Biostatistics (2002), 3, 1, pp. 1–20 Printed in Great Britain Statistical analysis of temporal evolution in single-neuron firing rates ´ VALERIE VENTURA∗ , ROBERTO CARTA Department of Statistics, Carnegie Mellon University, Baker Hall 132, Pittsburgh PA 15213, USA ROBERT E. KASS Department of Statistics and the Center for the Neural Basis of Cognition, Carnegie Mellon University, Baker Hall 132, Pittsburgh PA 15213, USA SONYA N. GETTNER, CARL R. OLSON Center for the Neural Basis of Cognition, Carnegie Mellon University, Pittsburgh PA 15213, USA
[email protected] S UMMARY A fundamental methodology in neurophysiology involves recording the electrical signals associated with individual neurons within brains of awake behaving animals. Traditional statistical analyses have relied mainly on mean firing rates over some epoch (often several hundred milliseconds) that are compared across experimental conditions by analysis of variance. Often, however, the time course of the neuronal firing patterns is of interest, and a more refined procedure can produce substantial additional information. In this paper we compare neuronal firing in the supplementary eye field of a macaque monkey across two experimental conditions. We take the electrical discharges, or ‘spikes’, to be arrivals in a inhomogeneous Poisson process and then model the firing intensity function using both a simple parametric form and more flexible splines. Our main interest is in making inferences about certain characteristics of the intensity, including the timing of the maximal firing rate. We examine data from 84 neurons individually and also combine results into a hierarchical model. We use Bayesian estimation methods and frequentist significance tests based on a nonparametric bootstrap procedure. We are th