels; 3 Chitosan Hydrogel for Regenerative Engineering Applications
327   $a3.1 Orthopedic Regenerative Engineering3.2 Cartilage Regenerative Engineering; 3.3 Neural Regenerative Engineering; 3.4 Corneal Regenerative Engineering; 3.5 Intestinal Regenerative Engineering; 3.6 Adipose Regenerative Engineering; 3.7 Liver Regenerative Engineering; 3.8 Intervertebral Disk Regenerative Engineering; 3.9 Cardiac Regenerative Engineering; 3.10 Skin Regenerative Engineering; 3.11 Ligament Regenerative Engineering; 4 Conclusions; References; Prospects of Bioactive Chitosan-Based Scaffolds in Tissue Engineering and Regenerative Medicine ; Abstract ; 1 Introduction
327   $a2 In Bone Tissue Engineering2.1 Chitosan-Synthetic Polymer Hybrid Scaffolds; 2.2 Chitosan-Calcium Phosphate Hybrid Scaffolds; 2.3 Chitosan-Bioactive Glass Hybrid Scaffolds; 2.4 Chitosan-Hydroxyapatite Hybrid Scaffolds; 3 In Cartilage Tissue Engineering; 3.1 Chitosan-Based Fibrous Scaffolds; 3.2 Chitosan-Based Scaffolds; 3.3 Chitosan-Based Composite Scaffolds; 4 In Liver Tissue Engineering; 4.1 Chitosan-Collagen Matrices; 4.2 Alginate-Chitosan Composite Matrices; 4.3 Chitosan-Based Microfibers; 5 In Nerve Tissue Engineering; 5.1 Chitosan-Based Membranes; 5.2 Chitosan-Based Hydrogels
327   $a6 In Musculoskeletal Tissue Engineering7 Concluding Remarks; References; Chitosan-Based Scaffolds for Cartilage Regeneration ; Abstract ; 1 Introduction; 2 Characteristics of Cartilage Damage and Reconstruction; 3 Superiorities of Chitosan-Based Scaffolds for Cartilage Regeneration; 4 Chitosan-Based Hydrogels for Cartilage Regeneration; 4.1 Physically Cross-Linked Hydrogels with Chitosan as Matrix; 4.2 Chitosan-Based Chemically Cross-Linked Hydrogels; 5 3D Porous Chitosan-Based Scaffolds; 5.1 Normal 3D Porous Chitosan-Based Scaffolds; 5.2 Fibrous Scaffolds with Chitosan as Matrix
327   $a5.3 Chitosan-Silk Scaffolds5.4 3D Printed Chitosan Scaffolds; 5.5 Dynamic Compression Chitosan Scaffolds; 5.6 Aggregated Chitosan-Particle Scaffolds; 6 Other Scaffolds with Chitosan as Matrix; 6.1 Blood Implant in Marrow Stimulation; 6.2 Chitosan-Based Cryogels; 6.3 Chitosan-Coated Scaffolds; 7 Summary and Future Directions; References; Composite Chitosan-Calcium Phosphate Scaffolds for Cartilage Tissue Engineering ; Abstract ; 1 Articular Cartilage; 2 Tissue Engineering; 3 Chitosan-Calcium Phosphate Scaffold; 4 Formation of Biphasic Constructs; 5 Collagen-Coated Scaffold Characteristics
327   $a6 Degradation
330   $aThe book is an excellent reference for scientists, researchers and students working in the field of areas of biopolymeric biomaterials, biomedical engineering, therapeutics, tissue engineering and regenerative medicine. The book is divided into two parts: Part I will focus on the tissue engineering and Part II focuses on therapeutics, functionalization and computer-aided techniques. The book consists of 13 chapters contributed by 20 international contributors who are leading experts in the field of biopolymers and its applications. It will focus on the advancements of chitin and chitosan in regenerative medicine.  Regenerative medicine in tissue engineering is the process of replacing or regenerating human cells, tissues, or organs to restore or establish normal function. It is an incredibly progressive field of medicine that may, in the near future, help with the shortage of life-saving organs available through donation for transplantation vis-a-vis regenerative medicine focuses on therapeutics, functionalization and computer-aided techniques. It also covers physical and chemical aspects of chitin and chitosan, structural modifications for biomedical applications, chitosan based scaffolds and biomodelling in tissue engineering, nanomedicines and therapeutic applications. With the broad range of applications, the world is waiting for biopolymers to serve as the basis for regenerative medicine and biomedical applications.
410  0$aSpringer Series on Polymer and Composite Materials,$x2364-1878
606   $aPolymers
606   $aBiomaterials
606   $aBiochemical engineering
606   $aPharmaceutical chemistry
606   $aPolymer Sciences$3https://scigraph.springernature.com/ontologies/product-market-codes/C22008
606   $aBiomaterials$3https://scigraph.springernature.com/ontologies/product-market-codes/Z13000
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606   $aMedicinal Chemistry$3https://scigraph.springernature.com/ontologies/product-market-codes/C28000
615  0$aPolymers.
615  0$aBiomaterials.
615  0$aBiochemical engineering.
615  0$aPharmaceutical chemistry.
615 14$aPolymer Sciences.
615 24$aBiomaterials.
615 24$aBiochemical Engineering.
615 24$aMedicinal Chemistry.
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