Brain research
-
Intraplantar injection of dilute formalin evokes brief (Phase 1) and persistent (Phase 2) increases in primary afferent activity, pain behavior, and cardiovascular responses, and induces spinal cord Fos-like immunoreactivity (Fos-LI). Although previous studies demonstrated that the destruction of small diameter primary afferents with neonatal capsaicin treatment decrease formalin-evoked nociception, these studies only evaluated behavioral responses, and did not distinguish between Phase 1 and 2. To address these questions, we simultaneously evaluated formalin-evoked pain behavior (flinching of the afflicted paw), cardiovascular responses (heart rate and mean arterial pressure), and lumbar spinal cord Fos expression in control rats and in rats treated with capsaicin (100 mg/kg) one day postpartum. ⋯ Also, in capsaicin-treated rats, we counted 59% fewer Fos-labeled neurons in the spinal cord. These results indicate that capsaicin-sensitive afferents contribute to formalin-evoked behavioral and cardiovascular responses and to spinal cord neuronal responses. The differential effect of neonatal capsaicin on nociception during Phase 1 and Phase 2 suggests that sensitization mechanisms during Phase 1 do not contribute to the magnitude of nociceptive responses during Phase 2.
-
Global cerebral ischemia leads to selective neuronal damage in the CA1 sector of the hippocampus and in the dorsolateral striatum. In addition, it results in deficits in spatial learning and memory as shown by an increase in escape latency and swim distance during the escape trials and a reduction of time spent in the quadrant of the former platform position during the probe trial of the water maze. Flupirtine is a non-opioid, centrally acting analgesic which has been shown to be neuroprotective against N-methyl-D-aspartate (NMDA)-mediated toxicity in vitro. ⋯ Post-treatment with flupirtine had no effect on the deficits in spatial learning and memory induced by 4VO. Neuronal damage in the CA1 sector of the hippocampus and in the striatum produced by 4VO was significantly attenuated with pre-treatment of flupirtine whereas post-treatment did not affect this neuronal damage. The present data demonstrate that pre-treatment with flupirtine exerts a protective effect on hippocampal and striatal neuronal damage and on deficits in spatial learning induced by 4VO.
-
Experiments were done in the conscious and unrestrained rat to identify central structures activated by electrical stimulation of afferent renal nerves (ARN) using the immunohistochemical detection of Fos-like proteins. Fos-labelled neurons were found in a number of forebrain and brainstem structures bilaterally, but with a contralateral predominance. Additionally, Fos-labelled neurons were found in the lower thoracolumbar spinal cord predominantly ipsilateral to the side of ARN stimulation. ⋯ The final area observed to contain Fos-labelled neurons in the central nervous system was the thoracolumbar spinal cord (T9-L1) which contained cells in laminae I-V of the dorsal horn ipsilateral to side of stimulation and in the intermediolateral cell column at the same levels bilaterally, but with an ipsilateral predominance. Few, if any Fos-labelled neurons were observed in the same structures of control animals in which the ARN were stimulated, but the renal nerves proximal to the site of stimulation were transected, or in the sham operated animals. These data indicate that ARN information originating in renal receptors is conveyed to a number of central areas known to be involved in the regulation of body fluid balance and arterial pressure, and suggest that this afferent information is an important component of central mechanisms regulating these homeostatic functions.