Conclusions
Active self-administration of cocaine during the treatment period appears to be an important factor in reducing cocaine-reinforced breakpoints. These findings suggest learning mechanisms are involved in the therapeutic effects of continuous D-amphetamine, and pharmacological interaction mechanisms such as cross-tolerance cannot completely account for the observed decreases in cocaine seeking.
Methods
After stable progressive ratio (PR) baselines were established, rats were implanted with subcutaneous osmotic minipumps filled with either D-amphetamine (5 mg/kg/day-groups 1 and 2) or saline (group 3). During the treatment period, groups 1 and 3 self-administered cocaine at a dose that was previously shown to produce the most robust effects in combination with D-amphetamine treatment (0.19 mg/kg/inf), while group 2 received passive cocaine infusions.
Results
In replication of previous studies, D-amphetamine treatment resulted in a significant (35 %) decrease in breakpoints relative to saline controls. By contrast, no reductions in breakpoints were observed in animals that received passive cocaine infusions during the treatment period (group 2). Conclusions: Active self-administration of cocaine during the treatment period appears to be an important factor in reducing cocaine-reinforced breakpoints. These findings suggest learning mechanisms are involved in the therapeutic effects of continuous D-amphetamine, and pharmacological interaction mechanisms such as cross-tolerance cannot completely account for the observed decreases in cocaine seeking.