Stellenbosch University, Faculty of Medicine and Health Sciences, Division of Clinical Pharmacology, Department of Medicine , PO Box 19063; Francie van Zijl Drive, Tygerberg 7505 , South Africa
Expert Opin Drug Saf. 2013 Nov;12(6):841-6. doi: 10.1517/14740338.2013.823396. Epub 2013 Jul 29.
Efavirenz commonly causes early neuropsychiatric side effects, but tolerance develops in most patients. There is emerging evidence that efavirenz use may damage neurons, which could result in impaired neurocognitive performance.
The authors conducted a systematic review using the PubMed database, references cited by other articles and conference web sites to determine if there is evidence that efavirenz may contribute to cognitive impairment by damaging nerve cells.
There is weak clinical evidence suggesting that efavirenz use may worsen neurocognitive impairment or be associated with less improvement in neurocognitive impairment than other antiretrovirals. Efavirenz, especially its major metabolite 8-hydroxy-efavirenz, is toxic in neuron cultures at concentrations found in the cerebrospinal fluid. Extensive metabolizers of efavirenz may therefore be more likely to develop efavirenz toxicity by forming more 8-hydroxy-efavirenz. Several potential mechanisms exist to explain the observed efavirenz neurotoxicity, including altered calcium hemostasis, decreases in brain creatine kinase, mitochondrial damage, increases in brain proinflammatory cytokines and involvement of the cannabinoid system. There is a need for large randomized controlled trials to determine if the neuronal toxicity induced by efavirenz results in clinically significant neurological impairment.
依非韦伦通常会引起早期神经精神副作用,但大多数患者会对此产生耐受性。有新证据表明,依非韦伦的使用可能会损害神经元,从而导致神经认知功能受损。
作者使用 PubMed 数据库、其他文章的参考文献和会议网站进行了系统评价,以确定是否有证据表明依非韦伦可能通过损害神经细胞导致认知障碍。
有微弱的临床证据表明,依非韦伦的使用可能会使神经认知障碍恶化,或与其他抗逆转录病毒药物相比,改善神经认知障碍的效果更差。依非韦伦,特别是其主要代谢产物 8-羟基依非韦伦,在脑脊液中发现的浓度下对神经元培养物具有毒性。因此,依非韦伦广泛代谢者可能通过形成更多的 8-羟基依非韦伦而更容易产生依非韦伦毒性。有几种潜在的机制可以解释观察到的依非韦伦神经毒性,包括钙稳态改变、脑肌酸激酶减少、线粒体损伤、脑促炎细胞因子增加以及大麻素系统的参与。需要进行大规模的随机对照试验来确定依非韦伦诱导的神经元毒性是否导致临床显著的神经功能障碍。
