Axon growth and regeneration : methods and protocols / edited by Andrew J. Murray.
Contributor(s): Murray, Andrew J [editor.]Material type: TextSeries: Methods in molecular biology (Clifton, N.J.): v. 1162.Publisher: New York, NY : Humana Press, 2014Description: 1 online resource (xi, 253 pages) : illustrations (some color)Content type: text Media type: computer Carrier type: online resourceISBN: 9781493907779; 1493907778; 149390776X; 9781493907762Subject(s): Axons -- Regeneration -- Laboratory manuals | Axons -- Growth -- Laboratory manuals | Axons -- physiology | Axons -- Growth | biomedische wetenschappen | biomedicine | neurowetenschap | neuroscience | neurobiologie | neurobiology | Medicine (General) | Geneeskunde (algemeen)Genre/Form: Laboratory Manual. | Electronic books. | Laboratory manuals. Additional physical formats: Print version:: Axon growth and regeneration.DDC classification: 612.8/1046 LOC classification: QP363Online resources: Click here to access online
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Online resource; title from PDF title page (SpringerLink, viewed June 6, 2014).
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.
Includes bibliographical references and index.
Axon Growth and Regeneration: Methods and Protocols brings together a diverse set of techniques for the study of the mechanisms underlying central nervous system axon growth, consequently providing a resource that will aid in the development of repair strategies. After an introductory section, this detailed volume continues with sections focusing on axon growth in vitro, providing a range of protocols that can be used to examine intracellular signalling pathways, axonal responses to extracellular factors, and methods for quantifying outgrowth.
The next section provides protocols for inducing experimental injury in vivo as well as some highly promising protocols for promoting regeneration, which segues into the final section highlighting a series of protocols that can be used to monitor the extent of axon regeneration in vivo, ranging from tract tracing to in vivo imaging and functional recovery.
As a book in the Methods in Molecular Biology series, chapters contain introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Practical and reliable, Axon Growth and Regeneration: Methods and Protocols aims to serve researchers studying axon regeneration with a significant set of diverse tools, vital for moving on to the next generation of exciting new discoveries in the field.