Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca2+ -Signaling in Rodents In Vivo

Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Education › peer-review

Standard

Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo. / Mathiesen, Claus; Thomsen, Kirsten; Lauritzen, Martin.

Brain Energy Metabolism. ed. / Johannes Hirrlinger; Helle S. Waagepetersen. 2014. p. 243-264.

Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Education › peer-review

Harvard

Mathiesen, C, Thomsen, K & Lauritzen, M 2014, Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo. in J Hirrlinger & HS Waagepetersen (eds), Brain Energy Metabolism. pp. 243-264.

APA

Mathiesen, C., Thomsen, K., & Lauritzen, M. (2014). Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo. In J. Hirrlinger, & H. S. Waagepetersen (Eds.), Brain Energy Metabolism (pp. 243-264)

Vancouver

Mathiesen C, Thomsen K, Lauritzen M. Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo. In Hirrlinger J, Waagepetersen HS, editors, Brain Energy Metabolism. 2014. p. 243-264

Author

Mathiesen, Claus ; Thomsen, Kirsten ; Lauritzen, Martin. / Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca²⁺ -Signaling in Rodents In Vivo. Brain Energy Metabolism. editor / Johannes Hirrlinger ; Helle S. Waagepetersen. 2014. pp. 243-264

Bibtex

@inbook{6ec2303706aa41348bdd4c37d520c721,

title = "Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca2+ -Signaling in Rodents In Vivo",

abstract = "In order to assess perfusion and metabolic responses in relation to neural function we need to know the cellular signaling network, which types of neurons and astrocytes are involved, and the timing of their activation. We here present the basic electrophysiological indicators of neuronal function, short description of the methods commonly used for recording of electrophysiological signals, examples of data analysis and limitations of the methods. This chapter describes the origin of the extracellularly recorded electrical signal, with special regard to the EEG, local field potentials, and spikes in rodent preparation. We also describe methods for recording of cerebral blood flow (CBF), tissue partial pressure of oxygen (tpO2), and cytosolic calcium transients. We finally give examples where electrophysiology, blood flow, metabolism, and calcium transients have been studied together. ",

author = "Claus Mathiesen and Kirsten Thomsen and Martin Lauritzen",

year = "2014",

language = "Dansk",

isbn = "978-1-4939-1058-8",

pages = "243--264",

editor = "Johannes Hirrlinger and Waagepetersen, {Helle S.}",

booktitle = "Brain Energy Metabolism",

}

RIS

TY - CHAP

T1 - Integrated Measurements of Electrical Activity, Oxygen Tension, Blood Flow, and Ca2+ -Signaling in Rodents In Vivo

AU - Mathiesen, Claus

AU - Thomsen, Kirsten

AU - Lauritzen, Martin

PY - 2014

Y1 - 2014

N2 - In order to assess perfusion and metabolic responses in relation to neural function we need to know the cellular signaling network, which types of neurons and astrocytes are involved, and the timing of their activation. We here present the basic electrophysiological indicators of neuronal function, short description of the methods commonly used for recording of electrophysiological signals, examples of data analysis and limitations of the methods. This chapter describes the origin of the extracellularly recorded electrical signal, with special regard to the EEG, local field potentials, and spikes in rodent preparation. We also describe methods for recording of cerebral blood flow (CBF), tissue partial pressure of oxygen (tpO2), and cytosolic calcium transients. We finally give examples where electrophysiology, blood flow, metabolism, and calcium transients have been studied together.

AB - In order to assess perfusion and metabolic responses in relation to neural function we need to know the cellular signaling network, which types of neurons and astrocytes are involved, and the timing of their activation. We here present the basic electrophysiological indicators of neuronal function, short description of the methods commonly used for recording of electrophysiological signals, examples of data analysis and limitations of the methods. This chapter describes the origin of the extracellularly recorded electrical signal, with special regard to the EEG, local field potentials, and spikes in rodent preparation. We also describe methods for recording of cerebral blood flow (CBF), tissue partial pressure of oxygen (tpO2), and cytosolic calcium transients. We finally give examples where electrophysiology, blood flow, metabolism, and calcium transients have been studied together.

M3 - Bidrag til bog/antologi

SN - 978-1-4939-1058-8

SP - 243

EP - 264

BT - Brain Energy Metabolism

A2 - Hirrlinger, Johannes

A2 - Waagepetersen, Helle S.

ER -

ID: 43845721

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