Eflornithine

Eflornithine, sold under the brand name Vaniqa among others, is a medication used to treat African trypanosomiasis (sleeping sickness) and excessive hair growth on the face in women. Specifically it is used for the 2nd stage of sleeping sickness caused by T. b. gambiense and may be used with nifurtimox. It is used by injection or applied to the skin.Chagas disease: nitroimidazole (Benznidazole#)Pentavalent antimonials (Meglumine antimoniate#, Sodium stibogluconate) Eflornithine, sold under the brand name Vaniqa among others, is a medication used to treat African trypanosomiasis (sleeping sickness) and excessive hair growth on the face in women. Specifically it is used for the 2nd stage of sleeping sickness caused by T. b. gambiense and may be used with nifurtimox. It is used by injection or applied to the skin. Common side effects when applied as a cream include rash, redness, and burning. Side effects of the injectable form include bone marrow suppression, vomiting, and seizures. It is unclear if it is safe to use during pregnancy or breastfeeding. It is recommended typically for children over the age of 12. Eflornithine was developed in the 1970s and came into medical use in 1990. It is on the World Health Organization's List of Essential Medicines, the most effective and safe medicines needed in a health system. There is no generic version as of 2015 in the United States. In the United States the injectable form can be obtained from the Centers for Disease Control and Prevention. In the 1990s the cost of a course of treatment in Africa was US$210. In regions of the world where the disease is common eflornithine is provided for free by the World Health Organization. Sleeping sickness, or trypanosomiasis, is treated with pentamidine or suramin (depending on subspecies of parasite) delivered by intramuscular injection in the first phase of the disease, and with melarsoprol and eflornithine intravenous injection in the second phase of the disease. Efornithine is commonly given in combination with nifurtimox, which reduces the treatment time to 7 days of eflornithine infusions plus 10 days of oral nifurtimox tablets. Eflornithine is also effective in combination with other drugs, such as melarsoprol and nifurtimox. A study in 2005 compared the safety of eflornithine alone to melarsoprol and found eflornithine to be more effective and safe in treating second-stage sleeping sickness Trypanosoma brucei gambiense. Eflornithine is not effective in the treatment of Trypanosoma brucei rhodesiense due to the parasite's low sensitivity to the drug. Instead, melarsoprol is used to treat Trypanosoma brucei rhodesiense. Another randomized control trial in Uganda compared the efficacy of various combinations of these drugs and found that the nifurtimox-eflornithine combination was the most promising first-line theory regimen. A randomized control trial was conducted in Congo, Côte d'Ivoire, the Democratic Republic of the Congo, and Uganda to determine if a 7-day intravenous regimen was as efficient as the standard 14-day regimen for new and relapsing cases. The results showed that the shortened regimen was efficacious in relapse cases, but was inferior to the standard regimen for new cases of the disease. Nifurtimox-eflornithine combination treatment (NECT) is an effective regimen for the treatment of second stage gambiense African trypanosomiasis. After its introduction to the market in the 1980s, eflornithine has replaced melarsoprol as the first line medication against Human African trypanosomiasis (HAT) due to its reduced toxicity to the host. Trypanosoma brucei resistant to eflornithine was reported as early as the mid-1980s. The gene TbAAT6, conserved in the genome of Trypanosomes, is believed to be responsible for the transmembrane transporter that brings eflornithine into the cell. The loss of this gene due to specific mutations causes resistance to eflornithine in several trypanosomes. If eflornithine is prescribed to a patient with Human African trypanosomiasis caused by a trypanosome that contains a mutated or ineffective TbAAT6 gene, then the medication will be ineffective against the disease. Resistance to eflornithine has increased the use of melarsoprol despite its toxicity, which has been linked to the deaths of 5% of recipient HAT patients.