Department of Psychiatry, Psychotherapy, and Psychosomatics, Psychiatric Hospital, Experimental and Clinical Pharmacopsychology, University of Zurich, Zurich, Switzerland.
Department of Psychiatry, Psychotherapy, and Psychosomatics, Psychiatric Hospital, Center for Addictive Disorders, University of Zurich, Zurich, Switzerland.
Transl Psychiatry. 2018 Oct 27;8(1):235. doi: 10.1038/s41398-018-0279-3.
Currently, levamisole is the most common cocaine adulterant worldwide and it is known to induce a variety of adverse side effects. Animal studies and human case reports suggest potential neurotoxicity of the compound but neither neuroanatomical nor cognitive effects of levamisole have been systematically investigated in cocaine users so far. We examined cognitive performance and cortical structural differences between chronic cocaine users with low and high recent exposure to levamisole objectively determined by quantitative toxicological hair analyses. In Study 1, we compared 26 chronic cocaine users with low levamisole exposure (lowLevCU), 49 matched cocaine users with high levamisole exposure (highLevCU), and 78 matched stimulant-naive controls regarding cognitive functioning employing a comprehensive neuropsychological test battery. In Study 2, we investigated cortical thickness by use of T1-weighted MRI in a subgroup of 12 lowLevCU, 17 highLevCU, and 38 stimulant-naive controls. In Study 1, both cocaine user groups showed significant impairments in the cognitive domains of attention and working memory as well as in the global cognitive index. However, highLevCU showed significantly worse executive functions compared to lowLevCU although both groups did not differ in severity of cocaine consumption and other clinical dimensions. Study 2 revealed that highLevCU, displayed reduced cortical thickness specifically in the middle frontal gyrus compared to both controls and lowLevCU. Our results suggest that levamisole exposure during the last months in cocaine users is associated with increased executive function impairments and pronounced thinning of the lateral prefrontal cortex. Consequently, prevention and drug policy-making should aim to reduce levamisole contamination of street cocaine.
目前,左旋咪唑是世界范围内最常见的可卡因掺杂物,已知它会引起多种不良反应。动物研究和人类病例报告表明,该化合物可能具有神经毒性,但迄今为止,尚未对可卡因使用者的左旋咪唑的神经解剖和认知影响进行系统研究。我们通过定量毒理学毛发分析客观地检查了低和高近期暴露于左旋咪唑的慢性可卡因使用者之间的认知表现和皮质结构差异。在研究 1 中,我们比较了 26 名低左旋咪唑暴露的慢性可卡因使用者(lowLevCU),49 名匹配的高左旋咪唑暴露的可卡因使用者(highLevCU)和 78 名匹配的无兴奋剂使用的对照者,使用综合神经心理学测试电池来评估认知功能。在研究 2 中,我们在 12 名 lowLevCU,17 名 highLevCU 和 38 名无兴奋剂使用的对照者中使用 T1 加权 MRI 研究了皮质厚度。在研究 1 中,两组可卡因使用者在注意力和工作记忆以及总体认知指数等认知领域均显示出明显的损害。但是,尽管两组在可卡因使用的严重程度和其他临床维度上没有差异,highLevCU 的执行功能仍明显比 lowLevCU 差。研究 2 表明,与对照组和 lowLevCU 相比,highLevCU 显示出中额回的皮质厚度明显减少。我们的研究结果表明,在过去几个月中,可卡因使用者中左旋咪唑的暴露与执行功能障碍的增加以及外侧前额叶皮层的明显变薄有关。因此,预防和药物政策制定应旨在减少街头可卡因的左旋咪唑污染。
