Animal lead poisoning

Animal lead poisoning (also known as avian plumbism, or avian saturnism for birds) is a veterinary condition and pathology caused by increased levels of the heavy metal lead in animal's body.

Lead interferes with a variety of body and natural processes.
It is toxic to many organs and tissues including the heart, bones, intestines, kidneys, and reproductive and nervous systems. It mainly affects the haematopoietic system. It also affects the sulfhydryl group containing enzymes and also thiol content of erythrocyte. It inhibits the enzyme delta amino levaminic acid dehydrogenase enzyme(ALA) which is present in the rbc.
It is therefore particularly toxic to young animals, mainly dogs and cattle.

As in humans, animal lead poisoning may be acute (from intense exposure of short duration) or chronic (from repeat low-level exposure over a prolonged period). Acute intoxication can quickly lead to death.

Prevalence

Lead is now a common environmental pollutant.[1] For the birds, a commons source is lead shot, eaten as grit.

Routes of exposure to lead poisoning

X-Ray of a swan showing pellets in its gizzard

Those routes include contaminated air, water, soil, and food, and also, for birds ingestion of grit (lead shots, lead bullets).ingestion of paints,materials that are left out from the factories like batteries etc.

Treatment

a chemical diagram of [CH2N(CH2CO2-)2]2 (shown in black) with the four O- tails binding a metal ion (shown in red).
EDTA, a chelating agent, binds a heavy metal, sequestering it.

For precious animals ;

The mainstays of treatment are removal from the source of lead and, for precious animals who have significantly high blood lead levels or who have symptoms of poisoning, chelation therapy with a chelating agent.

Wildlife and lead poisoning

A large tan bird of prey with dark brown neck feathers and a bare red head sits on a dead cow in a desert with dead grass and scrub
Critically endangered California condor can be poisoned when they eat carcasses of animals shot with lead pellets.

Lead, one of the leading causes of toxicity in waterfowl, has been known to cause die-offs of wild bird populations.[2] When hunters use lead shot, waterfowl such as ducks and other species (swan especially) can ingest the spent pellets later and be poisoned ; predators that eat these birds are also at risk.[3] Lead shot-related waterfowl poisonings were first documented in the US in the 1880s.[4] By 1919, the spent lead pellets from waterfowl hunting was positively identified as the source of waterfowl deaths.[5] Lead shot has been banned for hunting waterfowl in several countries,[4] including the US in 1991 and 1997 in Canada.[6] Other threats to wildlife include lead paint, sediment from lead mines and smelters, and lead weights from fishing lines.[6] Lead in some fishing gear has been banned in several countries.[4]

The critically endangered California condor has also been affected by lead poisoning. As scavengers, condors eat carcasses of game that have been shot but not retrieved, and with them the fragments from lead bullets; this increases their lead levels.[7] Among condors around the Grand Canyon, lead poisoning due to eating lead shot is the most frequently diagnosed cause of death.[7] In an effort to protect this species, in areas designated as the California condor's range the use of projectiles containing lead has been banned to hunt deer, wild pig, elk, pronghorn antelope, coyotes, ground squirrels, and other non-game wildlife.[8] Also, conservation programs exist which routinely capture condors, check their blood lead levels, and treat cases of poisoning.[7]

Farm animals

Cows and horses[9] as well as pet animals are also susceptible to the effects of lead toxicity.[2] Sources of lead exposure in pets can be the same as those that present health threats to humans sharing the environment, such as paint and blinds, and there is sometimes lead in toys made for pets.[2] Lead poisoning in a pet dog may indicate that children in the same household are at increased risk for elevated lead levels.[4]

See also

References

  1. Ragan, P.; Turner, T. (2009). "Working to prevent lead poisoning in children: getting the lead out". JAAPA 22 (7): 40–45. doi:10.1097/01720610-200907000-00010. PMID 19697571.
  2. 1 2 3 Lightfoot, T.; Yeager, J. (May 2008). "Pet bird toxicity and related environmental concerns". The veterinary clinics of North America. Exotic animal practice 11 (2): 229–259, vi. doi:10.1016/j.cvex.2008.01.006. ISSN 1094-9194. PMID 18406386.
  3. Ferreyra, H. R.; Romano, M.; Uhart, M. (Jul 2009). "Recent and chronic exposure of wild ducks to lead in human-modified wetlands in Santa Fe Province, Argentina". Journal of wildlife diseases 45 (3): 823–827. doi:10.7589/0090-3558-45.3.823. ISSN 0090-3558. PMID 19617495.
  4. 1 2 3 4 Pokras, M.; Kneeland, M. (Sep 2008). "Lead poisoning: using transdisciplinary approaches to solve an ancient problem". EcoHealth 5 (3): 379–385. doi:10.1007/s10393-008-0177-x. ISSN 1612-9202. PMID 19165554.
  5. Federal Cartridge Company Waterfowl and Steel Shot Guide. Volume I; 1988.
  6. 1 2 Degernes, L. (May 2008). "Waterfowl toxicology: a review". The veterinary clinics of North America. Exotic animal practice 11 (2): 283–300, vi. doi:10.1016/j.cvex.2007.12.001. ISSN 1094-9194. PMID 18406388.
  7. 1 2 3 Green, E.; Hunt, G.; Parish, N.; Newton, I. (2008). Pizzari, Tom, ed. "Effectiveness of Action to Reduce Exposure of Free-Ranging California Condors in Arizona and Utah to Lead from Spent Ammunition". PLoS ONE (Free full text) 3 (12): e4022. Bibcode:2008PLoSO...3.4022G. doi:10.1371/journal.pone.0004022. PMC 2603582. PMID 19107211.
  8. "Get the Lead Out (Protecting the Condor)". California Department of Fish and Game. Archived from the original on 30 July 2009. Retrieved 2009-07-28.
  9. Neathery, M.; Miller, W. (1 December 1975). "Metabolism and toxicity of cadmium, mercury, and lead in animals: a review" (Free full text). Journal of Dairy Science 58 (12): 1767–1781. doi:10.3168/jds.S0022-0302(75)84785-0. ISSN 0022-0302. PMID 1107364.

Cited texts

  • Brunton, L.L.; Goodman, L.S.; Blumenthal, D.; Buxton, I.; Parker, K.L., ed. (2007). "Principles of toxicology". Goodman and Gilman's Manual of Pharmacology and Therapeutics. McGraw-Hill Professional. ISBN 0-07-144343-6. 
  • Casarett, LJ; Klaassen, CD; Doull, J, ed. (2007). "Toxic effects of metals". Casarett and Doull's Toxicology: The Basic Science of Poisons, 7th edition. McGraw-Hill Professional. ISBN 0-07-147051-4. 
  • Chisolm, J.J. (2004). "Lead poisoning". In Crocetti, M.; Barone, M.A.; Oski, F.A. Oski's Essential Pediatrics, 2nd edition. Lippincott Williams & Wilkins. ISBN 0-7817-3770-2. 
  • Grant, L.D. (2009). "Lead and compounds". In Lippmann, M. Environmental Toxicants: Human Exposures and Their Health Effects, 3rd edition. Wiley-Interscience. ISBN 0-471-79335-3. 
  • Kosnett, M.J. (2007). "Heavy metal intoxication and chelators". In Katzung, B.G. Basic and Clinical Pharmacology. McGraw-Hill Professional. ISBN 0-07-145153-6. 
  • Olson, K.R. (2007). "Poisoning". In McPhee, S.J.; Tierney, L.M.; Papadakis, M.A. Current Medical Diagnosis and Treatment, 46th edition. McGraw-Hill Professional. ISBN 0-07-147247-9. 
  • Rambousek, A.J., ed. (2008). "The symptoms and treatment of industrial poisoning". Industrial Poisoning from Fumes, Gases, and Poisons of Manufacturing Processes. READ BOOKS. ISBN 1-4086-7025-9. 
  • Salvato, J.A.; Nemerow, N.L.; Agardy, F.J., ed. (2003). "Noninfectious and noncommunicable diseases and conditions associated with the environment, including air, water, and food". Environmental Engineering, 5th edition. John Wiley and Sons. ISBN 0-471-41813-7. 
  • Yu, M.H. (2005). "Soil and water pollution: Environmental metals and metalloids". Environmental Toxicology: Biological and Health Effects of Pollutants. CRC Press. ISBN 1-56670-670-X. 

External links

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