Spatial organization of activity evoked by focal stimulation within the rat spinal dorsal horn as visualized by voltage-sensitive dye imaging in the slice.

In a prior study using laser scanning photostimulation, we found a pronounced cell type-specific mediolateral asymmetry in the local synaptic connectivity in the superficial laminae of the spinal dorsal horn (Kosugi M, Kato G, Lukashov S, Pendse G, Puskar Z, Kozsurek M, Strassman AM. J Physiol 591: 1935-1949, 2013). To obtain information on dorsal horn organization that might complement findings from microelectrode studies, voltage-sensitive dye imaging was used in the present study to examine patterns of activity evoked by focal electrical stimulation, in the presence and absence of synaptic blocking agents, at different positions in transverse, parasagittal, and horizontal slices of the dorsal horn of 2- to 3-wk -old male rats. A pronounced difference in responsiveness was found between medial and lateral dorsal horn, in that medial sites in the superficial dorsal horn showed much larger synaptic responses to focal stimulation than lateral sites. This difference appeared to be a result of a difference in the intrinsic elements of the dorsal horn, rather than a difference in the inputs from the white matter, because the stimulus intensities were subthreshold for evoking synaptic responses from stimulation at sites in the white matter, although it is also possible that the greater responsiveness is due, at least in part, to activation of Aβ primary afferent fibers that pass through the medial dorsal horn. The results raise the possibility of differences between medial and dorsal horn that need to be taken into account in the interpretation of studies of dorsal horn organization.NEW & NOTEWORTHY We used voltage-sensitive dye imaging to obtain information on spatial aspects of dorsal horn organization that are difficult to examine with single-cell approaches because of the limitations of microelectrode sampling. The most noteworthy finding was a previously unreported, extreme difference between medial and lateral dorsal horn in responsiveness to focal stimulation that appears to result, at least in part, from a greater degree of excitability or local connectivity in medial dorsal horn.