Chlorfenapyr poisoning:mechanisms,clinical presentations,and treatment strategies

BACKGROUND:Chlorfenapyr is used to kill insects that are resistant to organophosphorus insecticides.Chlorfenapyr poisoning has a high mortality rate and is difficult to treat.This article aims to review the mechanisms,clinical presentations,and treatment strategies for chlorfenapyr poisoning.DATA RESOURCES:We conducted a review of the literature using PubMed,Web of Science,and SpringerLink from their beginnings to the end of October 2023.The inclusion criteria were systematic reviews,clinical guidelines,retrospective studies,and case reports on chlorfenapyr poisoning that focused on its mechanisms,clinical presentations,and treatment strategies.The references in the included studies were also examined to identify additional sources.RESULTS:We included 57 studies in this review.Chlorfenapyr can be degraded into tralopyril,which is more toxic and reduces energy production by inhibiting the conversion of adenosine diphosphate to adenosine triphosphate.High fever and altered mental status are characteristic clinical presentations of chlorfenapyr poisoning.Once it occurs,respiratory failure occurs immediately,ultimately leading to cardiac arrest and death.Chlorfenapyr poisoning is diflcult to treat,and there is no specific antidote.CONCLUSION:Chlorfenapyr is a new pyrrole pesticide.Although it has been identified as a moderately toxic pesticide by the World Health Organization(WHO),the mortality rate of poisoned patients is extremely high.There is no specific antidote for chlorfenapyr poisoning.Therefore,based on the literature review,future efforts to explore rapid and effective detoxification methods,reconstitute intracellular oxidative phosphorylation couplings,identify early biomarkers of chlorfenapyr poisoning,and block the conversion of chlorfenapyr to tralopyril may be helpful for emergency physicians in the diagnosis and treatment of this disease.

Cross-resistance and genetics of field-evolved resistance to chlorfenapyr in Plutella xylostella

Chlorfenapyr is a broad-spectrum halogenated pyrrole insecticide with a unique mode of action.Due to the misuse and overuse of this chemical,resistance has been reported in several arthropods,including Plutella xylostella,which is one of the most destructive insect pests afflicting crucifers worldwide.A better understanding of the cross-resistance and genetics of field-evolved chlorfenapyr resistance could effectively guide resistance management practices.Here,the chlorfenapyr resistance of a fieldderived population of P xylostella was introgressed into the susceptible IPP-S strain using a selection-assisted multigenerational backcrossing approach.The constructed nearisogenic strain,TH-BCsF2,shared 98.4%genetic background with the recurrent parent IPP-S strain.The TH-BCsF2 strain showed 275-fold resistance to chlorfenapyr,but no significant cross-resistance to spinosad,abamectin,chlorpyrifos,β-cypermethrin,indoxacarb,chlorantraniliprole,or broflanilide(no more than 4.2-fold).Genetic analysis revealed that resistance was autosomal,incompletely dominant,and conferred by 1 major gene or a few tightly linked loci.The synergism of metabolic inhibitors(PBO,DEM,and DEF)to chlorfenapyr was very weak(<1.7-fold),and the metabolic enzyme activities in the TH-BCsF2 strain were not significantly elevated compared with the IPP-S strain.The results enhances our understanding of the genetic traits of chlorfenapyr resistance,and provides essential information for improving resistance management strategies.

5%虫螨腈微乳剂的配方研究

以微乳剂的外观、乳液稳定性、冷贮稳定性、热贮稳定性等为性能指标,采用相转移法,对溶剂、乳化剂、防冻剂、水质等配方组分进行筛选试验,最终确定了5%虫螨腈微乳剂的优选配方的质量分数为:5%虫螨腈,15%环己酮,20%复配乳化剂A,5%丙二醇,水补足至100%。按上述配方制备的5%虫螨腈微乳剂各项性能指标均合格,具有良好的开发和应用前景。

虫螨腈毒代动力学及毒理学研究进展

虫螨腈作为一种日益广泛应用的新合成农药,使用过程中人体暴露机会逐渐增加,中毒病例日益增多,目前虫螨腈的毒代动力学与毒理学仍未十分明确,自20世纪90年代开始,相关研究逐渐开展,动物实验显示了虫螨腈的吸收、分布、排泄、代谢等毒代动力学过程。毒理学研究表明,氧化磷酸化解耦联效应是虫螨腈的基本毒性,人和其他动物虫螨腈中毒可出现神经、心脏、骨骼肌、基因、生殖与发育、肾脏、脾脏、血液系统等相关毒性。现结合既往动物实验、人源细胞系实验、临床病例、人类尸检等资料,对虫螨腈的毒代动力学与毒理学相关进展进行综述,以期强化临床对虫螨腈中毒的关注,并为虫螨腈中毒的救治提供参考。

天维菌素B杀虫活性测定及防治小菜蛾复配配方筛选

天维菌素B是中国自主创制的新型大环素内酯类杀虫剂。为挖掘其市场潜力,延缓害虫抗药性的产生,本研究采用浸叶法测定了天维菌素B对小菜蛾Plutella xylostella、玉米螟Pyrausta nubilalis、美国白蛾Hyphantria cunea等10种害虫的活性;采用喷雾法测定了其对棉蚜Aphis gossypii、二斑叶螨Tetranychus urticae和美洲斑潜蝇Liriomyza sativae的活性;采用孙云沛共毒系数法评价了其与硫虫酰胺、虫螨腈和茚虫威复配对小菜蛾的增效作用,并选择最优配比进行了田间药效试验。室内活性测定结果表明:天维菌素B对小菜蛾、玉米螟和二斑叶螨具有优异的杀虫、杀螨活性,LC50值分别为0.115、0.043和0.012 mg/L,活性显著高于或与阿维菌素相当;对黏虫Mythimna separata、美国白蛾、稻纵卷叶螟Cnaphalocrocis medinalis、西花蓟马Frankliniella occidentalis和棉蚜也具有较好的活性,LC50值为0.337~9.784 mg/L。复配配方筛选结果显示:天维菌素B与硫虫酰胺、茚虫威的各组配比均无增效作用;而天维菌素B与虫螨腈在质量比为1:14时的共毒系数为178.59,增效作用明显。选择天维菌素B与虫螨腈质量比1:14复配混合物开展防治小菜蛾的田间药效试验,结果显示,该复配组合在有效成分用量75 g/hm2时,药后7 d和14 d的防效均可达80%以上。研究表明,天维菌素B对小菜蛾、二斑叶螨、棉蚜等多种害虫具有较好的活性,杀虫谱广,具有较好的市场开发前景;天维菌素B与虫螨腈按质量比1:14复配具有增效作用,可以用于防治田间小菜蛾,并有助于延缓其抗药性的产生。

30%虫螨腈·氯虫苯甲酰胺悬浮剂高效液相色谱分析

建立液相色谱测定30%虫螨腈·氯虫苯甲酰胺悬浮剂的分析方法。以甲醇+水(体积比80∶20)为流动相,使用C_(18)色谱柱,在254 nm波长下检测。试验结果表明:虫螨腈和氯虫苯甲酰胺的相关系数分别为0.9995和0.9992,标准偏差分别为0.02和0.02,相对标准偏差分别为0.1%和0.2%,平均回收率分别为99.64%和99.31%。方法简便快捷,精密度和准确度高,可有效用于复配产品中虫螨腈和氯虫苯甲酰胺的定量分析检测。

Dissipation behavior, residue distribution and dietary risk assessment of chlorfenapyr and clothianidin in leek using RRLC-QqQ-MS/MS technique

Commercial suspension emulsion(SE) of(8% chlorfenapyr + 20% clothianidin), as a pre-registered product in China, was firstly investigated under Chinese open-field conditions. A MWCNTs-based QuEChERS method for simultaneous determination of chlorfenapyr and clothianidin in leek was established and validated through rapid resolution liquid chromatography triples quadrupole tandem mass spectrometry(RRLC-QqQ-MS/MS). Based on this method, the dissipation behaviors, residue distributions and dietary risk probability of these fungicides in leek from two representative locations in China in 2016, which were previously treated with these insecticides at the doses of 420–630 g a.i./ha twice applications, were further investigated for food safety. Dissipation behavior of chlorfenapyr and clothianidin in leek followed first-order kinetics with the half-lives of 2.9–7.2 days, and the highest residues(HR) of these insecticides in leek were below 0.3811 mg/kg and 0.2989 mg/kg, respectively, at the pre-harvest interval(PHI, 7 days). For dietary risk assessments, the risk quotients(RQs) of chlorfenapyr and clothianidin in leek were evaluated by comparing the value of national estimated daily intake(NEDI) with acceptable daily intake(ADI), based on the trials data under good agricultural practices(GAP) conditions. The results indicated that RQs of chlorfenapyr and clothianidin in leek were21.5% and 0.29%, respectively, which exhibited an acceptably low health risk to leek consumption. The current study could not only guide reasonable usage of the formulation, but also facilitate the setting of maximum residue limits(MRLs) of chlorfenapyr and clothianidin in leek for Chinese

清洗及烹饪对芥菜和普通白菜中残留虫螨腈和高效氯氰菊酯膳食暴露风险的影响

为明确不同清洗和烹饪方式对芥菜和普通白菜中残留2种脂溶性农药(虫螨腈和高效氯氰菊酯)膳食暴露风险的影响,模拟厨房常用5种清洗方式(食用盐水、食用小苏打水、淘米水、自来水、食用醋水溶液)分别清洗芥菜和普通白菜,以及4种烹饪方式(煮、蒸、炒、腌制)烹饪加工后,利用QuEChERS样品前处理及气相色谱-串联质谱(GC-MS/MS)、超高效液相色谱-串联质谱(UPLC-MS/MS)方法检测样品加工前后虫螨腈和高效氯氰菊酯的残留量变化,计算加工因子,并根据我国3个代表性人群(儿童、育龄妇女、一般人群)的膳食数据,估算加工前后农药膳食暴露量变化以及对长期膳食暴露风险的贡献率(ADIi%)和短期膳食暴露风险(%ARfD)的影响,评价了清洗和烹饪加工过程对减少农药残留膳食暴露风险以及降低膳食暴露风险评估不确定性的作用。结果表明:芥菜采用食用小苏打水清洗,普通白菜采用食用盐水清洗,对2种农药残留的去除效果最好,显著优于自来水清洗;经过清洗、烹饪后,其加工因子(PFTotal)在芥菜中介于0.06~0.24(虫螨腈)和0.04~0.11(高效氯氰菊酯)之间,在普通白菜中介于0.05~0.21(虫螨腈)和0.06~0.11(高效氯氰菊酯)之间,清洗及烹饪加工使得2种农药的估算暴露风险值降低了76%~96%。研究表明,日常厨房加工可不同程度降低虫螨腈和高效氯氰菊酯残留对我国代表性人群的长期及短期膳食暴露风险,针对芥菜和普通白菜而言,厨房加工可使高效氯氰菊酯残留的%ARfD<100%,但不能使虫螨腈残留的%ARfD<100%。

6例虫螨腈中毒患者集束化急救护理的效果观察

目的观察集束化急救护理对虫螨腈中毒患者的疗效。方法回顾性分析6例虫螨腈中毒患者的救治及护理过程。结果6例虫螨腈中毒患者中,口服中毒5例,呼吸道及皮肤吸收毒物中毒1例。6例虫螨腈中毒患者均启动中毒救治绿色通道,开展多学科合作集束化治疗护理及毒物检测;1例毒物检测未检出虫螨腈成分,予以排除;余5例患者在初期均有不同程度的发热、乏力、恶心呕吐等症状,其中4例患者病程后期出现高热,意识障碍程度加重,在中毒后2~11 d治疗无效死亡(其中1例失联,预计死亡),病死率达80%。结论虫螨腈中毒无特效解毒剂,病死率极高;中毒后尽快留取患者血液、尿液等标本进行毒检,同时给予早期洗胃(6 h内)、肠道吸附、胃肠道导泄、灌肠等对症治疗,尽早行连续血液净化清除血液毒素,有条件者可行体外膜肺氧合治疗。

广西地区柑橘全爪螨对虫螨腈和丁醚脲的抗药性监测

为探究广西地区柑橘全爪螨Panonychus citri对虫螨腈和丁醚脲的抗药性变化情况,采用叶碟浸渍法测定了2022年-2024年广西阳朔、荔浦、武鸣、鹿寨、永福、灵川6地柑橘全爪螨对虫螨腈和丁醚脲的抗药性。室内生测结果表明:2022年5个种群对丁醚脲均处于中等水平抗性(39.2~78.7倍);阳朔、永福、荔浦种群对虫螨腈处于中等水平抗性(45.4~93.6倍),武鸣(192.6倍)、鹿寨(125.3倍)表现为高水平抗性。2023年阳朔种群为中等水平抗性,其余种群对虫螨腈和丁醚脲均已达高水平抗性。田间药效结果表明:240 g/L虫螨腈SC 1000倍液防治效果最好,药后1 d防效为76.7%,药后15 d可达98.9%。广西荔浦、武鸣、鹿寨、永福4地柑橘全爪螨种群对虫螨腈和丁醚脲已达高水平抗性,应暂停这2种药剂的使用。

Efficacy of chlorfenapyr against adult Tribolium castaneum exposed on concrete＂ effects of exposure interval, concentration and the presence of a food source after exposure

Chlorfenapyr, an insecticidal pyrrole, was applied to concrete arenas at concentrations of 1. 1, 0.825, 0.55, and 0.275 g of active ingredient [AI]/m^2. Adult Tribolium castaneum （Herbst）, the red flour beetle, were exposed for 2, 4, or 8 h at each concentration, then removed and held either with or without food （wheat flour） for 7 days. Survival was assessed when the beetles were removed fi＇om the exposure arenas and daily during the post- exposure period. In the presence of food, survival was high regardless of concentration and the day on which post-treatment survival was assessed, but survival did decrease as the exposure period increased from 4 to 8 h. When the beetles were not given food after exposure, survival at each concentration and exposure period declined during the 1-week post- exposure assessments. This pattern of decrease could be described by linear and non-linear equations. Results show the presence of food material greatly compromised effectiveness of the insecticide, and emphasize the importance of cleaning and sanitation in conjunction with insecticide treatments.

气相色谱-质谱法测定辣椒中虫螨腈含量的不确定度评定

本研究通过建立数学模型,对气相色谱-质谱法测定辣椒中虫螨腈残留量的不确定度进行评定。通过对来源量化以及合成,测得辣椒中虫螨腈残留量为0.68 mg·kg^(-1),包含因子k=2时,扩展不确定度值为0.10 mg·kg^(-1)。

溴虫腈胁迫对家蚕经济性状与繁殖力的影响

【目的】探明溴虫腈胁迫对家蚕经济性状和繁殖力的影响,为溴虫腈在蚕桑生产上的合理应用提供科学依据。【方法】以2个家蚕品系(p50和QBA)为研究对象,采用100 mg/L溴虫腈处理新鲜桑叶并晾干叶面水分后连续饲喂其5龄幼蚕1 d(处理1)、3 d(处理2)、5 d(处理3)、7 d(处理4)至上簇结茧,以相同时间饲喂等量清水处理桑叶为对照(CK),研究其5龄幼蚕存活率、结茧率、化蛹率、全茧量、茧层量、茧层率和蛹体重,以及雌雄蛾羽化率、单雌蛾产卵数和受精卵率的变化。【结果】不同处理2个家蚕品系5龄幼蚕存活率、结茧率和化蛹率分别为91.11%~98.89%/94.44%~98.89%、80.42%~100.00%/90.64%~100.00%和57.60%~100.00%/78.00%~100.00%;随着饲喂时间的延长,p50和QBA雌/雄蚕各处理的全茧量、茧层量和蛹体重呈下降趋势,雌蚕的全茧量、茧层量、茧层率、蛹体重分别为0.84~1.29 g/1.31~1.69 g、0.09~0.15 g/0.26~0.33 g、10.70%~11.66%/19.26%~19.97%和0.74~1.14 g/1.05~1.36 g,雄蚕的全茧量、茧层量、茧层率、蛹体重分别为0.64~0.97 g/1.09~1.35 g、0.09~0.14 g/0.26~0.30 g、13.49%~14.86%/22.50%~24.11%和0.55~0.83 g/0.83~1.05 g,QBA雌/雄蚕的全茧量、茧层量和蛹体重均大于p50;2个家蚕品系的雌蛾和雄蛾羽化率随着饲喂时间增加呈下降趋势,相同处理雌蛾羽化率低于雄蛾,在已羽化的各处理中,p50和QBA的雌蛾羽化率分别为59.84%~98.15%和40.67%~97.22%,均以CK最高,分别以处理2和处理3最低,显著和极显著低于CK;雄蛾羽化率分别为67.22%~100.00%和28.25%~98.15%,均以CK最高,分别以处理3和处理4最低,显著和极显著低于CK。在已羽化的各处理中,p50和QBA各处理单雌蛾平均产卵数分别为304~430粒和298~545粒,均以CK最高,分别以处理2和处理3最低,显著和极显著低于CK;各处理受精卵率分别为95.30%~96.16%和88.14%~95.08%,与CK差异均不显著。【结论】溴虫腈对家蚕具有一定的慢性累积毒性,且溴虫腈胁迫对家蚕的经济性状和繁殖力具有明显的不良影响。

噻虫胺和虫螨腈及其代谢物在大葱中的残留及膳食风险评估

[目的]评估噻虫胺和虫螨腈在大葱中的残留消解及膳食摄入风险。[方法]通过规范田间残留试验,结合大葱中噻虫胺和虫螨腈的残留量,评估噻虫胺和虫螨腈的长期膳食摄入风险。[结果]噻虫胺和虫螨腈在大葱中的半衰期分别为4.6~7.4和5.8~6.9 d,均降解较快。长期膳食风险评估结果表明,普通人群中噻虫胺和虫螨腈的风险商(RQ)分别为5%和84%,对一般人群健康产生的风险是可接受的。[结论]按照推荐剂量使用,噻虫胺和虫螨腈在大葱中残留不会对我国人体健康产生影响。

4种化学杀虫剂对茶谷蛾的室内毒力测定

为有效防控云南茶树重要的食叶性害虫茶谷蛾(Agriophara rhombata),筛选防治茶谷蛾的适用药及适用量,指导科学用药。在室内采用浸叶法测定24~96 h 4种不同稀释倍数杀虫剂对茶谷蛾3龄幼虫的毒力作用。结果表明,4种化学杀虫剂对3龄茶谷蛾幼虫的毒力作用由强到弱表现为:24~72 h时,6%乙基多杀菌素悬浮剂(SC)>15%茚虫威乳油(EC)>15%唑虫酰胺SC>24%虫螨腈SC;96 h时,6%乙基多杀菌素SC>24%虫螨腈SC>15%茚虫威EC>15%唑虫酰胺SC。6%乙基多杀菌素SC与15%茚虫威EC具有较强毒杀力及速效性,可作为应急防治茶谷蛾的推荐药剂;24%虫螨腈SC发挥作用较缓,具有明显的时间—剂量—死亡率效应。研究结果可为云南茶区茶谷蛾的防治提供参考基础和依据。

快速溶剂萃取-气质联用法测定茶叶中的茚虫威、虫螨腈和啶虫脒

建立了同时检测茶叶中茚虫威、虫螨腈和啶虫脒残留的快速溶剂萃取-气质联用检测方法。茶叶样品磨碎后在95℃、12.0 MPa条件下采用丙酮-乙腈(1+1)萃取,经Cleanert TPT固相萃取柱净化富集后上机测定。结果表明:茚虫威、虫螨腈和啶虫脒在0.5~10.0 mg/L质量浓度范围内具有良好的线性关系,相关系数分别为1.000、0.9997和0.9966;检出限均为0.02 mg/kg,定量限为0.066 mg/kg。在0.5、2.5和10.0 mg/L 3个添加水平下,茚虫威、虫螨腈和啶虫脒的平均加标回收率为85.6%~97.3%,相对标准偏差为1.1%~6.7%(n=6)。本实验通过优化快速溶剂萃取条件,实现了对茶叶样品的高效前处理以及茚虫威、虫螨腈和啶虫脒的准确定量。

橘小实蝇对甲氨基阿维菌素苯甲酸盐的抗性机制及对其他药剂的交互抗性

入侵害虫橘小实蝇严重为害蔬菜、花卉、水果等经济作物,目前在田间常使用杀虫剂进行防治。为探索甲氨基阿维菌素苯甲酸盐(甲维盐)防控橘小实蝇的抗性风险,采用药膜法测定了橘小实蝇抗甲维盐种群(EB)对8种杀虫剂的交互抗性水平,并测定了橘小实蝇EB种群、金华田间种群(JH)和敏感种群(S)的解毒酶活性。历经33代筛选,橘小实蝇EB种群对甲维盐产生了43.4倍的中等水平抗性,对阿维菌素存在中等水平交互抗性,对吡虫啉、辛硫磷、马拉硫磷存在低水平交互抗性,对噻虫胺、高效氯氟氰菊酯、多杀霉素和虫螨腈未表现出交互抗性。胡椒基丁醚(PBO)、磷酸三苯酯(TPP)和顺丁烯二酸二乙酯(DEM)均可显著提高甲维盐对橘小实蝇EB种群、JH种群和S种群的室内毒力。橘小实蝇EB种群细胞色素P450(3.9倍)和b5含量(3.3倍)、O-脱甲基酶活性(4.2倍)、谷胱甘肽S-转移酶活性(2.7倍)、羧酸酯酶活性(3.2倍)显著高于S种群。多功能氧化酶、谷胱甘肽S-转移酶、羧酸酯酶活性显著增强可能是橘小实蝇对甲维盐产生高水平抗性的重要机制。

急性虫螨腈中毒基本救治通则及探讨

虫螨腈是一种基于芳基吡咯类的杀虫剂,通过干扰线粒体氧化磷酸化作用剥夺目标生物的能量,用于防治多种昆虫和螨虫。人类中毒具有独特的临床特征,主要表现为大量出汗、恶性高热、横纹肌溶解和严重的延迟性神经系统损害,这些症状逐渐恶化直至死亡。对于急性虫螨腈中毒患者,不要被最初有效的治疗效果所麻痹,必须考虑其潜伏期,建议密切监护治疗,在患者病情迅速恶化前采取适当措施。近3年来,国内虫螨腈中毒的发病率呈逐年上升趋势,病死率极高,治疗方法仍在探索中。本研究检索并筛选文献,结合山东第一医科大学附属中心医院临床救治经验,将可能对急性虫螨腈中毒患者有利的救治方案进行归纳总结后撰写此基本救治通则并进行探讨,从七个方面(虫螨腈的毒理机制、虫螨腈中毒的诊断、治疗、预后评估、尸检、随访、预防)逐一进行阐述,警示医师应了解该疾病的发病机制及临床过程,为临床诊治急性虫螨腈中毒提供更多参考。

14%虫螨腈·虱螨脲悬浮剂的高效液相色谱分析

利用高效液相色谱仪,以甲醇-0.1%磷酸水(体积比85∶15)为流动相,使用C18为填料的不锈钢柱和DAD检测器,在254 nm波长下对14%虫螨腈·虱螨脲悬浮剂中的有效成分进行定性和定量分析。该方法条件下,虫螨腈、虱螨脲的相关系数、标准偏差、变异系数以及加标回收率等方法学验证指标均满足相应要求,证明该方法适用于虫螨腈和虱螨脲复配而成的农药制剂分析。

虫螨腈对斜纹夜蛾的毒力及亚致死效应研究

【目的】长期不合理地使用化学农药导致斜纹夜蛾对菊酯类和有效磷类等杀虫剂产生抗药性,而虫螨腈是一种吡咯类杀虫剂,具有杀虫谱广、防效高、持效性好、安全等特点,其使用范围越来越广泛。【方法】采用浸叶法测定虫螨腈对斜纹夜蛾3龄幼虫的毒力。用不同载体以亚致死剂量LC10和LC30处理斜纹夜蛾3龄幼虫,分析对其幼虫体重、化蛹率、蛹重、雌性比等指标的影响。【结果】亚致死剂量处理过的斜纹夜蛾3龄幼虫的生长发育受到严重抑制,主要表现在虫体质量显著下降、化蛹率和雌性比显著降低和蛹重显著减轻等。【结论】虫螨腈对斜纹夜蛾防治具有较好的效果,且防治应选在低龄幼虫期。研究结果可为合理施用虫螨腈防治斜纹夜蛾提供科学依据。