Evidence of a Specific Spinal Pathway for the Sense of Warmth in Humans

doi:10.1152/jn.00393.2002

Evidence of a Specific Spinal Pathway for the Sense of Warmth in Humans

G.D. Iannetti,¹ A. Truini,¹ A. Romaniello,¹ F. Galeotti,¹ C. Rizzo,² M. Manfredi,³ and G. Cruccu¹^,³

¹Dipartimento Scienze Neurologiche, Università "La Sapienza," 00185 Rome; ²Micromed, 31021 Treviso; and ³NeuroMed Institute, 86077 Pozzilli, Italy

Iannetti, G.D., A. Truini, A. Romaniello, F. Galeotti, C. Rizzo, M. Manfredi, and G. Cruccu. Evidence of a Specific Spinal Pathway for the Sense of Warmth in Humans. J. Neurophysiol. 89: 562-570, 2003. While research on human sensory processing shows that warm input is conveyed from the periphery by specific, unmyelinatedprimary sensory neurons, its pathways in the central nervous system(CNS) remain unclear. To gain physiological information on thespinal pathways that convey warmth or nociceptive sensations,in 15 healthy subjects, we studied the cerebral evoked responsesand reaction times in response to laser stimuli selectively excitingA $delta$ nociceptors or C warmth receptors at different levels alongthe spine. To minimize the conduction distance along the primarysensory neuron, we directed CO₂-laser pulses to the skin overlyingthe vertebral spinous processes. Using brain source analysis ofthe evoked responses with high-resolution electroencephalographyand a realistic model of the head based on individual magneticresonance imaging scans, we also studied the cortical areas involvedin the cerebral processing of warm and nociceptive inputs. Theactivation of C warmth receptors evoked cerebral potentials witha main positive component peaking at 470-540 ms, i.e., a latencyclearly longer than that of the corresponding wave yielded byA $delta$ nociceptive input (290-320 ms). Spinal neurons activated bythe warm input had a slower conduction velocity (2.5 m/s) thanthe nociceptive spinal neurons (11.9 m/s). Brain source analysisof the cerebral responses evoked by the A $delta$ input yielded a verystrong fit for one single generator in the mid portion of thecingulate gyrus; the warmth-related responses were best explainedby three generators, one within the cingulate and two in the rightand left opercular-insular cortices. Our results support the existenceof slow-conducting second-order neurons specific for the senseofwarmth.

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