Post on 11-Jan-2016
Oximes, atropine and diazepam in organophosphate and carbamate poisoning
Dr Martin Wilks, Syngenta Crop Protection AG, Basel, Switzerland
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Modes of action of the top-selling insecticides/acaricides and their world market share (Nauen, 2002)
Mode of action 1987 (%) 1999 (%) Change (%)
Acetylcholinesterase 71 51 -20
Voltage-gated Na channel 17 18 +1.4
Nicotinic receptor 1.5 12 +10
GABA-gated Cl channel 5.0 8.3 +3.3
Chitin biosynthesis 2.1 3.0 +0.9
Other 0.5 2.9 +2.4
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The scale of the problemThe scale of the problem
● Asia: est. 300,000 deaths /year from pesticide poisoning
● Est. 200,000 involve ingestion of OPs (and carbamates) (Eddleston and Phillips, 2004, BMJ 328: 32 – 44)
● Sri Lanka
- 17000 admissions
- 35% ICU
- 10% Die (20% of symptomatic)
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Outline
● Review the Mechanism
● Does the type of compound matter?
● Aspects of treatment
- Do they need Atropine?
- Do they need Decontamination?
- Do they need Oximes?
● Magnesium, Diazepam, Bicarbonate
● Lessons learned
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O(S)IIP - O - X
R1
R2
O IIR1 - NH - C - O - R2
Organophosphate Carbamate
R1,2 = alkyl or aryl groupsX = wide range of
branched or substituted groups
R1 = methyl, aromatic orbenzimidazol group
R2 = aromatic or aliphaticgroup
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Acetylcholinesterase and OP
Organophosphate
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Nicotinic, muscarinic and central syndrome
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Clinical Syndromes
● Acute Cholinergic:
- Central
- Peripheral Muscarinic
- Peripheral Nicotinic
● Intermediate Syndrome
● Delayed peripheral neuropathy
● Neurocognitive dysfunction
Respiratory failure
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Acute Cholinergic Syndrome
Severity AChE (RBC)
Muscarinic Nicotinic CNS
Mild > 40% nausea, vomiting, diarrhoea, salivation, bronchorrhoea and -constriction, bradycardia
headache, dizziness
Moderate 20 - 40% as above, + miosis, incontinence
fasciculations (fine muscles)
as above, + dysarthria, ataxia
Severe < 20% as above, + fasciculations (diaphragm, resp. muscles)
as above, + coma, convulsions
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Moat common OP pesticides used in self-poisoning in Sri Lanka
Eddleston M et al Differences between organophosphorus insecticides in human self-poisoning: a prospective cohort study. Lancet. 2005 Oct 22-28;366(9495):1452-9
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Chlorpyrifos Dimethoate Fenthion
Number of cases 440 266 100
WHO Toxicity II II II
Formulation 40% EC 40% EC 50% EC
Chemistry Diethyl Dimethyl Dimethyl
Rat oral LD50 (mg/kg)
WHO 135 150 Not Given
OSHA 97 250 215-245
Eddleston M et al Differences between organophosphorus insecticides in human self-poisoning: a prospective cohort study. Lancet. 2005 Oct 22-28;366(9495):1452-9
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Relative human toxicity of pesticides in self-poisoning
X symptomatic
X
X
X
Eddleston M et al Differences between organophosphorus insecticides in human self-poisoning: a prospective cohort study. Lancet. 2005 Oct 22-28;366(9495):1452-9
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Time to Death
●Early & late respiratory failure
●Hypotensive Shock (Dimethoate)
●Iatrogenic
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Chlorpyrifos poisoning
0 24 48 72 96ti -5,0
100
200
300
400
500
600
700AChE in vivo
AChE in vitro
Time [h]
mU
/µm
ol H
b
0 24 48 72 96ti -5,0#
500
1000
1500
2000
2500
3000
BChE
Time [h]
mU
/ml P
lasm
a
15
Fenthion poisoning
0 24 48 72 96ti -3,7
100
200
300
400
500
AChE in vivo
AChE in vitro
Time [h]
mU
/µm
ol H
b
0 24 48 72 96ti -3,7
500
1000
1500
2000
2500
3000
BChE
Time [h]
mU
/ml P
lasm
a
16
Dimethoate poisoning
0 24 48 72 96ti -2,2
100
200
300
400
500AChE in vivo
AChE in vitro
Time [h]
mU
/µm
ol H
b
0 24 48 72 96ti -2,2
500
1000
1500
2000
2500
3000
BChE
Time [h]m
U/m
l Pla
sma
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OPs are different
● Differing Toxicity
● Different Kinetics
● Different Clinical Syndromes
● Different Response to Antidotes
● ? Need Different Treatment Responses
Complicates Assessment of the Evidence
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Sequence of Medical Management
1. Basic Supportive Care
2. Does the patient need Atropine ?
- Poor air entry into the lungs due to bronchorrhoea and bronchospasm
- Bradycardia
- Excessive sweating
- Small pupils
- Hypotension.
3. Decontamination ?
4. Oximes?
5. Adjunctive Treatment ?
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Atropine – mechanism and endpoints
● Mechanism
- Blocks the muscarinic effects due to excess acetylcholine
- Competitive inhibitor
- Control of symptoms determines the dose by titration
● Endpoint
- Which cholinergic effect should be the endpoint?
- Pupil size?
- Secretions?
- Heart rate?
- Blood Pressure?
- Measurement of peripheral vascular resistance?
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Atropine Dose in Organophosphates
● Sri Lankan ventilated OP patients who survived require
- Mean initial dose of 23.4 mgs.
- Maximum initial dose of 75 mg
● 38 texts with 31 different recommendations
Eddleston M et al .Speed of initial atropinisation in significant
organophosphorus pesticide poisoning. J Tox Clin Tox 2004;42(6):865-75
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Range of times it would take to give adequate doses of atropine (23mg and 75 mg) following the expert advice from each text
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Scheme of atropinization (endpoints to be reached)
0 5 10 150
10
20
30
40
min after first atropinedose
2 4 8 16 Atropine requirement
Poor air entry into lungs caused bybronchospasm and bronchorrhoea
Excessive sweating
(Hypotension)
(Bradycardia)
(Miosis)
Atropinization
Clear lungs
Dry axillae
Systol. BP >80 mm HgHeart rate >80/minNo miosis
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Atropine
● Loading
- Doubling dose regime e.g. 2 4 8 16 mgs every 5 minutes
● Maintenance
- Continuous infusion < 3mg/hr
- 10-20% of loading dose/hour
● Endpoints
- Clear chest on auscultation with no wheeze
- Heart rate >80 beats/min
● Withdrawal
- Atropine toxicity
- Clinical Improvement
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Decontamination
● Don’t confuse creating mess with efficacy
● Decisions based on risk/benefit analysis
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Gastric emptying – what happens if you stop?
Case fatalityAnuradhapura Hospital
1998-2002
0
10
20
30
Cas
e fa
talit
y
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The results of observational data on gastric emptying (GE) in pesticide self-poisoning
Case fatalityAnuradhapura Hospital
in and not in RCT
GCS <14 GCS <100
25
50
75No GE (in trial)
GE (NIT)
Cas
e fa
tali
ty
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Eddleston M, et al (2008) Multiple-dose activated charcoal in acute self-poisoning: a randomised controlled trial. Lancet 371: 579 - 587
● 4632 patients recruited
● Overall death rate around 7%, pesticide death rate around 13%
- No significant difference between no AC, SDAC and MDAC
● Mortality did not differ between groups. Odds ratios:
- SDAC vs no AC 1.05 (95% CI: 0.79, 1.40)
- MDAC vs no AC 0.93 (95% CI: 0.69, 1.25)
- MDAC vs SDAC 0.89 (95% CI 0.66, 1.19)
● No difference in rates of ventilation for OP and Carb poisoned patients
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Therapy with Oximes: Basics
P O
RO
XCH3
P ORO
X
CH3 O EP O
RO
CH3
O E
P OCH3
O
O E
P O
OH
ROCH3
HON R
P O
RO
ON
R
CH3
+ EOH
+ H+
+ X -
H2O
Inhibition
+ H+R+ +
Aging
H2O
+EOH
Spontaneous reactivation
+EOH
Reactivation
Worek et al. Biochem Pharmacol. 2004
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AChE-Status in a Patient with Parathion Poisoning
Patient: A 45-year old, male
Emergency situation: Unconscious, severe signs and symptoms of cholinergic crisis. 1.5 mg of atropine, intubation and initiation of artificial ventilation.
Clinical course: 2 bolus doses of obidoxime together with an atropine infusion at the local hospital. Transfer to the ICU of Technical University, Munich. The patient recovered uneventfully.
0 25 50 75 1000
200
400
600
800
RBC-AChE in vivo
reactivatability
hours
act
ivity
(m
U/µ
mo
l Hb
)
0 25 50 75 1000
50
100
150
200
inhibitory activity
hours
pois
on
Eyer et al. Toxicol Rev. 2003
obidoxime
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Oximes
● Effective protocols not established
- Variation in use
- Zero – 24 grams a day
- Intermittent bolus vs continuous infusion
● Ineffective against some OPs
● Issues of availability/affordability
- Pralidoxime
- USA $600 / gram
- India $9 / gram
- Sri Lanka 55 cents / gram
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... but do they work?
● Buckley et al (2005) Cochrane Database Syst Rev, CD005085
- Two published RCTs, one abstract RCT
- Insufficient evidence whether oximes are harmful or beneficial
● Peter et al (2006) Crit Care Med 34: 502 – 510
- Two published RCTs, 5 controlled trials
- Oximes either ineffective or harmful
● Rahimi et al (2006) Human Exp Toxicol 25: 157 – 162
- Six clinical trials
- Oximes are not effective and can be dangerous
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New antidotes, new therapies?
• Protect AChE
• Cholinesterase inhibitors
• Supply AChE Sacrifice
• Synthetic and Natural (FFP)
• Reduce ACh Release
• Magnesium, Clonidine
• Protect Receptor
• Neuromuscular Blockers
• Reduce OP Load
• Increase Hydrolase capacity
• Multiple Mechanisms
• Altering Ph
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Magnesium
● Reduces acetylcholine release
- Blocks pre-synaptic calcium channels
- Central and Peripheral Nervous System
● Decrease toxicity in animal models
Pajoumand A et al (2004) Hum Exp Toxicol 23(12):565-9
● 16 gram continuous infusion MgSO4 for 24 hours
● Normal care (oximes and atropine) in both groups
- 0/11 patients died with magnesium
- 5/34 control patients
- Methodological issues
- pseudorandomisation
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Diazepam
● Routinely used in OP poisoning for treatment of agitated delirium and seizures
● Diazepam reduces respiratory failure (rats) and cognitive deficit (primates)
● Postulate “uncoordinated stimulation of the respiratory centres decreases phrenic nerve output”
● Role for peripheral benzodiazepine receptor?
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Diazepam
● Synergistic response with anticholinergics
- Dickson EW et al Diazepam inhibits organophosphate-induced central respiratory depression. Acad.Emerg.Med. 2003;10(12):1303-
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Organophosphates and pH
● Organophosphate Hydrolase is pH sensitive.
● Binding of pralidoxime is pH sensitive.
● Acetylcholinesterase
● Aging of OP-AChe complex and reactivation.
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Comparative efficacy of i.v. pralidoxime vs. NaHCO3 in rats lethally poisoned with OP insecticide (A Wong, Brazil)
● 5 Groups of 10 rats
a) DDVP only (no treatment) 0/10
b) Atropine (17 mg/kg) alone 3/10
c) Atropine + pralidoxime (1 g/kg) 4/10
d) Atropine + NaHCO3 (3 meq/kg) 9/10
e) Atropine + NaCl 0.9% (1.9 ml/kg) 5/10
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Comparative efficacy of i.v. pralidoxime vs. NaHCO3 in rats lethally poisoned with OP insecticide (A Wong, Brazil)
D.D.V.P. Atropine Atrop. +Oxime
Atrop. +Bicarb.
Atrop. +NaCl
0309.43 462.17
7012.12
2611.17
010002000300040005000600070008000
p<0.001 D~B and D~Cp<0.01 D~E
N = 10 rats in each group
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Balali Mood M. Effect of High Doses of Sodium Bicarbonate in Acute Organophosphorous Pesticide Poisoning. Clinical Toxicology, 43:571 574, 2005
● RCT N=30
● NaHCO3 pH 7.45-7.55
- 5 mEq/Kg over 60 minutes
- 5-6 mEq/Kg over 24 hours
● Length of hospital stay
- Controls5.59 ± 1.97
- Treatment 4.33 ± 1.99
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Some lessons from clinical research
● Influence of Initial Care on Mortality
- Risk of decontamination
● Predictors of Mortality
- Pesticide type & Clinical Status
● Use Atropine Aggressively but Titrate
- The doubling protocol
● Reasons for Oxime Failure
- Chemical and Kinetic
- Implications for where, how and what treatment is delivered
● More Large-Scale Randomised Controlled Trials Are Needed, and They Will Be Coming from Sri Lanka
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Special thanks to
Andrew DawsonMichael EddlestonHorst Thiermann
for helpful discussion, permission to use their slides, and many shared drinks