Prolonged Incubation of Acute Neuronal Tissue for Electrophysiology and Calcium-imaging

Acute neuronal tissue preparations, brain slices and retinal wholemount, can usually only be maintained for 6 - 8 h following dissection. This limits the experimental time, and increases the number of animals that are utilized per study. This limitation specifically impacts protocols such as calcium...

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Veröffentlicht in:	Journal of Visualized Experiments 2017-02 (120)
Hauptverfasser:	Cameron, Morven A., Kekesi, Orsolya, Morley, John W., Bellot-Saez, Alba, Kueh, Sindy, Breen, Paul, van Schaik, André, Tapson, Jonathan, Buskila, Yossi
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Sprache:	eng
Schlagworte:	Animals Brain - physiology Calcium - metabolism Calcium Signaling Culture Media Electrophysiology - methods Mice, Inbred C3H Mice, Inbred C57BL Nerve Tissue - physiology Neurons - physiology Neuroscience Tissue Preservation - methods
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container_issue	120
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container_title	Journal of Visualized Experiments
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creator	Cameron, Morven A. Kekesi, Orsolya Morley, John W. Bellot-Saez, Alba Kueh, Sindy Breen, Paul van Schaik, André Tapson, Jonathan Buskila, Yossi
description	Acute neuronal tissue preparations, brain slices and retinal wholemount, can usually only be maintained for 6 - 8 h following dissection. This limits the experimental time, and increases the number of animals that are utilized per study. This limitation specifically impacts protocols such as calcium imaging that require prolonged pre-incubation with bath-applied dyes. Exponential bacterial growth within 3 - 4 h after slicing is tightly correlated with a decrease in tissue health. This study describes a method for limiting the proliferation of bacteria in acute preparations to maintain viable neuronal tissue for prolonged periods of time (>24 h) without the need for antibiotics, sterile procedures, or tissue culture media containing growth factors. By cycling the extracellular fluid through UV irradiation and keeping the tissue in a custom holding chamber at 15 - 16 °C, the tissue shows no difference in electrophysiological properties, or calcium signaling through intracellular calcium dyes at >24 h postdissection. These methods will not only extend experimental time for those using acute neuronal tissue, but will reduce the number of animals required to complete experimental goals, and will set a gold standard for acute neuronal tissue incubation.
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subjects	Animals Brain - physiology Calcium - metabolism Calcium Signaling Culture Media Electrophysiology - methods Mice, Inbred C3H Mice, Inbred C57BL Nerve Tissue - physiology Neurons - physiology Neuroscience Tissue Preservation - methods
title	Prolonged Incubation of Acute Neuronal Tissue for Electrophysiology and Calcium-imaging
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