成人VR视频

Subscribe to the OSS Weekly Newsletter!

Antimony: a metallic cleanse of the Middle Ages

Picture this. You swallow a little pill, wait until it irritates your intestines enough to expel its contents and then hunt through the expelled excrement to retrieve the pill. Why? So you can use it next time to get rid of the bad humours in your body that are making you sick. How can a pill survive passage through the digestive tract? It can, if it is made of metal, in this case, antimony.

Picture this. You swallow a little pill, wait until it irritates your intestines enough to expel its contents and then hunt through the expelled excrement to retrieve the pill. Why? So you can use it next time to get rid of the bad humours in your body that are making you sick. How can a pill survive passage through the digestive tract? It can, if it is made of metal, in this case, antimony. Now, don鈥檛 go asking the pharmacist for antimony pills. The scenario just described isn鈥檛 current, it was plucked out of the Middle Ages when the cure for disease was to expel 鈥渂ad humours鈥 from the body. Actually, that was not unlike the current craze of expelling unnamed toxins from the body with a variety of 鈥渃leanses,鈥 many of which have a laxative effect.

Hopefully nobody today would be silly enough to use antimony or its compounds, because here we are talking about real toxicity. Of course they didn鈥檛 realize that in the Middle Ages; all they knew was that antimony was pretty good at evacuating the body. And not only through the rear portals. One method involved drinking wine that had been left standing overnight in a cup made of antimony. This resulted in the antimony reacting with tartaric acid in the wine to form antimony tartrate, a compound that induces vomiting. The idea of purging the body to treat illness persisted into the late stages of the 18th听century. When Mozart came down with a mysterious illness, he was treated with 鈥渢artar emetic,鈥 as antimony tartrate was commonly called. What ailment he suffered from isn鈥檛 clear, but he died within two weeks. His symptoms of intense vomiting, fever, swollen abdomen and swollen limbs are consistent with antimony poisoning. Of course, we cannot prove that antimony was responsible for Mozart鈥檚 death, he also suffered from rheumatic fever since childhood, a condition that may have led to his demise at a young age.

Mozart had always been sickly and it is well known that he had been often treated with antimony compounds by his physicians and that he even dosed himself when he didn鈥檛 feel well. It is interesting that Mozart actually believed he was being poisoned, but not by himself. He thought his musical rival Antonio Salieri was trying to do him in. Although the famous movie 鈥淎madeus鈥 alludes to this possibility, historical facts do not corroborate the poisoning story. Contrary to the portrayal, Salieri did not confess at the end of his life to having tried to kill Mozart.

Back in the 1990s a volatile compound of antimony known as stibine (SbH3) was accused of being responsible for crib death. The theory was that it was produced from antimony oxide added as a flame retardant to polyvinylchloride sheets. A fungus found in mattresses supposedly made this conversion possible, at least under laboratory conditions. The theory has now been dismissed because neither the fungus, nor levels of antimony in babies鈥 blood could be correlated with crib death.

More recently Greenpeace created a stir with a booklet entitled 鈥淎 Little Story About The Monsters In Your Closet.鈥 What sort of 鈥渕onsters?鈥 The subtitle brings them out of the closet: 鈥淪tudy finds hazardous chemicals in children鈥檚 clothing.鈥 Yup, the monsters are chemicals. One that the Greenpeace study detected was antimony trioxide, present in all fabrics that have polyester as a component. No great surprise here since antimony trioxide is used as a catalyst in the production of polyester as well as a flame retardant. And it is true that antimony trioxide can be described as presenting a hazard. But hazard is not the same as risk.

Hazard is the innate potential of a substance to cause harm without taking into account extent or type of exposure. Inhalation of antimony compounds in an occupational setting can be a problem, and it is correct that antimony trioxide has been classified as 鈥渟uspected of causing cancer via inhalation.鈥 But this is not relevant for the trace amounts found in fabrics. Here the issue would be migration out of the fabric and subsequent absorption. This has been extensively investigated and the amounts that are encountered are well below the established migration limits. The same applies to the trace amounts that leach out of the polyester bottles that are widely used for water and other beverages. Concentrations are less than the 5 parts per billion safety limit.

Antimony does not occur in nature in its metallic form, so where did Middle Age physicians get it? Like most metals, antimony has to be smelted from its ore, in this case antimony sulfide, also known as stibnite, a substance that has been known for thousands of years. Jezebel, the Biblical temptress is said to have used it to darken her eyebrows and stibnite was the main ingredient in 鈥渒ohl鈥 used by ancient Egyptian women in a type of mascara. Exactly who figured out that heating antimony sulfide converts it to antimony oxide, which yields metallic antimony when fired with carbon, is unknown, but if you visit the Louvre, you can see a 5000 year old vase that is made of almost pure antimony.

Today, neither metallic antimony nor its compounds have a medical use, although up to the 1970s, antimony compounds were used to treat parasitic infections like schistosomiasis. These preparations did kill the parasites, but sometimes they also dispatched the patient. Up to the early twentieth century, tartar emetic was used as a remedy, albeit an ineffective one, for alcohol abuse. The New England Journal of Medicine once reported a case of a man whose wife tried to cure him of his alcoholic habit by secretly putting tartar emetic into his orange juice. The result was a trip to the hospital with chest pains and liver toxicity. Two years later the man reported complete abstinence from alcohol. Seems antimony had taught him a lesson.

Back to top