Title: Paraquat Presented by Jason Kujawa CHEM 471
1ParaquatPresented byJason Kujawa CHEM 471
2Outline Discovery Use Chemical Properties Environm
ental Effects Toxicity Exposure Toxicity Tests
Neonatal Toxicity Tests Mechanism of
Action Treatment
3 Discovery -first synthesized in 1882.
-herbicidal properties discovered in 1955.
-first commercially used as herbicide in 1961.
4 Use -kills broad-leaved weeds and grasses.
-weed control in orchards. -desiccant
for pineapples, sugar cane, and sunflowers.
-used by ATF for large scale destruction of
marijuana.
5 Chemical Properties -IUPAC name is
1,1-dimethyl-4-4-bipyridium. -belongs to the
bipyridylium herbicide class. -highly water
soluble and highly polar. -stable to light
and heat, but inactivated on contact with soil.
6 Environmental Effects -binds tightly to
clay in soil and renders paraquat inactive.
-no long term build-up in soil. -lethal to
wildlife especially aquatic species.
7 Toxicity Exposure -usually ingested by
accident and through dermal contact with weed
application. Dose -dose of lt20 mg/kg results
in vomiting and diarrhea. -dose of 20-50 mg/kg
results in pharyngeal burns, vomiting, diarrhea,
acute kidney and liver insufficiency, and
necrosis of the liver. -dosegt50 mg/kg results
in death in 72 hours because of multiple organ
failure. -LD50 for humans is 30 mg/kg or
equivalent to a few ml. of concentrated paraquat.
8 Toxicity Tests -acute toxicity tests
within 10 to 14 days reveal impaired breathing.
-the lungs selectively accumulate paraquat and
contain the highest concentrations.
-paraquat causes destruction of type I and type
II alveolar epithelial cells. -no chronic
toxicity tests because death occurs up to 30 days
after ingestion. -neonatal toxicity tests
with European starlings reveal considerately
higher levels of paraquat than those of
the adult species.
9 Mechanism of Action -mechanism not fully
understood. -hypothesized mechanism of
action is phase I through oxidation and
reduction reactions accompanied by phase I
oxidation of NADPH and NADP. -formation of
superoxide ions, hydrogen peroxide, and hydroxyl
radicals. -lipids of cellular membranes
peroxidized and cellular death results.
-no phase II biotransformation processes occur
for paraquat.
10 Treatment -no
treatment of paraquat poisoning.
-prevent further GI absorption of paraquat by
inducing gastric lavage and
administering activated charcoal with magnesium
citrate to absorb paraquat.
-oxygen therapy avoided because
increasing oxygen level is believed to
increase phase I oxidation and cause higher
toxicity.
11 References
1. Pesticides News. No.32 (1996, June).
Pesticides News
Homepage of Pesticides News, Online.
Available
http//pan-uk.org/pestnews/actives/paraquat.htm
2. Viccelio, Peter, 1993.
Handbook of Medical Toxicology.
Little, Brown, and Company, New York.
pgs. 315-316 3.
Ashton, F.M., Crafts, A.S. 1973. Mode of Action
of Herbicides. John
Wiley Sons, Inc., New York. pg. 185
4. Klassen, C.D. 1996/2001.
Casarett and Doulls Toxicology
The basic science of poisons (CD).
5th/6th Edition. McGraw-Hill,
New York. pgs.130, 674.
5. Haley, T.J., Berndt, W.O. 1987.
Toxicology. Hempshire,
Washington. pgs. 147-149, 609.
6. Hoffman, D.J., Rattner, B.A., Burton,
G.A., Cairns, J. 199 5/2001.
Handbook of Ecotoxicology. Lewis, Boca
Raton. pg.55.