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TTS 2005 Chemical risks in agriculture. Benoit Nemery, MD, PhD Occupational, Environmental & Insurance Medicine & Pneumology K.U.Leuven, Belgium ben.nemery@med.kuleuven.ac.be. Respiratory diseases in agriculture . Infectious micro-organisms Organic dusts (+ microbial products)
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TTS 2005Chemical risks in agriculture Benoit Nemery, MD, PhD Occupational, Environmental & Insurance Medicine & Pneumology K.U.Leuven, Belgium ben.nemery@med.kuleuven.ac.be
Respiratory diseases in agriculture • Infectious micro-organisms • Organic dusts (+ microbial products) • Inorganic dusts (silica, ...) • Chemicals
Literature Schenker M.B. (Chair) et al. American Thoracic Society: Respiratory Health Hazards in Agriculture. Am J Respir Crit Care Med, 1998, 158, S1-S76.
Chemical exposures in agriculture • Toxic gases • Biocides and pesticides • Fertilizers • Feed additives
Toxic gases • Combustion • Decomposition gases • Manure • Silo gases
+++ NH3, SO2 , HCl, R-CHO, ... ++ Cl2, CH3NCO, ... + O3, NO2, COCl2, ... solvents, anaesthetics C6H6, CHCl3, F3C-CHBrCl, ... lipid soluble Pleura Respiratory uptake of gases → irritation Water solubility rapid slow
Carbon monoxide (CO) all types of combustionwhen O2 supply < exhaust of gases • indoor burning of biomass, wood, charcoal, coal, kerosene, diesel, gas, … • fires, stoves, ovens, heaters, vehicles, engines, compressors, … + insufficient ventilation (indoor confined spaces) ! also NOx and particles
Decomposition gases • Storage & putrefaction of organic matter • Liquid manure (pigs, cattle) • Solid manure (poultry) • production of H2S, CH4, NH3, CO2, CO • accidental exposure (agitation + pumping of liquid manure, repairs) • chronic exposure in animal confinement buildings
Liquid manure storage • Hydrogen sulfide (H2S) • heavier than air • odour +++ (except > 150 ppm); irritant ++ • neurotoxicity (→ coma) • respiratory toxicity (→ lung oedema) • “dung lung” • + CH4, CO2, … → O2 depletion • asphyxia
Irritant gases • Ammonia (NH3) • highly water soluble and potent irritant • affects mainly eyes, nose, upper airways • exposure levels often exceed recommended TLV (25 ppm, 8 h), but no evidence that NH3 leads to excess symptoms or chronic airways disease • possible accidental exposure to high amounts when use of anhydrous ammonia (fertilizer)
Acute inhalation of NH3 Leduc et al. Thorax, 1992, 47, 755-7 Man, 28 y • explosion of tank in refrigeration plant (NH3) • acute: • corneal & dermal lesions • tracheobronchitis • respiratory insufficency • 12 y later: • severe airway obstruction • bronchiectases
Storage of forage/grain in silos • Open silo - Trench or bunker • Sealed silo Fermentation of silage • multiplying bacteria consume oxygen • generation of CO2 and organic acids • generation of nitrogen oxides plant nitrates → NO → NO2, … ! Rapid process (hours)
Irritant gases • Nitrogen dioxide (NO2) • Heavier than air • Invisible → yellowish → orange-brown • (Sweet smell) • Poorly water soluble • Poor warning properties (mild irritation) • Potent oxidant • May cause delayed lung injury (permeability lung oedema)
Douglas W.M., Hepper N.G.G., Colby T.V. Silo-Filler’s Disease. Mayo Clin Proc 1989, 64, 291-304
Silo-filler’s disease Upon entering recently filled silo • asphyxia • airway irritation • after 4-24 h: non-cardiogenic lung oedema - chemical pneumonitis (“silo filler’s disease”) • after 3-4 weeks: bronchiolitis obliterans (+ malaise, fever, … DD. Miliary TB)
Case • Man, 34 y, smoker • Worker in small company making printed circuits • Friday: cleaning galvanisation baths with concentrated HNO3(instead of diluted solution) • During work: mild irritation • At home: progressive cough and dyspnoea “I could not lay down” • During night: hospitalization in respiratory distress
Chemical exposures in agriculture • Toxic gases • Biocides and pesticides • Fertilizers • Feed additives
Biocides and pesticides • Disinfectants • Fumigants • Pesticides
Disinfectants • Bleach • Quaternary ammonium compounds • Chloramine T • Aldehydes (formaldehyde, glutaraldehyde, glyoxal) • airway irritation • allergic sensitization
Bleach • Bleach (HClO) or “Bleach tablets” + water ! Mixing incompatibilities • Bleach + acids → Cl2, HCl • Bleach + ammonia → chloramines NH2Cl, NHCl2, NCl3 • tracheo-bronchial irritation • chemical pneumonia • irritant-induced asthma
Repeated exposure to cleaning agents • Higher risk of asthma in female cleaners • Zock et al. SJWEH 2001, 27, 76-81: P.R. 1.7 • Karjalainen et al. ERJ 2002, 19, 90-5: R.R. 1.50 • Medina-Ramon et al. Thorax 2003, 58, 950-4: O.R. 1.46 • exposure to irritants and sprays ? • “hidden sensitizers”? • Quaternary ammonium compounds (disinfectants / preservatives) • Isothiazolinones (preservatives) • Ethanol amines (wax-removal agents) • d-limonene, terpenes (perfumes)
Quaternary Ammonium Compounds • In pig farmers with frequent exposure to QAC sprayed under high pressure, higher risk of • asthma-like symptoms • low lung function • atopic sensitization • bronchial hyperreactivity Preller et al. OEM 1995, 52, 654-660 Preller et al. ERJ 1996, 9, 1407-1413 Vogelzang et al. IAOEH 1997, 70, 327-333
Fumigation and pest treatment Treatment of soil, barn, greenhouse, … with highly toxic volatile compounds • methyl bromide (CH3Br) • hydrogen cyanide (HCN) & other cyanides • carbon disulfide (CS2) • ethylene oxide • acrolein • chloropicrin • zinc phosphide (Zn3P2) →H3P • asphyxia • respiratory irritation • neurotoxicity
Sulfurization Koksal N. et al. Apricot sulfurization: an occupation that induces an asthma-like syndrome in agricultural environments. Am J Ind Med 2003, 43, 447-453 • Malatya (Turkey) • 15 apricot farms, 69 workers (31 y) • 20-25 days in summer • Melting of S → SO2 in sulfurization chambers (8-10 h) • Repeated exposures for ~1 h to 100-700 ppm SO2 • Acute eye, nose and airway irritation (including wheezing in 6) • Acute decreases in FEV1 (-0.39 L, >20% in 10) and FVC (-0.16 L)
Pesticides • Substances intended for preventing, destroying, repelling, mitigating pests (“toxic by design”) • Target specificity: • Insecticides • Fungicides • Herbicides • Rodenticides • Acaricides • Nematocides • heterogeneous chemicals
Agricultural pesticides Occupational and para-occupational exposures • Mixing and loading • Application (tractor, airplane, backpack) • Field workers (harvesting, handling) • Bystanders (! children) • Residents • Misuse and accidental exposure • Spills (mass-poisoning) • Accidental ingestion • Suicide • Homicide
Agricultural pesticides • Most pesticides have low volatility • Inhalation exposure is generally low • Large size droplets ! Indoor spraying (greenhouses) • Most occupational exposure is by dermal route ! Protective clothing • In general: few serious and specific respiratory effects reported, even after spraying
Agricultural pesticides Hoppin J.A. et al. Chemical predictors of wheeze among farmer pesticide applicators in the Agricultural Health Study. Am J Respir Crit Care Med 2002, 165, 683-689 • Cohort of >20,000 pesticide applicators in Iowa & North Carolina • Questionnaire: 19% wheeze in past year • adjusted OR for wheeze for exposure to paraquat, three organophosphates (parathion OR=1.5), one thiocarbamate, atrazine • Significance?
Agricultural pesticides • In general: few serious and specific respiratory effects reported, even after spraying ! Acute intoxication (accident or suicide) with organophosphates or paraquat
Eddleston M. et al. Pesticide poisoning in the developing world - a minimum pesticides list. Lancet 2002, 360:1163-7. Chandigahr, India Sri Lanka 2 districts Ban of parathion Controlled availability Samoa Amman, Jordania
Organophosphates Parathion (E605, …), ... • Excellent penetration through skin & mucosae • inhibition of acetylcholinesterase • Diarrhoea, sweating, salivation, lachrymation, miosis, bronchospasm, bronchorrhoea (pulmonary oedema) • Muscle fibrillation→weakness → paralysis • CNS (anxiety, vertigo, tremor) → convulsions → coma • Delayed neurological effects possible
+ + N-CH3 CH3-N Paraquat 1,1’-dimethyl-4,4’-bipyridylium chloride • Contact herbicide • Water-soluble concentrates 100-200 g/L • (Gramoxone, Dextrone) • Granular formulations 25-80 g/kg • (Weedol, ...)
Paraquat • Local toxicity: skin, nails, eyes, nose • Systemic toxicity after • ingestion (accidental, suicidal) • dermal absorption • poor penetration through intact skin • absorption and (fatal) toxicity possible if • Prolonged skin contact (leaking spray equipment) • Skin damage • Contact with concentrated solution • no substantial uptake via inhalation (droplet size > 200 µm)
Paraquat • Systemic toxicity to various organs, especially lungs • Accumulation in lung tissue: active uptake in pneumocytes (via polyamine uptake system) • Oxidative stress
NADPH NADP+ NADPH reductase PQ++ PQ+. . . OH _ O2 O2 . NADP+ GSSG GSH Lipid peroxidation Vit.E, C Lipids Enzymes DNA Fe SOD H2O2 H2O CAT
Paraquat • Water-soluble concentrate: 100-200 g/L • < 20 mg PQ/kg: • Mild g-i symptoms • 20-40 mg PQ/kg: • Malaise, g-i symptoms • Renal failure • Pulmonary fibrosis→ death in 2-3 wks • > 40 mg PQ/kg (15 ml of 20% solution): • Multiorgan failure → death in <1 week
Paraquat Proudfoot et al. Lancet, 1979, 2, 330-332
Paraquat • Long-term effects of chronic paraquat exposure? • Schenker M.B. et al. Pulmonary function and exercise-associated changes with chronic low-level paraquat exposure. Am J Respir Crit Care Med, 2004, 170, 773-779 • Costa Rica • 338 plantation workers (banana, coffee, palm oil), 37 y • 66% paraquat handlers; index of cumulative exposure • slight increase in prevalence of chronic cough • no significant effect on spirometry and DLco • slight effect on gas exchange during maximal exercise (200 subjects < 40y) : SpO2>5% (pulse oximetry) associated with higher PQ index • Subtle long-term effect on lung parenchyma?
Thank youTeşekkür Ederim ben.nemery@med.kuleuven.ac.be