%0 Journal Article
%T Examining the Effects of Common Laboratory Methods on the Sensitivity of Carbon Fiber Electrodes in Amperometric Recordings of Dopamine
%A William T. Prater
%A Malli Swamy
%A Megan D. Beane
%A Deranda B. Lester
%J Journal of Behavioral and Brain Science
%P 117-125
%@ 2160-5874
%D 2018
%I Scientific Research Publishing
%R 10.4236/jbbs.2018.83007
%X Carbon fiber microelectrodes (CFEs) are useful when
combined with electrochemical techniques for measuring changes in
neurotransmitter concentrations. We addressed conflicting details regarding the
use of CFEs. Experimental groups consisted of CFEs at different ages (1 week, 1
month, or 2 months), cleaned in solvents (isopropanol or xylene), and exposed
to <i>in vitro</i> use (flow cell
calibrations) or <i>in vivo</i> use (in
brain tissue). In order to determine if any of these factors affect CFE
sensitivity, the present study utilized fixed potential amperometry and a flow
injection system to calibrate CFEs for the measurement of dopamine. The
sensitivity index (nA/¦ÌM per 100 ¦Ìm of exposed carbon fiber) was not affected
by the age of CFEs or pre-cleaning with xylene or isopropanol. CFE sensitivity
of the <i>in vitro</i> exposure group also
did not differ from untreated CFEs, indicating the calibration process did not
alter sensitivity. However, <i>in vivo</i> use in brain tissue did reduce sensitivity. This effect was negated and
sensitivity restored by cleaning CFEs in isopropanol or xylene following <i>in vivo</i> brain recordings. Given that
variations in CFE sensitivity can skew results, our findings can help
standardize CFE use and explain discrepancies between researchers.
%K Fixed Potential Amperometry
%K Carbon Fiber Electrode
%K Dopamine
%K Flow Injection System
%K Electrode Calibration
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=82847