Microfluidic and compartmentalized platforms for neurobiological research / edited by Emilia Biffi.

Contributor(s): Biffi, Emilia [editor.]
Material type: TextTextSeries: Neuromethods: 103.Publisher: New York, NY : Humana Press, 2015Description: 1 online resource (xiii, 248 pages) : illustrations (some color)Content type: text Media type: computer Carrier type: online resourceISBN: 9781493925100; 1493925105; 1493925091; 9781493925094Subject(s): Microfluidic devices -- Laboratory manuals | Neurobiology -- Laboratory manuals | Nervous System | Neurobiology -- methods | Microfluidics -- methods.0 https://id.nlm.nih.gov/mesh/D044085Q000379 | Microfluidic devices | Neurobiology | biomedische wetenschappen | biomedicine | neurowetenschap | neuroscience | neurobiologie | neurobiology | Medicine (General) | Geneeskunde (algemeen)Genre/Form: Electronic books. | Laboratory manuals. | Laboratory manuals. DDC classification: 620.1/06 LOC classification: TJ853.4.M53Online resources: Click here to access online
Contents:
Fabrication of microfluidic platforms with pneumatically/hydraulically controlled PDMS valves and their use in neurobiological research / Bryson M. Brewer, Donna J. Webb, and Deyu Li -- Reliable reversible bonding method for perfused microfluidic devices / Paola Occhetta, Emilia Biffi, and Marco Rasponi -- Bridging two cultures : minimalistic networks prepared by microfluidic arraying, and open access compartments for electrophysiology / Jonathan West ... [et al.] -- Asymmetric genetic manipulation and patch clamp recording of neurons in a microfluidic chip / Prasanna Sakha ... [et al.] -- Development of a compartmentalized biochip for axonal isolation and neuronal-circuit formation at the single-cell level / Ting Huang ... [et al.] -- Campenot cultures and microfluidics provide complementary platforms for spatial study of dorsal root ganglia neurons / Sara J. Fenstermacher, Maria F. Pazyra-Murphy, and Rosalind A. Segal -- Development of microfluidic devices for the manipulation of neuronal synapses / Anika Jain and Martha U. Gillette -- Use of a 3-compartment microfluidic device to study activity dependent synaptic competition / Ainsley Coquinco and Max Cynader -- Multi-compartment neuron-glia coculture microsystem / Jaewon Park ... [et al.] -- Compartmentalized microfluidic platforms as tool of choice to study the interaction between neurons and osteoblasts / Estrela Neto ... [et al.] -- Novel in vitro primary culture model of the lower motor neuron-neuromuscular junction circuit / Katherine A. Southam ... [et al.] -- Compartmentalized microfluidics for in vitro Alzheimer's disease studies / Yufei Ren, Anja Kunze, and Philippe Renaud -- Selective biochemical manipulation of twin neuronal networks on microelectrode arrays / Giulia Regalia ... [et al.] -- Compartmentalized synapse microarray for high- throughput screening / Amol D. Jadhav ... [et al.].
Summary: This volume presents cutting-edge techniques to design, fabricate and use compartmentalized microfluidic devices. Chapters encompass axon guidance and manipulation, compartmentalized devices for synapse manipulation, cell populations interaction either in physiological or pathological condition, and compartmentalized devices for pharmacological research and drug discovery. Written in the popular{OCLCbr#A0}Neuromethods{OCLCbr#A0}series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your own laboratory. {OCLCbr#A0}Authoritative and practical,{OCLCbr#A0}Microfluidic and Compartmentalized Platforms for Neurobiological Research{OCLCbr#A0}provides practical skills needed to fabricate, use microfluidics, and compartmentalized platforms with neuronal cell cultures as well as the strengths of these exciting devices and their precious contribution in the field of Neuroscience.
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Includes index.

Fabrication of microfluidic platforms with pneumatically/hydraulically controlled PDMS valves and their use in neurobiological research / Bryson M. Brewer, Donna J. Webb, and Deyu Li -- Reliable reversible bonding method for perfused microfluidic devices / Paola Occhetta, Emilia Biffi, and Marco Rasponi -- Bridging two cultures : minimalistic networks prepared by microfluidic arraying, and open access compartments for electrophysiology / Jonathan West ... [et al.] -- Asymmetric genetic manipulation and patch clamp recording of neurons in a microfluidic chip / Prasanna Sakha ... [et al.] -- Development of a compartmentalized biochip for axonal isolation and neuronal-circuit formation at the single-cell level / Ting Huang ... [et al.] -- Campenot cultures and microfluidics provide complementary platforms for spatial study of dorsal root ganglia neurons / Sara J. Fenstermacher, Maria F. Pazyra-Murphy, and Rosalind A. Segal -- Development of microfluidic devices for the manipulation of neuronal synapses / Anika Jain and Martha U. Gillette -- Use of a 3-compartment microfluidic device to study activity dependent synaptic competition / Ainsley Coquinco and Max Cynader -- Multi-compartment neuron-glia coculture microsystem / Jaewon Park ... [et al.] -- Compartmentalized microfluidic platforms as tool of choice to study the interaction between neurons and osteoblasts / Estrela Neto ... [et al.] -- Novel in vitro primary culture model of the lower motor neuron-neuromuscular junction circuit / Katherine A. Southam ... [et al.] -- Compartmentalized microfluidics for in vitro Alzheimer's disease studies / Yufei Ren, Anja Kunze, and Philippe Renaud -- Selective biochemical manipulation of twin neuronal networks on microelectrode arrays / Giulia Regalia ... [et al.] -- Compartmentalized synapse microarray for high- throughput screening / Amol D. Jadhav ... [et al.].

Online resource; title from PDF title page (SpringerLink, viewed March 20, 2015).

This volume presents cutting-edge techniques to design, fabricate and use compartmentalized microfluidic devices. Chapters encompass axon guidance and manipulation, compartmentalized devices for synapse manipulation, cell populations interaction either in physiological or pathological condition, and compartmentalized devices for pharmacological research and drug discovery. Written in the popular{OCLCbr#A0}Neuromethods{OCLCbr#A0}series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your own laboratory. {OCLCbr#A0}Authoritative and practical,{OCLCbr#A0}Microfluidic and Compartmentalized Platforms for Neurobiological Research{OCLCbr#A0}provides practical skills needed to fabricate, use microfluidics, and compartmentalized platforms with neuronal cell cultures as well as the strengths of these exciting devices and their precious contribution in the field of Neuroscience.

Includes bibliographical references and index.

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