Item Details

Axon Growth and Regeneration [electronic resource]: Methods and Protocols

edited by Andrew J. Murray, Department of Biochemistry and Molecular Biophysics, Columbia University, New York, NY, USA
Format
EBook; Book; Online
Published
New York : Humana Press, [2014]
Language
English
Series
Methods in Molecular Biology
Springer Protocols
Methods in Molecular Biology (Clifton, N.J.)
Springer Protocols (Series)
ISBN
9781493907762, 149390776X, 9781493907779, 1493907778
Contents
  • Axon Regeneration: What Needs to Be Overcome?
  • Analysis of Calcium Signals in Steering Neuronal Growth Cones In Vitro
  • The Use of Fluorescence Resonance Energy Transfer (FRET) to Measure Axon Growth and Guidance Related Intracellular Signaling in Live Dorsal Root Ganglia Neuronal Growth Cones
  • Neurite Outgrowth and Growth Cone Collapse Assays to Assess Neuronal Responses to Extracellular Cues
  • Quantitative Assessment of Neurite Outgrowth in Mouse Retinal Explants
  • Growth Cone Collapse Assay
  • Axon Length Quantification Microfluidic Culture Platform for Growth and Regeneration Study
  • Organotypic Slice Co-Culture Systems to Study Axon Regeneration in the Dopaminergic System Ex Vivo
  • Monitoring Neuron and Astrocyte Interactions with a 3D Cell Culture System
  • Targeting Inhibitory Chondroitin Sulphate Proteoglycans to Promote Plasticity After Injury
  • Polymeric Biomaterials for Nerve Regeneration: Fabrication and Implantation of a Biodegradable Nerve Guide
  • A Highly Reproducible Mouse Model of Compression Spinal Cord Injury
  • Using Templated Agarose Scaffolds to Promote Axon Regeneration Through Sites of Spinal Cord Injury
  • In Vivo Electroporation of Adult Mouse Sensory Neurons for Studying Peripheral Axon Regeneration
  • Assessing Motor Outcome and Functional Recovery Following Nerve Injury
  • The Use of an Adeno-Associated Viral Vector for Efficient Bicistronic Expression of Two Genes in the Central Nervous System
  • Application of Tissue Clearing and Light Sheet Fluorescence Microscopy to Assess Optic Nerve Regeneration in Unsectioned Tissues
  • Time-Lapse In Vivo Imaging of Dorsal Root Nerve Regeneration in Mice
  • Using Manganese-Enhanced MRI to Assess Optic Nerve Regeneration.
Description
Mode of access: World wide Web.
Notes
Includes bibliographical references and index.
Series Statement
Methods in molecular biology, 1064-3745 ; 1162
Springer protocols, 1949-2448
Methods in molecular biology (Clifton, N.J.) ; v. 1162, 1064-3745
Springer protocols (Series) 1949-2448
Logo for Copyright Not EvaluatedCopyright Not Evaluated
Technical Details
  • Access in Virgo Classic

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    a| Axon Regeneration: What Needs to Be Overcome? -- Analysis of Calcium Signals in Steering Neuronal Growth Cones In Vitro -- The Use of Fluorescence Resonance Energy Transfer (FRET) to Measure Axon Growth and Guidance Related Intracellular Signaling in Live Dorsal Root Ganglia Neuronal Growth Cones -- Neurite Outgrowth and Growth Cone Collapse Assays to Assess Neuronal Responses to Extracellular Cues -- Quantitative Assessment of Neurite Outgrowth in Mouse Retinal Explants -- Growth Cone Collapse Assay -- Axon Length Quantification Microfluidic Culture Platform for Growth and Regeneration Study -- Organotypic Slice Co-Culture Systems to Study Axon Regeneration in the Dopaminergic System Ex Vivo -- Monitoring Neuron and Astrocyte Interactions with a 3D Cell Culture System -- Targeting Inhibitory Chondroitin Sulphate Proteoglycans to Promote Plasticity After Injury -- Polymeric Biomaterials for Nerve Regeneration: Fabrication and Implantation of a Biodegradable Nerve Guide -- A Highly Reproducible Mouse Model of Compression Spinal Cord Injury -- Using Templated Agarose Scaffolds to Promote Axon Regeneration Through Sites of Spinal Cord Injury -- In Vivo Electroporation of Adult Mouse Sensory Neurons for Studying Peripheral Axon Regeneration -- Assessing Motor Outcome and Functional Recovery Following Nerve Injury -- The Use of an Adeno-Associated Viral Vector for Efficient Bicistronic Expression of Two Genes in the Central Nervous System -- Application of Tissue Clearing and Light Sheet Fluorescence Microscopy to Assess Optic Nerve Regeneration in Unsectioned Tissues -- Time-Lapse In Vivo Imaging of Dorsal Root Nerve Regeneration in Mice -- Using Manganese-Enhanced MRI to Assess Optic Nerve Regeneration.
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