Rifaximin is used to treat travelers' diarrhea (TD) caused by E. coli bacteria in adults and children at least 12 years of age. It treats travelers' diarrhea by stopping the growth of the bacteria that cause diarrhea. Rifaximin will not work to treat travelers' diarrhea that is bloody or occurs with fever.[6]
Irritable bowel syndrome
Rifaximin is used for the treatment of irritable bowel syndrome (IBS). It possesses anti-inflammatory and antibacterial properties, and is a nonabsorbable antibiotic that acts locally in the gut. These properties make it efficacious in relieving chronic functional symptoms of non-constipation type IBS.[7] It appears to retain its therapeutic properties for this indication, even after repeated courses.[8][9] It is particularly indicated where small intestine bacterial overgrowth is suspected of involvement in a person's IBS. Symptom relief or improvement can be obtained for global IBS symptoms, including: abdominal pain, flatulence, bloating, and stool consistency. A drawback is that repeated courses may be necessary for relapse of symptoms.[9][10]
Clostridioides difficile infection
Rifaximin may also be a useful addition to vancomycin when treating patients with relapsing C. difficile infection (CDI).[11][12] However, the quality of evidence of these studies was judged to be low.[13] Because exposure to rifamycins in the past may increase risk for resistance, rifaximin should be avoided in such cases.[14]
Hepatic encephalopathy
Rifaximin is used to prevent episodes of hepatic encephalopathy (changes in thinking, behavior, and personality caused by a build-up of toxins in the brain in people who have liver disease) in adults who have liver disease. It treats hepatic encephalopathy (HE) by stopping the growth of bacteria that produce toxins and that may worsen the liver disease. Although high-quality evidence is still lacking, it appears to be as effective as, or more effective than, other available treatments for hepatic encephalopathy (such as lactulose), is better tolerated, and may work faster.[10][15] It prevents reoccurring encephalopathy and is associated with high patient satisfaction. People are more compliant and satisfied to take this medication than any other due to minimal side effects, prolonged remission, and overall cost.[16] The drawbacks are increased cost, and lack of robust clinical trials for HE without combination lactulose therapy.[17]
Rifaximin has an excellent safety profile due to its lack of systemic absorption. Clinical trials did not show any serious adverse events while using the drug. There were no deaths while using it in the clinical trials.[8][9][25]
As rifaximin is not significantly absorbed from the gut, the great majority of these drug interactions are negligible in people with healthy liver function, so healthcare providers usually do not worry about drug interactions unless liver impairment is present.[8] It may decrease the effectiveness of warfarin, a commonly prescribed anticoagulant, in people with liver problems.[27]
Pharmacology
Rifaximin is a semisynthetic broad spectrum antibacterial drug, derived through chemical modification of the natural antibiotic rifamycin.[28] It has very low bioavailability due to its poor absorption after oral administration. Because of this local action within the gut and the lack of horizontal transfer of resistant genes, the development of bacterial resistance is rare, and most of the drug taken orally stays in the gastrointestinal tract where the infection takes place.[29]
Mechanism of action
Rifaximin interferes with transcription by binding to the β-subunit of bacterial RNA polymerase.[10] This results in the blockage of the translocation step that normally follows the formation of the first phosphodiester bond, which occurs in the transcription process.[30] This in turn results in a reduction of bacteria populations, including gas-producing bacteria, which may reduce mucosal inflammation, epithelial dysfunction, and visceral hypersensitivity. Rifaximin has broad spectrum antibacterial properties against both gram positive and gram negativeanaerobic and aerobic bacteria. As a result of bile acid solubility, its antibacterial action is limited mostly to the small intestine and less so the colon.[10] A resetting of the bacterial composition has also been suggested as a possible mechanism of action for relief of IBS symptoms.[31] Additionally, rifaximin may have a direct anti-inflammatory effect on gut mucosa via modulation of the pregnane X receptor.[31] Other mechanisms for its therapeutic properties include inhibition of bacterial translocation across the epithelial lining of the intestine, inhibition of adherence of bacteria to the epithelial cells, and a reduction in the expression of proinflammatory cytokines.[32]
Availability
In the United States, Salix Pharmaceuticals holds a US Patent for rifaximin and markets the drug under the name Xifaxan.[33] In addition to receiving FDA approval for travelers' diarrhea and (marketing approved for)[34] hepatic encephalopathy, rifaximin received FDA approval for IBS in May 2015.[35] No generic formulation is available in the US and none has appeared due to the fact that the FDA approval process was ongoing. If rifaximin receives full FDA approval for hepatic encephalopathy it is likely that Salix will maintain marketing exclusivity and be protected from generic formulations until 24 March 2017.[34] In 2018, a patent dispute with Teva was settled which delayed a generic in the United States, with the patent set to expire in 2029.[36]
Rifaximin is approved in 33 countries for GI disorders.[37] On 13 August 2013, Health Canada issued a Notice of Compliance to Salix Pharmaceuticals Inc. for the drug product Zaxine.[38] In India, it is available under the brand names Ciboz and Xifapill.[39][40] In Russia and Ukraine the drug is sold under the name Alfa Normix (Альфа Нормикс), and under the name Flonorm in Mexico, produced by Alfa Wassermann S.p.A. (Italy).[41] In 2018, the FDA approved a similar drug by Cosmos Pharmaceuticals called Aemcolo for traveler's diarrhea.[42]
^Kane JS, Ford AC (2016). "Rifaximin for the treatment of diarrhea-predominant irritable bowel syndrome". Expert Review of Gastroenterology & Hepatology. 10 (4): 431–442. doi:10.1586/17474124.2016.1140571. PMID26753693. S2CID13607138.
^ abcPonziani FR, Pecere S, Lopetuso L, Scaldaferri F, Cammarota G, Gasbarrini A (July 2016). "Rifaximin for the treatment of irritable bowel syndrome - a drug safety evaluation". Expert Opinion on Drug Safety. 15 (7): 983–991. doi:10.1080/14740338.2016.1186639. PMID27149541. S2CID25426888.
^Bianchi M, Festa V, Moretti A, Ciaco A, Mangone M, Tornatore V, et al. (April 2011). "Meta-analysis: long-term therapy with rifaximin in the management of uncomplicated diverticular disease". Alimentary Pharmacology & Therapeutics. 33 (8): 902–910. doi:10.1111/j.1365-2036.2011.04606.x. PMID21366632.
^Triantafyllou K, Sioulas AD, Giamarellos-Bourboulis EJ (2015). "Rifaximin: The Revolutionary Antibiotic Approach for Irritable Bowel Syndrome". Mini Reviews in Medicinal Chemistry. 16 (3): 186–192. doi:10.2174/1389557515666150722105340. PMID26202193.
^Weinstock LB, Steinhoff M (May 2013). "Rosacea and small intestinal bacterial overgrowth: prevalence and response to rifaximin". Journal of the American Academy of Dermatology. 68 (5): 875–876. doi:10.1016/j.jaad.2012.11.038. PMID23602178.
^Hoffman JT, Hartig C, Sonbol E, Lang M (May 2011). "Probable interaction between warfarin and rifaximin in a patient treated for small intestine bacterial overgrowth". The Annals of Pharmacotherapy. 45 (5): e25. doi:10.1345/aph.1P578. PMID21505109. S2CID12214785.
^"Summary Basis of Decision (SBD): Zaxine". Government of Canada, Health Canada, Health Products and Food Branch, Therapeutic Products Directorate, Bureau of Gastroenterology Infection and Viral Diseases. 2013.
^"Brands". Zydus Healthcare Limited. Retrieved 28 June 2022.
^"Trade Marks Journal"(PDF). The Government of India, Trade Mark Registry. 20 March 2017.