Self-injury behaviour induced by intraplantar carrageenan infiltration: a model of tonic nociception.

The research of chronic nociception using whole animals is an approach plagued with methodological drawbacks within the ethical realm, as well as difficulties in the analysis and interpretation of time dependent results. On this work, we propose an experimental model that displays tonic nociception measured as a quantifiable self-injury behaviour (SIB) produced by the inflammation of soft tissue located in the paw of the rat elicited by carrageenan 1% (CAR) infiltration. We established five categories or levels for the analysis of the self-injury behaviour reflecting the intensity of rat nociception triggered by CAR infiltration. In addition, we determine that this model does not induce inescapable pain by noticing no significant differences when measuring weight gain and sexual behaviour. We propose this nociception model as physiologically and ethically appropriate for the study of long-lasting nociception.

Lesion and electrical stimulation of the ventral tegmental area modify persistent nociceptive behavior in the rat.

The ventral tegmental area (VTA) has been traditionally related with the control of motor responses. However, some studies show that this area is also involved in the processing of nociceptive information. It has been reported that this nucleus participates in the dissociative analgesia phenomenon. In the few works where electrical stimulation and lesion of the VTA have been performed, evaluated with persistent or chronic pain related behaviors, contradictory results have been obtained. Thus, a more detailed analysis of the role of the VTA in persistent pain is needed. Two series of experiments were performed: lesions of this nucleus were done with radiofrequency, (bilaterally at two points per side using a temperature range from 50 to 80 degrees C), and the VTA was electrically stimulated (10 min daily over 5 days, 2 ms rectangular pulses at 100 Hz during 1 s every 5 s) using two different schemes:10 min before the induction of the nociceptive stimulus and 90 min after the induction of the nociceptive stimulus. The latter allowed us to distinguish if the VTA electrical stimulation had a distinctive antinociceptive effect when applied before or after the induction of the nociceptive stimulus on a persistent pain related behavioral response in the rat, the self injury behavior (SIB). Our results showed that VTA lesions enhanced the occurrence of SIB; while activation of this same nucleus by electrical stimulation after the nociceptive stimulus, but not before, facilitates the analgesic process, expressed as a 1 day delay in SIB onset. These results indicate that the VTA is a brain structure that plays a key role in the processing and modulation of persistent pain information. Data are discussed in terms of the relationship of the VTA with the affective component of pain.

Effects of REM sleep deprivation on the d-amphetamine-induced self-mutilating behavior.

It is well known that self-mutilating behavior (SMB) is developed in rats and humans during the daily treatment with d-amphetamine. Accordingly, in this work it was found that the daily treatment with 7.5 mg/kg d-amphetamine induced in rats a progressive appearance of SMB. Lower doses (5.0 mg/kg) were uneffective and higher doses (10 mg/kg) produced a pattern of SMB in which the mutilation induced at the beginning of the d-amphetamine administration disappears completely as the treatment progresses. Interestingly, it was also found that REM sleep deprivation (48 h) potentiated significantly the SMB induced by the daily administration of 7.5 mg/kg d-amphetamine, and to lesser extent, the SMB induced by the daily treatment with 10 mg/kg d-amphetamine. R(+)-SCH-23390 a D1 dopamine (DA) receptor antagonist blocked completely or abolished the SMB induced by 7.5 mg/kg d-amphetamine in REM sleep deprived rats while (+/-)-sulpiride a D2 DA receptor antagonist had only a partial blocking effect. Haloperidol a D1/D2 DA receptor antagonist behaved as a D1 antagonist. Our results indicate that REM sleep deprivation enhances the SMB induced by the daily administration of d-amphetamine and suggest the involvement of D1 DA receptors in the mechanism underlying the SMB. A role of REM sleep deprivation is also suggested in the appearance of self-mutilating episodes in d-amphetamine addicts.

[Paradoxical reaction to midazolam after its use as a sedative in regional anesthesia]. / Reacción paradójica al midazolam tras su uso como sedante en anestesia regional.

We report 3 cases of paradoxical reaction to midazolam after being used for sedation during regional anesthesia. The picture was characterized by a marked aggressiveness. In one case the reaction was treated with general anesthesia, whereas in the other two patients the clinical picture was rapidly reversed by administration of flumazenil. We describe the possible causative mechanisms of this reaction as well as their treatment.