Stangeland Marcus, Dale Ola, Skulberg Arne Kristian
Department of Medical Biochemistry and Pharmacology, Haukeland University Hospital, Bergen, Norway.
Department of Circulation and Medical Imaging, NTNU - Norwegian University of Science and Technology, Trondheim, Norway.
Clin Toxicol (Phila). 2025 Jun;63(6):393-406. doi: 10.1080/15563650.2025.2504133. Epub 2025 May 27.
Nitazenes are a class of potent synthetic opioids that have emerged in illicit drug markets and have been identified in combination with other opioids in cases of poisoning and fatalities. Originally developed in the 1950s, these compounds were abandoned due to their high toxicity and unfavourable therapeutic index. Recent reports indicate that nitazenes exhibit a wide range of potencies, with some exceeding that of fentanyl. Understanding the pharmacological and toxicological profiles of nitazenes is critical for public health and clinical management. This review synthesizes literature on the pharmacology, toxicity, and antagonist action of nitazenes, particularly their response to naloxone.
A comprehensive literature review was conducted using EMBASE, Ovid MEDLINE(R), APA PsycInfo, Scopus, and Web of Science up to 26 July 2024. The main search terms used were: "nitazen*", "2-benzylbenzimidazole", "aminoisotonitazene" OR "butonitazeneor clonitazene" OR "desnitazene" OR "etodesnitazene" OR "etonitazene" OR "flunitazene" OR "isotonitazene" OR "metodesnitazene" OR "metonitazene" OR "protonitazene". Inclusion criteria encompassed and animal studies, post-mortem toxicology, clinical trials, and case reports on nitazene poisoning. Data regarding naloxone dosing in confirmed cases of nitazene poisoning were also analyzed.
We identified 1,383 studies, and after removing duplicates, 557 abstracts were screened. Based on the eligibility criteria, 78 articles underwent full-text screening, and 35 were included in the final review. Nitazenes exhibit variability in potency and toxicity. studies suggest that their receptor affinity and potency often surpass those of both morphine and fentanyl. Real-world data indicate that potency is often lower than experimental findings. Case reports and clinical series indicate that naloxone remains an effective antidote for nitazene poisoning. A median dose of parenteral naloxone 1.20 mg effectively reversed poisoning, with a median dose of 0.8 mg in the pre-hospital setting. However, a subset of patients received prolonged naloxone infusions due to the persistence of opioid effects. Six out of 30 patients were treated with naloxone infusions. This ratio is higher than that reflected in current clinical guidelines, in which shorter observation time is deemed sufficient. Post-mortem toxicological analyses reveal highly variable nitazene concentrations, with overlap with those concentrations found in patients. This complicates the establishment of lethal thresholds. In several cases, nitazene metabolites were detected in isolation, suggesting independent pharmacological activity or alternative routes of administration. Additionally, nitazene poisoning often involves polysubstance use, further complicating diagnosis and management.
Data on nitazene potency in humans are scarce. Nitazenes are a heterogeneous group with very high experimental potency compared to morphine. The potency in outcome studies in humans is far lower than that in studies. Post-mortem concentrations of many nitazenes are similar to the post-mortem concentrations of fentanyl and indicate a similar potency. Treatment of nitazene poisoning should follow the guidelines for opioid poisoning, that is, instituting airway management and administering naloxone. All cases reviewed had several opioids and other sedating drugs in addition to nitazenes in their analytical workup. The median parenteral dose for successful reversal of features was 1.20 mg. This finding provides reassurance that naloxone is effective for the treatment of poisoning due to nitazene as well as other potent opioids.
Nitazenes represent an emerging public health challenge due to their high potency, unknown pharmacokinetics, and increasing presence in illicit drug supplies. While naloxone is effective in reversing nitazene poisoning, cases of prolonged toxicity suggest the need for extended monitoring and repeated naloxone dosing. The findings of this review highlight the importance of enhanced drug surveillance, improved clinical awareness, and the development of targeted harm reduction strategies, including the potential for novel opioid antagonists with prolonged efficacy. Future research should focus on defining nitazene receptor kinetics, post-mortem redistribution effects, and optimizing naloxone administration protocols for these emerging synthetic opioids.
硝氮烯是一类强效合成阿片类药物,已出现在非法毒品市场,并在中毒和死亡案例中被发现与其他阿片类药物混合使用。这些化合物最初在20世纪50年代开发,由于其高毒性和不利的治疗指数而被放弃。最近的报告表明,硝氮烯具有广泛的效力,有些超过了芬太尼。了解硝氮烯的药理和毒理学特征对于公共卫生和临床管理至关重要。本综述综合了关于硝氮烯的药理学、毒性和拮抗作用的文献,特别是它们对纳洛酮的反应。
截至2024年7月26日,使用EMBASE、Ovid MEDLINE(R)、APA PsycInfo、Scopus和Web of Science进行了全面的文献综述。使用的主要检索词为:“硝氮烯*”、“2-苄基苯并咪唑”、“氨基异硝氮烯”或“布托硝氮烯或氯硝氮烯”或“去硝氮烯”或“依托去硝氮烯”或“依托硝氮烯”或“氟硝氮烯”或“异硝氮烯”或“美托去硝氮烯”或“美托硝氮烯”或“质子硝氮烯”。纳入标准包括关于硝氮烯中毒的动物研究、尸检毒理学、临床试验和病例报告。还分析了确诊的硝氮烯中毒病例中纳洛酮给药的数据。
我们识别出1383项研究,去除重复项后,筛选了557篇摘要。根据纳入标准,78篇文章进行了全文筛选,35篇被纳入最终综述。硝氮烯在效力和毒性方面存在差异。研究表明,它们的受体亲和力和效力通常超过吗啡和芬太尼。实际数据表明,其效力往往低于实验结果。病例报告和临床系列表明,纳洛酮仍然是硝氮烯中毒的有效解毒剂。静脉注射纳洛酮的中位剂量1.20毫克有效地逆转了中毒,院前环境中的中位剂量为0.8毫克。然而,由于阿片类药物作用持续存在,一部分患者接受了延长的纳洛酮输注。30名患者中有6名接受了纳洛酮输注。这个比例高于当前临床指南中反映的比例,当前指南认为较短的观察时间就足够了。尸检毒理学分析显示硝氮烯浓度高度可变,与患者体内发现的浓度有重叠。这使得确定致死阈值变得复杂。在几例病例中,单独检测到了硝氮烯代谢物,表明其具有独立的药理活性或其他给药途径。此外,硝氮烯中毒通常涉及多药使用,进一步使诊断和管理复杂化。
关于人类中硝氮烯效力的数据很少。硝氮烯是一个异质性群体,与吗啡相比,其实验效力非常高。人类结局研究中的效力远低于实验研究中的效力。许多硝氮烯的尸检浓度与芬太尼的尸检浓度相似,表明效力相似。硝氮烯中毒的治疗应遵循阿片类中毒的指南,即建立气道管理并给予纳洛酮。所有综述的病例在分析检查中除了硝氮烯外,还含有几种阿片类药物和其他镇静药物。成功逆转症状的静脉注射中位剂量为1.20毫克。这一发现让人放心,即纳洛酮对治疗硝氮烯以及其他强效阿片类药物中毒有效。
由于硝氮烯效力高、药代动力学未知且在非法药物供应中日益增多,它们构成了新出现的公共卫生挑战。虽然纳洛酮可有效逆转硝氮烯中毒,但毒性延长的病例表明需要延长监测并重复给予纳洛酮。本综述的结果突出了加强药物监测、提高临床认识以及制定有针对性的减少伤害策略的重要性,包括开发具有延长疗效的新型阿片类拮抗剂的可能性。未来的研究应侧重于确定硝氮烯受体动力学、尸检再分布效应以及优化这些新出现的合成阿片类药物的纳洛酮给药方案。
