00982nam a2200253 i 450099100056778970753620020509172340.0990219s1871 de ||| | lat b11377744-39ule_instPARLA211072ExLDip.to Scienze dell'AntichitàitaLucretius Carus, Titus71848T. Lucreti Cari De rerum natura :libri sex /Carolus Lachmannus recensuit et emendavit4. ed.Berolini :Typis et impensis G.Reimeri,MDCCCLXXI (1871)252 p. ;24 cm.Lucrezio Caro, Tito - De rerum naturaLachmann, Karl.b1137774402-04-1401-07-02991000567789707536LE007 870.1 Lucretius 1971-0112015000022769le007-E0.00-l- 01010.i1156077001-07-02T. Lucreti Cari De rerum natura816989UNISALENTOle00701-01-99ma -latde 0106649nam 22011413u 450 991095477850332120251117093212.09781299159464129915946X9781118402030111840203097811184020541118402057(CKB)2670000000325857(EBL)1121700(OCoLC)827207351(SSID)ssj0000821986(PQKBManifestationID)11473341(PQKBTitleCode)TC0000821986(PQKBWorkID)10755740(PQKB)10301831(MiAaPQ)EBC1121700(Perlego)1004092(EXLCZ)99267000000032585720131111d2013|||| u|| |engur|n|---|||||txtccrGlial Physiology and Pathophysiology1st ed.Hoboken Wiley20131 online resource (561 p.)Description based upon print version of record.9780470978535 0470978538 Glial Physiology and Pathophysiology; Contents; Preface; About the Authors; Abbreviations; About the Companion Website; 1 History of Neuroscience and the Dawn of Research in Neuroglia; 1.1 The miraculous human brain: localising the brain functions; 1.2 Cellular organisation of the brain; 1.3 Mechanisms of communications in neural networks; 1.3.1 Electrical/ionic nature of excitability; 1.3.2 Chemical signalling between neural cells; 1.4 The concept of neuroglia; 1.5 Beginning of the modern era; 1.6 Concluding remarks; References; 2 General Overview of Signalling in the Nervous System2.1 Intercellular signalling: wiring and volume modes of transmission2.2 Cellular signalling: receptors; 2.3 Intracellular signalling: second messengers; 2.4 Calcium signalling; 2.4.1 Cellular Ca2+ regulation; 2.5 Concluding remarks; 3 Neuroglia: Definition, Classification, Evolution, Numbers, Development; 3.1 Definition of neuroglia as homeostatic cells of the nervous system; 3.2 Classification; 3.3 Evolution of neuroglia; 3.3.1 Evolution of astrocytes; (i) Nematoda: neuroglia in Caenorhabditis elegans; (ii) Annelida: astroglia in leech(iii) Arthropoda: astrocytes in Drosophila and other insects(iv) Neuroglia in early Deuterostomia (Hemichordata and Echinodermata); (v) Neuroglia in low vertebrates; (vi) Glial advance in higher vertebrates; 3.3.2 Evolution of myelination; 3.3.3 Evolution of microglia; 3.4 Numbers: how many glial cells are in the brain?; 3.5 Embryogenesis and development of neuroglia in mammals; 3.5.1 Macroglial cells; 3.5.2 Astroglial cells are brain stem cells; 3.5.3 Peripheral glia and schwann cell lineage; 3.5.4 Microglial cell lineage; 3.6 Concluding remarks; References; 4 Astroglia4.1 Definition and heterogeneity4.2 Morphology of the main types of astroglia; 4.3 How to identify astrocytes in the nervous tissue; 4.4 Astroglial syncytial networks; 4.4.1 Gap junctions, connexons and connexins; 4.4.2 Astroglial networks; 4.5 Physiology of astroglia; 4.5.1 Membrane potential and ion distribution; 4.5.2 Ion channels; (i) Potassium channels; (ii) Voltage-operated sodium channels (Nav); (iii) Calcium channels; (iv) Transient receptor potential or TRP channels; (v) Anion/chloride channels; (vi) Aquaporins; 4.5.3 Receptors to neurotransmitters and neuromodulators(i) Glutamate receptors(ii) Purinoceptors; (iii) γ-aminobutiric acid receptors (GABA) receptors; (iv) Glycine receptors; (v) Acetylcholine receptors; (vi) Adrenergic receptors; (vii) Serotonin receptors; (viii) Histamine receptors; (ix) Cannabinoid receptors; (x) Neuropeptide receptors; (xi) Cytokine and chemokine receptors; (xii) Complement receptors; (xiii) Platelet-activating factor receptors; (xiv) Thrombin receptors; (xv) Ephrin receptors; (xvi) Succinate receptors; 4.5.4 Astroglial membrane transporters; (i) ATP-dependent transporters; (ii) Secondary transporters4.5.5 Calcium signalling in astrogliaGlial Physiology and Pathophysiology provides a comprehensive, advanced text on the biology and pathology of glial cells.Coverae includes:the morphology and interrelationships between glial cells and neurones in different parts of the nervous systemsthe cellular physiology of the different kinds of glial cellsthe mechanisms of intra- and inter-cellular signalling in glial networksthe mechanisms of glial-neuronal communicationsthe role of glial cells in synaptic plasticity, neuronal survival and development of nervous system</Nervous System Diseases - physiopathologyNervous system diseases -- PhysiopathologyNeuroglia - pathologyNeuroglia -- PathologyNeuroglia - physiologyNeuroglia -- PhysiologyNeurogliaPathophysiologyNervous SystemDiseaseMedicineBiological Science DisciplinesCellsHealth OccupationsAnatomyNatural Science DisciplinesNeurogliaNervous System DiseasesPathologyPhysiologyHuman Anatomy & PhysiologyHILCCHealth & Biological SciencesHILCCNeuroscienceHILCCNervous System Diseases - physiopathology.Nervous system diseases -- Physiopathology.Neuroglia - pathology.Neuroglia -- Pathology.Neuroglia - physiology.Neuroglia -- Physiology.NeurogliaPathophysiology.Nervous System.Disease.Medicine.Biological Science Disciplines.Cells.Health Occupations.Anatomy.Natural Science Disciplines.Neuroglia.Nervous System Diseases.Pathology.Physiology.Human Anatomy & PhysiologyHealth & Biological SciencesNeuroscience612.8Verkhratskiĭ A. N(Alekseĭ Nestorovich)917755Butt Arthur Morgan1814966AU-PeELAU-PeELAU-PeELBOOK9910954778503321Glial Physiology and Pathophysiology4369234UNINA