Everything about Rifampin totally explained
Rifampicin (
INN) or
rifampin (
USAN) is a
bactericidal antibiotic drug of the
rifamycin group. It is a semisynthetic compound derived from
Amycolatopsis rifamycinica (formerly known as
Amycolatopsis mediterranei and
Streptomyces mediterranei). Rifampicin may be abbreviated
RIF,
RMP,
RD,
RA or
R. It is also known as rifaldazine, R/AMP, and Rofact (in Canada.) There are various types of rifamycins from which this is derived, but this particular form, with a
4-methyl-1-piperazinaminyl group, is by far the most clinically effective.
Indications
Rifampicin was introduced in 1967, as a major addition to the cocktail-drug treatment of tuberculosis and inactive meningitis, along with
isoniazid,
ethambutol, and
streptomycin. There is no generic form. It requires a prescription in industrial North America, but isn't a controlled substance. It must be administered regularly daily for several months without break otherwise the risk of drug-resistant tuberculosis is greatly increased.
Rifampicin is typically used to treat
Mycobacterium infections, including the aforementioned
tuberculosis and
leprosy; it also has a role in the treatment of methicillin-resistant
Staphylococcus aureus (
MRSA) in combination with
fusidic acid. It is used in prophylactic therapy against
Neisseria meningitidis (
meningococcal) infection. Further, it has been used with
Amphotericin B in largely unsuccessful attempts to treat
primary amoebic meningoencephalitis caused by
Naegleria fowleri.
It is also used to treat infection by
Listeria species,
Neisseria gonorrhoeae,
Haemophilus influenzae and
Legionella pneumophila. For these non-standard indications, sensitivity testing should be done (if possible) before starting rifampicin therapy. Rifampicin
resistance develops quickly during treatment and rifampicin monotherapy shouldn't be used to treat these infections — it should be used in combination with other antibiotics. With multidrug therapy (MDT) used as the standard treatment of
leprosy, rifampicin is always used in combination with
dapsone and
clofazimine.
Enterobacteriaceae,
Acinetobacter and
Pseudomonas species are intrinsically resistant to rifampicin.
Pharmacodynamics (mechanism of action)
Rifampicin inhibits DNA-dependent
RNA polymerase in bacterial cells by binding its beta-subunit, thus preventing transcription to
RNA and subsequent translation to proteins. Its lipophilic nature makes it a good candidate to treat the meningitis form of
tuberculosis, which requires distribution to the
central nervous system and penetration through the
blood-brain barrier.
Rifampin acts directly on messenger RNA synthesis. It inhibits only
prokaryotic DNA-primed
RNA polymerase, especially those that are
Gram-stain-positive, such as
Mycobacterium tuberculosis, which is slightly such. In fact, evidence shows that
in vitro DNA treated with concentrations 5000 times higher than normal dosage remained unaffected;
in vivo eukaryotic specimen's RNA and DNA polymerases suffered few problems as well. Much of these Gram-positive bacteria’s membrane is
mycolic acid complexed with
peptidoglycan which allows easy movement of the drug into the cell. Rifampicin interacts with the β subunit of RNA polymerase when it's in an α2β trimer. This halts
mRNA transcription, therefore preventing translation of
polypeptides. The Rifampin-RNA Polymerase complex is extremely stable and yet experiments have shown that this isn't due to any form of
covalent linkage. It is hypothesized that hydrogen bonds and π-π bond interactions between
naphthoquinone and the aromatic amino acids are the major stabilizers, though this requires the oxidation of
naphthohydroquinone which is found most commonly in Rifampin. It is this last hypothesis that explains the explosion of multi-drug-resistant bacteria: mutations in the
rpoB gene that replace
phenylalanine,
tryptophan, and
tyrosine with non-aromatic amino acids result in poor bonding between Rifampin and the RNA polymerase. In
molecular biology research,
plasmids containing Rifampicin (abbrev. Rif) resistant gene are often used for colony screening. Many plasmids containing Rif resistant genes are commercially available to researchers.
Adverse effects
Adverse effects are chiefly related to the drug's
hepatitis, and patients receiving rifampicin often undergo
liver function tests including
aspartate aminotransferase (AST). The dosage can't be given in amounts higher than 600mg (average for a healthy adult) or the patient risks serious liver damage due to Rifampin's
hepatotoxicity.
Not only is hepatotoxicity a problem, but Rifampin has a slew of adverse reactions when taken concurrently with other drugs]]. Rifampin is an effective liver enzyme-promoting chemical - consequently, these enzymes can easily
catabolize anticoagulants. Specifically, it's a potent inducer of
hepatic cytochrome P450 enzymes (such as
CYP2D6 and
CYP3A4) and will increase the metabolism of many other drugs that are cleared by the liver through this enzyme system. This results in numerous
drug interactions such as reduced efficacy of
hormonal contraception. There are other mechanisms that have been proposed.
The most common unwanted effects are fever, gastrointestinal disturbances, rashes and immunological reactions. Liver damage, associated with jaundice, has also been reported and in some rare cases has led to death.
Taking rifampicin can cause certain bodily fluids, such as urine and tears, to become orange-red in color, a benign but sometimes frightening side-effect. This may permanently stain soft contact lenses. It also may be excreted in breast milk, therefore breast feeding should be avoided.
Rifampicin is eliminated chiefly through the secretion of bile into the GI tract.
In short
- Hepatitis
- Respiratory syndrome- breathlessness'
- Cutaneous syndrome - flushing, pruritus+ rash, redness and watering of eyes.
- Flu syndrome - with chills,fever, headache, malaise and bone pain
- Abdominal syndrome - nausea, vomiting, abdominal cramps with or without diarrhoea
Pharmacokinetics
Orally administered Rifampin results in peak plasma concentrations in about 2 to 4 hours.
Aminosalicyclic acid may significantly reduce absorption of Rifampin, and peak concentrations may not be reached. If these two drugs must be used concurrently, they must be given separately with an interval of 8 to 12 hours between administrations.
Rifampin is easily absorbed from the
gastrointestinal tract and its
ester functional group is quickly
hydrolyzed in the
bile and catalyzed by a high pH and substrate-specific enzymes called
esterases. After about 6 hours, almost all of the drug is deacetylated. Even in this deacetylated form, Rifampin is still a potent antibiotic; however, it can no longer be reabsorbed by the intestines and it's subsequently eliminated from the body. Only about 7% of the administered drug will be excreted unchanged through the urine, though urinary elimination accounts for only about 30% of the dose of the drug that's excreted. About 60% to 65% is excreted through the feces.
The half-life of Rifampin ranges from 1.5 to 5 hours, though hepatic impairment will significantly increase it. Food consumption, on the other hand, inhibits absorption from the GI tract, and the drug is more quickly eliminated.
Distribution of the drug is high throughout the body, and reaches effective concentrations in many organs and body fluids, including the
CSF. This high distribution is the reason for the orange-red color of the saliva, tears, sweat, urine, and feces. About 60% to 90% of the drug is bound to plasma proteins.
Preparations
In Bulgaria it's marketed as Tubocin (by Actavis/Balkanpharma), in Israel as Rimactan (
Sandoz) and in Romania as Sinerdol (Sicomed). In the UK marketed as Rifadin (
Aventis), Rimactan (Sandoz), Rifater a combination with
isoniazid and
pyrazinamide (Aventis), Rifinah a combination with isoniazid (Aventis) and Rimactazid a combination with isoniazid (Sandoz). In the U.S. as Rifadin (Aventis), Rifater combination with isoniazid and pyrazinamide (Aventis), Rimactane (
Novartis).
Further Information
Get more info on 'Rifampin'.
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