While still at the University of Utah, Perl and Burgess Christensen, then a post-doctoral fellow, determined that the
marginal zone (lamina I) of the
dorsal horn of the spinal cord contained neurons that were responsive to different kinds of noxious and innocuous stimuli from the periphery. Experiments with Takao Kumazawa in the late 1960s into the mid-1970s confirmed in monkey observations about unmyelinated primary afferent fibers and their central projections that had earlier been seen in cats. These studies made clear that areas of the superficial dorsal horn served as integration sites for nociceptive and non-nociceptive information received from the periphery. Perl continued this work after he left the University of Utah to become chair of the Department of Physiology at the University of North Carolina in 1971. In the mid-1970s Alan R. Light, Miklós Réthelyi, and Daniel Trevino joined Perl's laboratory to further map the central terminations of thinly-myelinated primary afferent neurons, to study their
synaptic morphologies, and to characterize neurons in the dorsal horn of the spinal cord that were responsive to activity of these fibers. In a methodological tour de force, Perl worked with Yasuo Sugiura and Chong Lee in the mid-1980s to physiologically characterize and label (with
Phaseolus vulgaris leucoagglutinin) unmyelinated C-fibers. These studies revealed for the first time a functional organization to the central termination pattern of unmyelinated afferents with different response profiles to skin stimulation. Experiments performed by Christopher Honda, Siegfried Mense, and Perl in the early 1980s demonstrated that neurons located in specific areas of the cat
thalamus were responsive to noxious stimulation of the skin of the hindlimb. As a whole, studies in the Perl laboratory in the 1970s and 1980s helped clarify a specific pattern of
somatosensory (principally nociceptive) input to the spinal cord and brain and established the foundation for a circuitry devoted to the processing of noxious stimuli from the periphery. The last decades of work in the Perl laboratory were principally devoted to characterizing the functional organization of the
superficial dorsal horn of the spinal cord and understanding how spinal neurons located within these regions interact with one another to process signals arising from the periphery. These experiments involved
recording from neurons responsive to various types of primary afferent input and correlating these functional signatures with morphological features of the spinal neurons in question. This work in part resulted in the systematic categorization by Timothy Grudt and Perl of functionally characterized spinal neurons based on their morphological features and location within the dorsal horn. Experiments with Yan Lu and Jihong Zheng were aimed at a better understanding of connections between spinal neurons and how afferent input from the periphery is modulated by these connections. Perl's experiments with Adam Hantman focused on a unique, homogeneous population of
Green fluorescent protein (GFP)-expressing neurons in the spinal
substantia gelatinosa of a
transgenic mouse. Hantman and Perl physiologically characterized these neurons, showing them to be inhibitory in nature and responsive only to unmyelinated afferents with a
conduction velocity at the high end of the
C-fiber range; they also demonstrated the highly specific connections of these GFP-expressing neurons with other types of neurons in the substantia gelatinosa. == Founding of the Society for Neuroscience ==