Naltrexone (NTX) has been shown to be efficacious for the treatment of alcohol dependence. Since alcohol and cocaine use disorders commonly co-occur, we conducted a randomized, double-blind, placebo-controlled trial of NTX 50 mg/day in 64 subjects with comorbid alcohol and cocaine use disorders. Although subjects in both groups reduced their consumption of both alcohol and cocaine during the 8-week trial, there was no consistent advantage to NTX over placebo treatment. We conclude that, due to behavioral, neurochemical, or other factors, individuals with both alcohol and cocaine use disorders are distinct from those dependent on alcohol alone, and that NTX at a dosage of 50 mg/day is not efficacious in this patient population. Several factors, including medication dosage, length of treatment, sample size and attrition rate, limit the interpretation of these findings. Consequently, we recommend that subsequent trials of NTX to reduce the risk of relapse in patients with comorbid alcohol and cocaine use disorders take these issues into account.
It is established that sympathetic neurons can synthesize, transport and store tissue plasminogen activator (t-PA) within axon terminals in the smooth muscle of vessel walls. Moreover, sympathetic excitations (e.g. physical and mental stress) are known to induce an acute release of t-PA into the circulation. However, relatively little is known about the nature and extent of sympathetic nervous system involvement in the release process. We inquired whether a chemical sympathectomy will alter the release of t-PA into the blood, and the intrinsic release of stored t-PA from isolated whole vessel explants. A long-term sympathectomy was induced in adult Sprague-Dawley rats by injection of guanethidine during a 5-week course. The destruction of ganglion neurons and vessel wall axons was verified immunohistochemically. t-PA release was assayed as the free activity in hind limb plasma and explant culture medium. Following sympathectomy: (i) the basal t-PA activity in plasma was 70% less than controls (2.92 +/- 1.96 versus 9.33 +/- 1.72 IU/ml; = 0.001); (ii) the acute release from isolated vessels induced by bradykinin or phenylephrine was comparably reduced; and (iii) the greatest reductions occurred in densely innervated small vessel explants. The results provide new support for an autonomic regulation of neural t-PA release into the vessel wall matrix and blood of densely innervated thin-walled microvessels.
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