Electrochimica Acta, Vol.53, No.23, 6690-6697, 2008
Probing the bioelectrochemistry of living cells
Recent times have seen a rapidly expanding interest in the study of both single cell behaviour and Populations of cells. This paper presents a concise review of current techniques employed for the transduction and processing of cellular signals. Among these. electrochemical methodology in the form of transistor and impedance methods has figured prominently. Indirectly connected to this approach has been the optical, light addressable potentiometric technique. In our research we are developing vibrational methods which are capable of examining Populations of neurons, smooth muscle and human red blood cells on a substrate in a label-free fashion. These are based on transverse acoustic wave methodology and Kelvin nanoprobe physics. With respect to the former, synchronous oscillations of frequency are detected for neurons which are altered by the introduction of certain drugs. The same technique can be used to monitor chemical perturbation of the structure of smooth muscle cells from rat aorta. The Kelvin nanoprobe possesses sub-micron resolution and has been Successfully employed in the characterization of both isolated, single neuron and red blood cells. Alterations in cell behaviour are reflected in apparent changes in work function, which in turn is associated with changes in Cellular potential and dielectric properties. (c) 2008 Elsevier Ltd. All rights reserved.
Keywords:bioelectrochemistry;cellular biosensors;acoustic and Kelvin fields;neural biosensors;cardiac cells;red blood cells