References
- Mew EJ, Padmanathan P, Konradsen F, et al. The global burden of fatal self-poisoning with pesticides 2006-15: systematic review. J Affect Disord. 2017;219:93–104.
- Proctor SP, Heaton KJ, Heeren T, et al. Effects of sarin and cyclosarin exposure during the 1991 Gulf war on neurobehavioral functioning in US army veterans. NeuroToxicology. 2006;27(6):931–939.
- Morita H, Yanagisawa N, Nakajima T, et al. Sarin poisoning in matsumoto, Japan. Lancet. 1995;346(8970):290–293.
- Suzuki T, Morita H, Ono K, et al. Sarin poisoning in Tokyo subway. Lancet. 1995;345(8955):980–981.
- Munoz-Quezada MT, Lucero BA, Iglesias VP, et al. Chronic exposure to organophosphate (OP) pesticides and neuropsychological functioning in farm workers: a review. Int J Occup Environ Health. 2016;22(1):68–79.
- Ismail AA, Bodner TE, Rohlman DS. Neurobehavioral performance among agricultural workers and pesticide applicators: a meta-analytic study. Occup Environ Med. 2012;69(7):457–464.
- Colosio C, Tiramani M, Brambilla G, et al. Neurobehavioural effects of pesticides with special focus on organophosphorus compounds: which is the real size of the problem? NeuroToxicology. 2009;30(6):1155–1161.
- Ross SM, McManus IC, Harrison V, et al. Neurobehavioral problems following low-level exposure to organophosphate pesticides: a systematic and Meta-analytic review. Crit Rev Toxicol. 2013;43(1):21–44.
- Dassanayake TL, Weerasinghe VS, Gawarammana I, et al. Subacute and chronic neuropsychological sequalae of acute organophosphate pesticide self-poisoning: a prospective cohort study from Sri Lanka. Clin Toxicol. 2021;59(2):118–130.
- Rosenstock L, Keifer M, Daniell WE, et al. Chronic central nervous system effects of acute organophosphate pesticide intoxication. The Pesticide Health Effects Study Group. Lancet. 1991;338(8761):223–227.
- Savage EP, Keefe TJ, Mounce LM, et al. Chronic neurological sequelae of acute organophosphate pesticide poisoning. Arch Environ Health. 1988;43(1):38–45.
- Steenland K, Jenkins B, Ames RG, et al. Chronic neurological sequelae to organophosphate pesticide poisoning. Am J Public Health. 1994;84(5):731–736.
- Wesseling C, Keifer M, Ahlbom A, et al. Long-term neurobehavioral effects of mild poisonings with organophosphate and n-methyl carbamate pesticides among banana workers. Int J Occup Environ Health. 2002;8(1):27–34.
- Abou-Donia MB. Organophosphorus ester-induced chronic neurotoxicity. Arch Environ Health. 2003;58(8):484–497.
- Chen Y. Organophosphate-induced brain damage: mechanisms, neuropsychiatric and neurological consequences, and potential therapeutic strategies. NeuroToxicology. 2012;33(3):391–400.
- Collombet JM, Pierard C, Beracochea D, et al. Long-term consequences of soman poisoning in mice part 1. Neuropathology and neuronal regeneration in the amygdala. Behav Brain Res. 2008;191(1):88–94.
- Reddy SD, Wu X, Kuruba R, et al. Magnetic resonance imaging analysis of long-term neuropathology after exposure to the nerve agent soman: correlation with histopathology and neurological dysfunction. Ann N Y Acad Sci. 2020;1480(1):116–135.
- Kutas M, McCarthy G, Donchin E. Augmenting mental chronometry: the P300 as a measure of stimulus evaluation time. Science. 1977;197(4305):792–795.
- Polich J. Updating P300: an integrative theory of P3a and P3b. Clin Neurophysiol. 2007;118(10):2128–2148.
- Sutton S, Braren M, Zubin J, et al. Evoked-potential correlates of stimulus uncertainty. Science. 1965;150(3700):1187–1188.
- Donchin E, Coles MGH. Is the P300 component a manifestation of context updating? Behav Brain Sci. 1988;11(03):357–374.
- Polich J, Criado JR. Neuropsychology and neuropharmacology of P3a and P3b. Int J Psychophysiol. 2006;60(2):172–185.
- Dassanayake T, Weerasinghe V, Dangahadeniya U, et al. Long-term event-related potential changes following organophosphorus insecticide poisoning. Clin Neurophysiol. 2008;119:(1)144–150.
- Murata K, Araki S, Yokoyama K, et al. Asymptomatic sequelae to acute sarin poisoning in the central and autonomic nervous system 6 months after the Tokyo subway attack. J Neurol. 1997;244(10):601–606.
- Misra UK, Prasad M, Pandey CM. A study of cognitive functions and event related potentials following organophosphate exposure. Electromyogr Clin Neurophysiol. 1994;34(4):197–203.
- Dassanayake T, Gawarammana IB, Weerasinghe V, et al. Auditory event-related potential changes in chronic occupational exposure to organophosphate pesticides. Clin Neurophysiol. 2009;120(9):1693–1698.
- Rajapakse BN, Thiermann H, Eyer P, et al. Evaluation of the test-mate ChE (cholinesterase) field kit in acute organophosphorus poisoning. Ann Emerg Med. 2011;58(6):559–564 e6.
- Duncan CC, Barry RJ, Connolly JF, et al. Event-related potentials in clinical research: guidelines for eliciting, recording, and quantifying mismatch negativity, P300, and N400. Clin Neurophysiol. 2009;120(11):1883–1908.
- World Medical Association. World medical association declaration of Helsinki: ethical principles for medical research involving human subjects. JAMA. 2013;310:2191–2194.
- Eddleston M, Buckley NA, Eyer P, et al. Management of acute organophosphorus pesticide poisoning. Lancet. 2008;371(9612):597–607.
- Goodin DS, Squires KC, Henderson BH, et al. Age-related variations in evoked potentials to auditory stimuli in normal human subjects. Electroencephalogr Clin Neurophysiol. 1978;44(4):447–458.
- Hirayasu Y, Samura M, Ohta H, et al. Sex effects on rate of change of P300 latency with age. Clin Neurophysiol. 2000;111(2):187–194.
- Eddleston M, Worek F, Eyer P, et al. Poisoning with the S-Alkyl organophosphorus insecticides profenofos and prothiofos. QJM. 2009;102(11):785–792.
- Zhou L, Wang G, Nan C, et al. Abnormalities in P300 components in depression: an ERP-sLORETA study. Nord J Psychiatry. 2019;73(1):1–8.
- Klawohn J, Santopetro NJ, Meyer A, et al. Reduced P300 in depression: evidence from a flanker task and impact on ERN, CRN, and Pe. Psychophysiology. 2020;57(4):e13520.
- Nishiwaki Y, Maekawa K, Ogawa Y, et al. Effects of sarin on the nervous system in rescue team staff members and police officers 3 years after the Tokyo subway sarin attack. Environ Health Perspect. 2001;109(11):1169–1173.
- Yamasue H, Abe O, Kasai K, et al. Human brain structural change related to acute single exposure to sarin. Ann Neurol. 2007;61(1):37–46.
- Dassanayake TL, Michie PT, Jones AL, et al. Cognitive skills underlying driving in patients discharged following self-poisoning with Central nervous system depressant drugs. Traffic Inj Prev. 2012;13(5):450–457.
- Oxley SO, Dassanayake TL, Carter GL, et al. Neurocognitive recovery after hospital-treated deliberate self-poisoning with central nervous system depressant drugs: a longitudinal cohort study. J Clin Psychopharmacol. 2015;35:1–9.
- Petras JM. Neurology and neuropathology of soman-induced brain injury: an overview. J Exp Anal Behav. 1994;61(2):319–329.
- Linden DE, Prvulovic D, Formisano E, et al. The functional neuroanatomy of target detection: an fMRI study of visual and auditory oddball tasks. Cereb Cortex. 1999;9(8):815–823.
- Soltani M, Knight RT. Neural origins of the P300. Crit Rev Neurobiol. 2000;14(3–4):26.
- Benfenati E, Gini G, Piclin N, et al. Predicting logP of pesticides using different software. Chemosphere. 2003;53(9):1155–1164.