In the fall of 2024, the ABC News program 20/20 aired a segment about non stick coatings. For years, bird owners have tried to enlighten the public, as well as new or doubting bird owners, about the hazards non stick coatings can pose to our companion birds. The 20/20 segment did much to bring to light a real and present danger ignored by many because of the convenience which products surfaced with, or containing, non stick coatings provide.

The first case of human suffering from polytetrafluoroethylene problems was reported in 1951. In humans, polytetrafluoroethylene produces flu like symptoms and is called "polymer fume fever," and is rarely fatal. For birds, contact with PTFE fumes can often prove fatal, occurring within as little as 5 minutes of exposure to the fumes.

Non stick begins to emit fumes as soon as it is heated. It was thought at one time that PTFE became dangerous only when over heated. It is now reported that temperatures as low as 285 degrees F can release PTFE fumes which can prove dangerous and fatal to our birds. In the case of cookware, a pan does not have to be burnt to emit PTFE fumes, or to become dangerous to our birds. If we are lucky enough that our birds are not effected immediately, the fumes emitted into the air linger indeterminably and they do circulate. If you have multiple birds residing in your home, the fumes may not effect all the birds, effect them all at the same time. The toxic fumes become airborne and travel on air currants in the house. The air currant containing the toxic fumes can by-pass one bird and come in contact with another; the fumes acting similarly to the way smoke would when it becomes air borne.

One well known manufacturor of polytetrafluoroethylene claims that its coating remains intact at 500 degrees F and that it takes only 5 minutes for one of their pans coated in non stick surfacing to reach a 736 degrees F. It takes only 3 minutes and 20 seconds for competitive brands of non stick coating to reach the same temperature. Researchers at the U of Missouri documented the death of 1,000 chicken chicks at 396 degrees F, exposed to the "offgas"; gases emitted by nonstick coated heat lamps. The boiling point of water is 212 degrees F at sea level, lower than the point where PTFE fumes begin to emit into the air. Foods that are fried should be fried at 350 to 360 degrees F.

ALTERNATIVES

Read product labels carefully to unsure that a product does not contain non stick coating. If a warning label is not available, or you are unsure about a product's makeup, even after reading a label, don't hesitate to contact the product manufacturor to ask if their product contains non stick coating.

There is alternative cook and bakeware you can use that does not contain non stick coating. With proper curing and everyday care, stainless steel, cast iron, enamel, and hard anodized cookware are as easy to clean and use, and usually last longer than cook and bakeware with non stick surfaces. Non stick surfaces begin to break down immediately under normal use. It does not have to be overheated or scratched to begin to break down, emitting fumes and particles. Again, once the breakdown of PTFE has begun, it is unclear how long PTFE remains in the air.

The FDA requires that bulbs be given a non stick coating as a shatter shield when bulbs are used around food. If you plan to use a light to help warm a brooder, or keep a sick bird warm, read the box and any labels to ensure a non stick coating has not been used. If the box or label does not say it has a special or non stick coating, check the bulb itself. Non stick coated bulbs usually have a bubbly or cloudy surface.

REMEMBER!-Non stick coatings and surfaces are made by many different companies and manufacturors, under many different brand names. You need to be alert when purchasing products that contain the words: non stick, PTFE, and polytetrafluoroethylene. Do not rely on just a manufacturor or brand name.

Veterinary References Confirm the Dangers of Overheated Teflon

Blandford TB, Seamon PJ, Hughes R, Pattison M, Wilderspin MP. "A case of polytetrafluoroethylene poisoning in cockatiels accompanied by polymer fume fever in the owner." Veterinary Record, 1975, V.96, No. 8, p.175-176.

Duff P. "Acute inhalant toxicosis of cagebirds." Veterinary Record, 1997, V. 141, No. 4, p. 107.

Ehrsam H. ["Fatal poisoning of small pet birds following accidental overheating of cooking pans lined with polytetrafluorethylene."] Schweiz Arch Tierheilkd (Switzerland), 1969, V. 111, No. 4, p. 181-186.

Forbes NA, Jones D. "PTFE toxicity in birds." Veterinary Record, 1997, V. 140, N. 19, p. 512.

Holt PE. "PTFE (polytetrafluoroethylene) toxicity in birds." Veterinary Record, 1997, V. 141, No. 7, p. 180.

Lumeij JT. ["Risk for pet birds following exposure to burn products of pans coated with PTEF and butter."] Tijdschr Diergeneeskd (Netherlands), 1997, Vol. 122, No. 24, p. 720.

Stoltz JH, Galey F, Johnson B. "Sudden death in ten psittacine birds associated with the operation of a self-cleaning oven." Veterinary and Human Toxicology, 1992, Vol. 34, No. 5, p. 420-421.

Temple WA, Edwards IR, Bell SJ. "Poly (polymer) fume fever - two fatal cases (cage birds)." New Zealand Veterinary Journal, 1985, Vol. 33, No. 3, p. 30.

Temple WA, Edwards IR, Bell SJ. "Poly fume fever - two fatal cases (poisoning of Psittaciformes by fumes from heated teflon saucepans)." Australian Veterinary Practitioner, 1985, Vol. 15, No. 2, p. 66.

Wells RE. "Fatal toxicosis in pet birds caused by an overheated cooking pan lined with polytetrafluoroethylene." Journal of the American Veterinary Medical Association, 1983, Vol. 182, No. 11, p. 1248-1250.

Wells RE, Slocombe RF, Trapp AL. "Acute toxicosis of budgerigars (Melopsittacus undulatus) caused by pyrolysis products from heated polytetrafluoroethylene: clinical study." American Journal of Veterinary Research, 1982, Vol. 43, No. 7, p. 1238-1242.

Wells RE, Slocombe RF. "Acute toxicosis of budgerigars (Melopsittacus undulatus) caused by pyrolysis products from heated polytetrafluoroethylene: microscopic study." American Journal of Veterinary Medicine, Vol. 43, No. 7, p. 1243-1248.