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Design and construction of a cost effective headstage for simultaneous neural stimulation and recording in the water maze

Prasad Shirvalkar, Matthew Shapiro

Abstract

Headstage preamplifiers and source followers are commonly used to study neural activity in behavioral neurophysiology experiments. Such headstages reduce the impedance seen by attached tether cables and serve to reduce noise caused by motion or capacitive artifacts along the cable. Available commercial products are often expensive, not easily customized, and not submersible. Here we describe a method to design and build a customized, integrated circuit headstage for simultaneous 4-channel neural recording and 2-channel simulation in awake, behaving animals. The headstage is designed using a free, commercially available CAD-type design package, and can be modified easily to accommodate different scales (e.g. to add channels). A customized printed circuit board is built using surface mount resistors, capacitors and operational amplifiers to construct the unity gain source follower circuit. The headstage is made water-proof with a combination of epoxy, parafilm and a synthetic rubber putty. We have successfully used this device to record local field potentials and stimulate different brain regions simultaneously via independent channels in rats swimming in a water maze. The total cost is < $30/unit and can be manufactured readily.

Abstract

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