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Abstract
A fundamental and recurrent question in systems neuroscience is that of assessing what variables are encoded by a given population of neurons. Such assessments are often challenging because neurons in one brain area may encode multiple variables, and because neuronal representations might be categorical or non-categorical. These issues are particularly pertinent to the representation of decision variables in the orbitofrontal cortex (OFC)–an area implicated in economic choices. Here we present a new algorithm to assess whether a neuronal representation is categorical or non-categorical, and to identify the encoded variables if the representation is indeed categorical. The algorithm is based on two clustering procedures, one variable-independent and the other variable-based. The two partitions are then compared through adjusted mutual information. The present algorithm overcomes limitations of previous approaches and is widely applicable. We tested the algorithm on synthetic data and then used it to examine neuronal data recorded in the primate OFC during economic decisions. Confirming previous assessments, we found the neuronal representation in OFC to be categorical in nature. We also found that neurons in this area encode the value of individual offers, the binary choice outcome and the chosen value. In other words, during economic choice, neurons in the primate OFC encode decision variables in a categorical way.
Highlights
A recurrent question in systems neuroscience is that of understanding what variables are encoded by a given population of neurons
The first section describes the juice choice experiments conducted in monkeys, the neuronal data set collected in orbitofrontal cortex (OFC), and previous analyses of these data
We presented a new algorithm to assess whether a neuronal representation is categorical or category-free, and to identify the encoded variables if the representation is categorical
Summary
A recurrent question in systems neuroscience is that of understanding what variables are encoded by a given population of neurons. If firing rates vary systematically with a variable, it can be said that neurons encode or represent that variable. Building on this concept, countless studies shed light on the neural substrates of sensory, associative and motor processes. Different neurons, even in close proximity to one another, may encode different variables, and the number of variables encoded by a neuronal population is generally not known This situation may arise in any brain area but is most typical for prefrontal regions. The encoding scheme adopted by any particular population is not known a priori
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