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Explore the efficacy of oximes like pralidoxime in treating organophosphorus pesticide poisoning. Review clinical trials, pharmacokinetics, and optimal dosing for different OP compounds. Investigate the impact of various oxime salts on patient outcomes.
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Use of oximes in the management of organophosphorus pesticide poisoningMichael EddlestonSouth Asian Clinical Toxicology Research Collaboration,Centre for Tropical Medicine,Nuffield Department of Medicine, University of Oxford.Dept of Clinical Medicine, University of Colombo,Sri Lanka.Funded by the
PralidoximePyridine-2-aldoximeQuarternary ammonium salt discovered by Wilson 1955Four salts: chloride (2-Pam, Mw 173), mesilate (Mw 232) metilsulfate (Mw 249), iodide (Mw 264), Renal excretion (85% in urine 24hrs after bolus dose)VD = 0.6 L/kgT ½a = 4.2 minsT ½b = 75 mins (Some papers suggest that PK is altered in patients)
Wilson’s work in early 1950s [BBA 1955] Nicotinohydroxamic acid methiodide 2 pyridine aldoxime 2 pyridine aldoxime methiodide [2 pralidoxime methiodide, 2-PAM]
PralidoximePyridine-2-aldoximeQuarternary ammonium salt discovered by Wilson 1955Four salts: chloride (Mw 173), iodide (Mw 264), metilsulfate (Mw 249), mesilate (Mw 232)Renal excretion (85% in urine 24hrs after bolus dose)VD = 0.6 L/kgT ½a = 4.2 minsT ½b = 75 mins (Some papers suggest that PK is altered in patients)
Effect of thiamine coadministration on pralidoxime PK • Josselson 1978 • Comparison of PAM chloride 5 mg/kg over 2 min alone vs • PAM chloride + constant infusion of thiamine 100 mg/hr
PralidoximeFirst used clinically by Namba in 1956Most textbooks now recommend a regimen of: 1g over 5-20 mins, repeated after 3-8 hrs. Commonly given for just 24 hrs.However, many Asian clinicians doubt its effectivenessThe World Health Organization responds that pralidoxime should be given.But what is the clinical trial evidence?
What is the clinical evidence for oximes use? 1 1991 Senanayake, Peradeniya, SL. Found no difference in OP poisoning fatality rate during 6 months when pralidoxime was available compared to a 6 month period when it was not available (when each patient received 1g q6h for 1 day). WHO response: “too low a dose”. But no trials to support this view.
What is the clinical evidence for oximes use? 2 1992 Samuel, Vellore, India. Compared 1g bolus pralidoxime with a 12g infusion over 4 days in 72 patients. Found non-significant increase in death and ventilation requirement in patients receiving the infusion. 1993 Cherian, Vellore, India. Compared 12g infusion over 3 days with placebo in 110 patients. Found significant increase in death, intermediate syndrome, and ventilation requirements in patients receiving pralidoxime WHO: uncertain methodology, no loading dose
1993 Cherian RCTCompared 12g PAM given over 3 days (estimated 3.7mg/kg for a 45kg patient) with saline placebo in 110 patients PAM increased mortality: AR 16/55 [29%] with PAM vs. 3/55 [5%] with placebo; Relative risk 5.3, 95% CI 1.7 to 17.3PAM increased requirement for ventilation: AR 36/55 [67%] with PAM vs. 22/55 [40%] with placebo; Relative risk 1.7, 95% CI 1.1 to 2.4
‘High dose’ PAM PK in RCT 2 from Vellore (0.16g/hr infusion without bolus in 50kg person)
Comparison of PAM and obidoxime Eyer 2003, Toxicol Rev 100 µMol
100 nMol paraoxon Eyer 2003, Toxicol Rev
There may also be differences between OPs in how they respond to oximes
Summary • Half-life of reaction 1 - Inhibition • - Milliseconds for both diMethyl and diEthyl OPs • Half-life of reaction 2 - Spontaneousreactivation • 1 hr for diMethyl • 30hrs for diEthyl • Half-life of reaction 2 - Ageing • 3hrs for diMethyl • 33hrs for diEthyl
Conclusions • Inhibition is very fast, reactivation much slower. • diMethyl OPs reactivate faster than diEthyl OPs. • But oximes speed up reactivation for both. • Ageing also occurs faster with diMethyl OPs – reactivation being no longer possible after 4 half-lives (12hrs) and severely limited after 1-2 half-lives (3-6hrs). • Ageing takes longer with diEthyl OPs – oximes may therefore work for up to 130hrs (5 days), and be very effective after 1 half-life (> 1 day).
Do we see any evidence of this variable response clinically?
Profenofos Prothiofos
Current view of OPs in relation to Rx Diethyl OPs - toxic but responsive to PAM Dimethyl OPs - less toxic but less responsive S-linked OPs - less toxic but not responsive Pralidoxime seems to work for some OPs, not for others
An RCT of high-dose pralidoxime in acute symptomatic organophosphorus pesticide self-poisoning Patients: all patients (>13yrs, not pregnant) with a history of OP self-poisoning and symptoms/ signs consistent with Dx. Outcome: vital status at discharge Power: to detect a reduction in all-cause mortality from 25% to 19%, 750 patients must be recruited to each arm of the study (1500 in total) Rx: - saline placebo bolus and infusion. - bolus of 2g pralidoxime chloride followed by an infusion of 500mg/hr for up to 7 days.
Variation between OPs might be the reason why earlier trials did not find benefit from pralidoxime
Another reason may be time to onset of poisoning • If the patient becomes severely ill SOON after ingestion, they may well lose consciousness and aspirate the pesticide, or stop breathing and suffer hypoxic brain damage, before hospital admission. • In this case, patients will die in hospital from aspiration pneumonia or hypoxic brain damage. • Provision of antidotes including pralidoxime will then be irrelevant.
Lancet 368: 2136 • A recent study carried out by S Pawar and colleagues in Baramati, Maharashtra, suggests that very high doses of pralidoxime iodide may benefit many patients with diEthyl and diMethyl OP poisoning who present early • RCT of 200 patients • All received 2g loading dose, then for 48hrs either 1g infused over 1 hr every 1 hr or 1g infused over 1 hr every 4 hrs followed by 1g every 4 hours until off ventilator
Results • Case fatality: 8% in control group 1% in high dose group • Ventilation: median time 10 hrs in control group median time 3 hrs in high dose group • Interestingly, seemed to work for both dimethoate (diMethyl OP) and chlorpyrifos (diEthyl OP). • The patients seem to have been moderately poisoned, with severely poisoned patients excluded. ? Valid for severely poisoned patients?
Different experiences of oxime use • Baramati – good effect – using PAM for all moderately ill cases • CMC Vellore – no clinical benefit/adverse effect – not using PAM anymore – yet excellent CFR in ICU (~8%) • Sri Lanka – little clinical benefit – using bolus doses of PAM – high CFR in ICU (~40%)
Different experiences of oxime use • Baramati – early presentation (median: 2hrs) – excellent supportive care – benefit for both diM and diE OPs • CMC Vellore – late presentation (median: 10-12hrs) – excellent supportive care – most patients have taken diM OPs • Sri Lanka – early presentation (median:3-4hrs) – very poor supportive care – biochemical effect only with diE OPs
Conclusions • The ideal regimen is likely to involve high doses and a bolus dose followed by an infusion However • the evidence base for pralidoxime use is weak • There is variable biochemical response to oximes by AChE inhibited by different OPs. • Some OPs may not respond at all • The time to presentation will affect whether pralidoxime is effective