Elsevier, Pharmacology Biochemistry and Behavior, 2(46), p. 373-376
DOI: 10.1016/0091-3057(93)90366-2
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The possible influence of weaning on the development of different neural mechanisms involved in stress-induced antinociception (SIA) was studied. Male Wistar albino rats were used for studies on adult and pre- and postweanling rats of 20 and 25 days of age, respectively. Animals were stressed by warm-water (20C) swimming for 3-min periods. Antinociception was assessed by the tail electric stimulation test. The thresholds for the motor response (tail withdrawal) (TW), vocalization during stimulus (V), and vocalization after discharge (VAD) were recorded. These responses are considered to be integrated at spinal, medulla oblongata, and diencephalon-rhinencephalon levels, respectively. In 20-day-old neonates, swimming stress only induced significant increases in the VAD thresholds that were not significantly reversed by naloxone (NAL) (1 mg/kg). Twenty-five-day-old rats showed increased threshold for the three nociceptive responses after stress, the effects on TW and V being antagonized by NAL. Adult rats subjected to stress showed increased threshold for the three responses, an effect that was antagonized by NAL in all cases. These results suggest that the weaning period might be critical for the development of the mechanisms mediating SIA. Besides, a different involvement of opioid systems throughout development, particularly in relation to the affective/emotional component of pain, is also suggested.