Human and animals cannot survive without tactile sense and the systems of nociception, However, animals’ central nervous system is composed of thousands of collaborative neurons, and how the brain processes these two signals is not yet fully understood. Then our laboratory has been devoted to the research of somatosensory neurons for many years. Ketamine is the most frequently misused drug among the adolescent group. Ketamine also functions as dissociative anesthetics, the medicine for the animal model of schizophrenia, and the antidepressant as a short-term drug treatment. However, most of the previous studies about ketamine focused on the effects of an intravenous injection of ketamine, but these studies could not determine whether the neuropathway was fully inflicted by ketamine, or simply being inflicted by the areas along the neuropathway. The two-barrel microelectrodes, developed by our laboratory, can microinject into the target area, and this method not only solves the above concerns, but also explores the effects of ketamine on the thalamus tactile neurons. In addition to comparing with the previous studies, the aim of this study was to explore the effects of ketamine on the cortical tactile neurons and to analyze how different dose of ketamine could cause the variations of neuronal activities even after repeated injections of ketamine after 30 minutes’ recovery time. Moreover, in order to ensure the accuracy of the response curve, this study used the correlation coefficient to find an appropriate sampling interval time. This experiment showed, first of all, the control group was injected with saline, which proved that there was no correlation between the variations of neuronal activities and the injection operation in terms of time. Second, the variations of neuronal activities were mainly affected by dose, rather than volume and concentration. The three doses of ketamine all reduced the neuron activity to below 40%, and the inhibition of cortex neurons was similar, and the extent of inhibition of ketamine injection after recovery was also the same. Finally, compared with the study of thalamic neurons, cortical neurons were inhibited significantly using the same dose of ketamine.