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Cephalopod NeurobiologyNeuroscience Studies in Squid, Octopus and Cuttlefish$
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N. Joan Abbott, Roddy Williamson, and Linda Maddock

Print publication date: 1995

Print ISBN-13: 9780198547907

Published to Oxford Scholarship Online: March 2012

DOI: 10.1093/acprof:oso/9780198547907.001.0001

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Cephalopod brains: promising preparations for brain physiology

Cephalopod brains: promising preparations for brain physiology

Chapter:
(p.399) 24 Cephalopod brains: promising preparations for brain physiology
Source:
Cephalopod Neurobiology
Author(s):

Bernd U. Budelmann

Theodore H. Bullock

Roddy Williamson

Publisher:
Oxford University Press
DOI:10.1093/acprof:oso/9780198547907.003.0278

The brains of cephalopods are the most sophisticated brains of all invertebrates, and their gross anatomy and neuronal pathways are well known. Much is also known in cephalopods about learning and memory functions. Yet physiological recordings from cephalopod brains are scanty. However, three preparations have been developed and are now available for experiments on cephalopod brain physiology: (i) a brain slice preparation that allows intracellular recordings from identified brain neurones, (ii) an intact animal preparation that permits multiple electrode recordings of spikes and compound field potentials from unanaesthetized and unrestrained cuttlefish, and (iii) mapping of metabolic brain activity with [14C]deoxyglucose. These preparations are complementary and allow a variety of physiological experiments to be done. With further improvements of the techniques and in combination with the morphological information that already exists on pathways in the cephalopod brain, these new preparations are promising tools for cephalopod brain physiology. They may even serve as supplementary or alternative invertebrate preparations for vertebrate research. These three preparations are complementary and allow a variety of physiological experiments to be done. This chapter briefly describes the preparations, and discusses the impact they may have on future research on cephalopod and vertebrate brain functions.

Keywords:   Cephalopod, [14C]deoxyglucose, brain neurons, cuttlefish, vertebrate research, neuronal pathway

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