2,2,2-Tribromoethanol, often called just tribromoethanol, is a chemical compound with formulaBr3C−CH2OH. Its molecule can be described as that of ethanol, with the three hydrogen atoms in position 2 (on the methyl group) replaced by bromine. It is a white crystalline solid, soluble in water and other solvents, that absorbs strongly in the UV below 290 nm.[2]
Tribromoethanol is used in medicine and biology as an anesthetic, and has been available commercially for that purpose by the trade name Avertin. It was formerly used on humans[3] and is still often used on laboratory animals,[4] and to capture wild birds.[5]
It is also used in plastics industry as a polymerizationinitiator.[6][7]
Uses
Animal anesthetic
Tribromoethanol is often used to anesthetize laboratory animals, particularly rodents, before surgery.[4] As a solution in tert-amyl alcohol, it has the brand name Avertin.[8] The tert-amyl alcohol acts as a weak hypnotic, in addition to improving the solubility of the tribromoethanol. Administered intravenously, tribromoethanol (Avertin) causes rapid and deep anesthesia followed by rapid and full postoperative recovery in small mammals.[9] Recently its safety for this purpose has been questioned.[10]
Wildlife capture
Tribromoethanol has also been long used as spiked grain bait to capture wild turkeys for research and wildlife management purposes.[5] However, the birds learn to avoid it, for over a year, after a single exposure, and will drive other flock members away from the bait when they detect it.[11]
Human anesthetic
In the first half of the 20th century, Avertin was also used in humans as a general anesthetic or basal narcotic to induce unconsciousness prior to the administration of other anesthetic agents. It was administered rectally as a retention enema or by intravenous injection. Its rectal use was particularly favored for pediatrics, head or neck surgery, or in mentally unstable or anxious patients.[3]Electrophysiology studies showed that tribromoethanol acts as a positive allosteric modulator of the inhibitory GABAA and glycine receptors, a mechanism similar to that seen with the related compound 2,2,2-trichloroethanol.[12]Bromal hydrate (2,2,2-tribromoethanol-1,1-diol), a compound also recognized to produce general anesthesia in animals, is metabolized to tribromoethanol.[13]
^Weiss J, Zimmermann F (April 1999). "Tribromoethanol (Avertin) as an anaesthetic in mice". Laboratory Animals. 33 (2): 192–193. doi:10.1258/002367799780578417. PMID10780824.
^Robert E. Meyer and Richard E. Fish (2005) "A review of tribromoethanol anesthesia for production of genetically engineered mice and rats". Lab Animal, volume 34, pages 47–52. Meyer RE, Fish RE (November 2005). "A review of tribromoethanol anesthesia for production of genetically engineered mice and rats". Lab Animal. 34 (10): 47–52. doi:10.1038/laban1105-47. PMID16261153. S2CID21759580.
^Davis JR, Guynn Jr DC, Hyder BD (October 1994). "Feasibility of Using Tribromoethanol to Recapture Wild Turkeys". Wildlife Society Bulletin. 22 (3): 496–500. JSTOR3783394.