Verfügbarkeit: Human neurophysiology :

Human neurophysiology :: development and repair of the human central nervous system /

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Bibliographische Detailangaben
1. Verfasser:	Schalow, Giselher
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hauppauge, NY : Nova Science Publishers, Inc., ©2013.
Schriftenreihe:	Neuroanatomy research at the leading edge
Schlagworte:	Neurophysiology. Neurophysiology Neurophysiologie. MEDICAL > Neuroscience. PSYCHOLOGY > Neuropsychology. Libros electronicos.
Online-Zugang:	Volltext
Beschreibung:	1 online resource (x, 734 pages).
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781622574612 1622574613

Internformat

MARC


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245	1	0	\|a Human neurophysiology : \|b development and repair of the human central nervous system / \|c Giselher Schalow.
260			\|a Hauppauge, NY : \|b Nova Science Publishers, Inc., \|c ©2013.
300			\|a 1 online resource (x, 734 pages).
336			\|a text \|b txt \|2 rdacontent
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490	0		\|a Neuroanatomy research at the leading edge
504			\|a Includes bibliographical references and index.
505	0		\|a HUMAN NEUROPHYSIOLOGY; HUMAN NEUROPHYSIOLOGY ; Contents ; Preface ; Competitive Interaction between Two Kinds of Motoneurons for the Innervations of Two Types of Muscle Fibres during Development and Repair in Frog, Discussed with Respect to Axon Guidance and Endogenous Stem Cell Supported Structural Repair by Motor Learning in Human Cervical Spinal Cord Injury ; Learning in Human Cervical Spinal Cord Injury; Abstract ; Data Summary ; 1. Introduction ; 1. General Introduction ; 2. Specific Introduction ; 2. Methods ; 1. Intracellular Recording ; 2. Mechanical Recording.
505	8		\|a 3. Electron Microscopy 3. Results ; Identification and Some Properties of Twitch and Slow Muscle Fibres and Their Innervating Motoneurons ; 3.1. Electrophysiology ; 1. Muscle Fibres with and without Action Potentials ; 2. Twitch and Slow Muscle Fibres and Their Innervating Motor Axons during Development ; 3. AP Amplitude of Slow Muscle Fibres in Dependence on the Types of Motoneuron Innervation ; 4. Double Innervation of Twitch Muscle Fibres ; 3.2. Isometric Tension ; Conclusions from the Electrophysiological Results ; 3.3. Morphology (Primarily Electron Microscopy).
505	8		\|a 1. Four-Cell Communication to Derive Action Distances of Grows and Inhibition Factors for the Repair of the Injured Human CNS 2. Cross section of the Pyriformis Muscle ; 3. Twitch and Slow Muscle Fibres at the Tadpole Stage ; 4. Twitch Muscle Fibre Synapses in the Tadpole Stage; 5. Criteria to Identify the Synapses of Fast and Slowly Conducting Axons Innervating Slow Muscle Fibres ; 6. Slow Muscle Fibre Synapses in the Tadpole Stage of Development.
505	8		\|a 7. Slow Muscle Fibre Synapse Complexes in Small Frogs: Competition of Fast and Slowly Conducting Axons for Specific Target Selection to Build Up Adult Innervation Pattern 4. Discussion ; 1. Distances of Communication between Motor Axons and Muscle Fibres ; 2. Early Phase of Innervation of the Pyriformis Muscle ; 3. Neural Control without Neuromuscular Transmission ; 4. Localized Changes of Membrane Properties; 5. Competition of two Types of Motoneurons for the Innervation of Two Kinds of Target Cells; 6. Four-Cell Communication ; 7. Distance of Action of Growth and Inhibiting Factors in Frog.
505	8		\|a 8. Culture Experiments (In Vitro) Cannot Simulate In Vivo Experiments 9. Strong Similarity between Development and Repair in Frog, But Not in Humans ; 10. Establishment of Innervation Patterns ; 11. Reduction of Double Innervation ; 12. Principles of Axon Guidance during Development ; 13. Axon Guidance and Specific Neuromuscular Recognition in the Frog Experiments; 14. Modulation of Guidance Molecules and Receptors by Electromagnetic Fields Generated by Action Potentials ; 15. Factors Promoting Regeneration ; 5. Translation to Human Data.
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contents	HUMAN NEUROPHYSIOLOGY; HUMAN NEUROPHYSIOLOGY ; Contents ; Preface ; Competitive Interaction between Two Kinds of Motoneurons for the Innervations of Two Types of Muscle Fibres during Development and Repair in Frog, Discussed with Respect to Axon Guidance and Endogenous Stem Cell Supported Structural Repair by Motor Learning in Human Cervical Spinal Cord Injury ; Learning in Human Cervical Spinal Cord Injury; Abstract ; Data Summary ; 1. Introduction ; 1. General Introduction ; 2. Specific Introduction ; 2. Methods ; 1. Intracellular Recording ; 2. Mechanical Recording. 3. Electron Microscopy 3. Results ; Identification and Some Properties of Twitch and Slow Muscle Fibres and Their Innervating Motoneurons ; 3.1. Electrophysiology ; 1. Muscle Fibres with and without Action Potentials ; 2. Twitch and Slow Muscle Fibres and Their Innervating Motor Axons during Development ; 3. AP Amplitude of Slow Muscle Fibres in Dependence on the Types of Motoneuron Innervation ; 4. Double Innervation of Twitch Muscle Fibres ; 3.2. Isometric Tension ; Conclusions from the Electrophysiological Results ; 3.3. Morphology (Primarily Electron Microscopy). 1. Four-Cell Communication to Derive Action Distances of Grows and Inhibition Factors for the Repair of the Injured Human CNS 2. Cross section of the Pyriformis Muscle ; 3. Twitch and Slow Muscle Fibres at the Tadpole Stage ; 4. Twitch Muscle Fibre Synapses in the Tadpole Stage; 5. Criteria to Identify the Synapses of Fast and Slowly Conducting Axons Innervating Slow Muscle Fibres ; 6. Slow Muscle Fibre Synapses in the Tadpole Stage of Development. 7. Slow Muscle Fibre Synapse Complexes in Small Frogs: Competition of Fast and Slowly Conducting Axons for Specific Target Selection to Build Up Adult Innervation Pattern 4. Discussion ; 1. Distances of Communication between Motor Axons and Muscle Fibres ; 2. Early Phase of Innervation of the Pyriformis Muscle ; 3. Neural Control without Neuromuscular Transmission ; 4. Localized Changes of Membrane Properties; 5. Competition of two Types of Motoneurons for the Innervation of Two Kinds of Target Cells; 6. Four-Cell Communication ; 7. Distance of Action of Growth and Inhibiting Factors in Frog. 8. Culture Experiments (In Vitro) Cannot Simulate In Vivo Experiments 9. Strong Similarity between Development and Repair in Frog, But Not in Humans ; 10. Establishment of Innervation Patterns ; 11. Reduction of Double Innervation ; 12. Principles of Axon Guidance during Development ; 13. Axon Guidance and Specific Neuromuscular Recognition in the Frog Experiments; 14. Modulation of Guidance Molecules and Receptors by Electromagnetic Fields Generated by Action Potentials ; 15. Factors Promoting Regeneration ; 5. Translation to Human Data.
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series2	Neuroanatomy research at the leading edge
spelling	Schalow, Giselher. Human neurophysiology : development and repair of the human central nervous system / Giselher Schalow. Hauppauge, NY : Nova Science Publishers, Inc., ©2013. 1 online resource (x, 734 pages). text txt rdacontent computer c rdamedia online resource cr rdacarrier Neuroanatomy research at the leading edge Includes bibliographical references and index. HUMAN NEUROPHYSIOLOGY; HUMAN NEUROPHYSIOLOGY ; Contents ; Preface ; Competitive Interaction between Two Kinds of Motoneurons for the Innervations of Two Types of Muscle Fibres during Development and Repair in Frog, Discussed with Respect to Axon Guidance and Endogenous Stem Cell Supported Structural Repair by Motor Learning in Human Cervical Spinal Cord Injury ; Learning in Human Cervical Spinal Cord Injury; Abstract ; Data Summary ; 1. Introduction ; 1. General Introduction ; 2. Specific Introduction ; 2. Methods ; 1. Intracellular Recording ; 2. Mechanical Recording. 3. Electron Microscopy 3. Results ; Identification and Some Properties of Twitch and Slow Muscle Fibres and Their Innervating Motoneurons ; 3.1. Electrophysiology ; 1. Muscle Fibres with and without Action Potentials ; 2. Twitch and Slow Muscle Fibres and Their Innervating Motor Axons during Development ; 3. AP Amplitude of Slow Muscle Fibres in Dependence on the Types of Motoneuron Innervation ; 4. Double Innervation of Twitch Muscle Fibres ; 3.2. Isometric Tension ; Conclusions from the Electrophysiological Results ; 3.3. Morphology (Primarily Electron Microscopy). 1. Four-Cell Communication to Derive Action Distances of Grows and Inhibition Factors for the Repair of the Injured Human CNS 2. Cross section of the Pyriformis Muscle ; 3. Twitch and Slow Muscle Fibres at the Tadpole Stage ; 4. Twitch Muscle Fibre Synapses in the Tadpole Stage; 5. Criteria to Identify the Synapses of Fast and Slowly Conducting Axons Innervating Slow Muscle Fibres ; 6. Slow Muscle Fibre Synapses in the Tadpole Stage of Development. 7. Slow Muscle Fibre Synapse Complexes in Small Frogs: Competition of Fast and Slowly Conducting Axons for Specific Target Selection to Build Up Adult Innervation Pattern 4. Discussion ; 1. Distances of Communication between Motor Axons and Muscle Fibres ; 2. Early Phase of Innervation of the Pyriformis Muscle ; 3. Neural Control without Neuromuscular Transmission ; 4. Localized Changes of Membrane Properties; 5. Competition of two Types of Motoneurons for the Innervation of Two Kinds of Target Cells; 6. Four-Cell Communication ; 7. Distance of Action of Growth and Inhibiting Factors in Frog. 8. Culture Experiments (In Vitro) Cannot Simulate In Vivo Experiments 9. Strong Similarity between Development and Repair in Frog, But Not in Humans ; 10. Establishment of Innervation Patterns ; 11. Reduction of Double Innervation ; 12. Principles of Axon Guidance during Development ; 13. Axon Guidance and Specific Neuromuscular Recognition in the Frog Experiments; 14. Modulation of Guidance Molecules and Receptors by Electromagnetic Fields Generated by Action Potentials ; 15. Factors Promoting Regeneration ; 5. Translation to Human Data. Neurophysiology. http://id.loc.gov/authorities/subjects/sh85091159 Neurophysiology https://id.nlm.nih.gov/mesh/D009482 Neurophysiologie. MEDICAL Neuroscience. bisacsh PSYCHOLOGY Neuropsychology. bisacsh Neurophysiology fast Libros electronicos. has work: Human neurophysiology (Text) https://id.oclc.org/worldcat/entity/E39PCYF7Px4GKCmQr7kMKxwJMq https://id.oclc.org/worldcat/ontology/hasWork Print version: Schalow, Giselher. Human neurophysiology. Hauppauge, NY : Nova Science Publishers, Inc., ©2013 9781622574575 1622574575 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=610673 Volltext
spellingShingle	Schalow, Giselher Human neurophysiology : development and repair of the human central nervous system / HUMAN NEUROPHYSIOLOGY; HUMAN NEUROPHYSIOLOGY ; Contents ; Preface ; Competitive Interaction between Two Kinds of Motoneurons for the Innervations of Two Types of Muscle Fibres during Development and Repair in Frog, Discussed with Respect to Axon Guidance and Endogenous Stem Cell Supported Structural Repair by Motor Learning in Human Cervical Spinal Cord Injury ; Learning in Human Cervical Spinal Cord Injury; Abstract ; Data Summary ; 1. Introduction ; 1. General Introduction ; 2. Specific Introduction ; 2. Methods ; 1. Intracellular Recording ; 2. Mechanical Recording. 3. Electron Microscopy 3. Results ; Identification and Some Properties of Twitch and Slow Muscle Fibres and Their Innervating Motoneurons ; 3.1. Electrophysiology ; 1. Muscle Fibres with and without Action Potentials ; 2. Twitch and Slow Muscle Fibres and Their Innervating Motor Axons during Development ; 3. AP Amplitude of Slow Muscle Fibres in Dependence on the Types of Motoneuron Innervation ; 4. Double Innervation of Twitch Muscle Fibres ; 3.2. Isometric Tension ; Conclusions from the Electrophysiological Results ; 3.3. Morphology (Primarily Electron Microscopy). 1. Four-Cell Communication to Derive Action Distances of Grows and Inhibition Factors for the Repair of the Injured Human CNS 2. Cross section of the Pyriformis Muscle ; 3. Twitch and Slow Muscle Fibres at the Tadpole Stage ; 4. Twitch Muscle Fibre Synapses in the Tadpole Stage; 5. Criteria to Identify the Synapses of Fast and Slowly Conducting Axons Innervating Slow Muscle Fibres ; 6. Slow Muscle Fibre Synapses in the Tadpole Stage of Development. 7. Slow Muscle Fibre Synapse Complexes in Small Frogs: Competition of Fast and Slowly Conducting Axons for Specific Target Selection to Build Up Adult Innervation Pattern 4. Discussion ; 1. Distances of Communication between Motor Axons and Muscle Fibres ; 2. Early Phase of Innervation of the Pyriformis Muscle ; 3. Neural Control without Neuromuscular Transmission ; 4. Localized Changes of Membrane Properties; 5. Competition of two Types of Motoneurons for the Innervation of Two Kinds of Target Cells; 6. Four-Cell Communication ; 7. Distance of Action of Growth and Inhibiting Factors in Frog. 8. Culture Experiments (In Vitro) Cannot Simulate In Vivo Experiments 9. Strong Similarity between Development and Repair in Frog, But Not in Humans ; 10. Establishment of Innervation Patterns ; 11. Reduction of Double Innervation ; 12. Principles of Axon Guidance during Development ; 13. Axon Guidance and Specific Neuromuscular Recognition in the Frog Experiments; 14. Modulation of Guidance Molecules and Receptors by Electromagnetic Fields Generated by Action Potentials ; 15. Factors Promoting Regeneration ; 5. Translation to Human Data. Neurophysiology. http://id.loc.gov/authorities/subjects/sh85091159 Neurophysiology https://id.nlm.nih.gov/mesh/D009482 Neurophysiologie. MEDICAL Neuroscience. bisacsh PSYCHOLOGY Neuropsychology. bisacsh Neurophysiology fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85091159 https://id.nlm.nih.gov/mesh/D009482
title	Human neurophysiology : development and repair of the human central nervous system /
title_auth	Human neurophysiology : development and repair of the human central nervous system /
title_exact_search	Human neurophysiology : development and repair of the human central nervous system /
title_full	Human neurophysiology : development and repair of the human central nervous system / Giselher Schalow.
title_fullStr	Human neurophysiology : development and repair of the human central nervous system / Giselher Schalow.
title_full_unstemmed	Human neurophysiology : development and repair of the human central nervous system / Giselher Schalow.
title_short	Human neurophysiology :
title_sort	human neurophysiology development and repair of the human central nervous system
title_sub	development and repair of the human central nervous system /
topic	Neurophysiology. http://id.loc.gov/authorities/subjects/sh85091159 Neurophysiology https://id.nlm.nih.gov/mesh/D009482 Neurophysiologie. MEDICAL Neuroscience. bisacsh PSYCHOLOGY Neuropsychology. bisacsh Neurophysiology fast
topic_facet	Neurophysiology. Neurophysiology Neurophysiologie. MEDICAL Neuroscience. PSYCHOLOGY Neuropsychology. Libros electronicos.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=610673
work_keys_str_mv	AT schalowgiselher humanneurophysiologydevelopmentandrepairofthehumancentralnervoussystem

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