Rifampin combinations

Rifampin combined with a second agent is used to eradicate staphylococcal carriage. Rifampin combination therapy is also indicated for treatment of serious staphylococcal infections such as osteomyelitis and prosthetic valve endocarditis. 

Isoniazid (INH), rifampin, pyrazinamide, ethambutol, and streptomycin are the five first-line agents for treatment of tuberculosis (Table 47-1). Isoniazid and rifampin are the two most active drugs. An isoniazid-rifampin combination administered for 9 months will cure 95-98% of cases of tuberculosis caused by susceptible strains. The addition of pyrazinamide to an isoniazid-rifampin combination for the first 2 months allows the total duration of therapy to be reduced to 6 months without loss of efficacy (Table 47-2). In practice, therapy is initiated with a four-drug regimen of isoniazid, rifampin, pyrazinamide, and either ethambutol or streptomycin until susceptibility of the clinical isolate has been determined. Neither ethambutol nor streptomycin adds substantially to the overall activity of the regimen (ie, the duration of treatment cannot be further reduced if either drug is used), but they do provide additional coverage should the isolate prove to be resistant to isoniazid, rifampin, or both. Unfortunately, such resistance occurs in up to 10% of cases in the United States. Most patients with tuberculosis can be treated entirely as outpatients, with... 

Rifampin is used in a variety of other clinical situations. An oral dosage of 600 mg twice daily for 2 days can eliminate meningococcal carriage. Rifampin, 20 mg/kg/d for 4 days, is used as prophylaxis in contacts of children with Haemophilus influenzae type b disease. Rifampin combined with a second agent is used to eradicate staphylococcal carriage. Rifampin combination therapy is also indicated for treatment of serious staphylococcal infections such as osteomyelitis and prosthetic valve endocarditis. Rifampin has been recommended also for use in combination with ceftriaxone or vancomycin in treatment of meningitis caused by highly penicillin-resistant strains of pneumococci. 

A combination of amphotericin B, miconazole (16), and rifampin (17) was used to successfully cure one patient. In addition, tetracycline (7) and minocycline (18) have been recommended although their clinical efficacy have not been estabUshed. No proven therapeutic agents exist for treating A.catbamoeba infections, however, the phenothiazines, trifluoperazine [117-89-5] and chlorpromazine [50-53-3], show promise in vitro. 

Empirical therapy for postoperative infections in neurosurgical patients (including patients with CSF shunts) should include vancomycin in combination with either cefepime, ceftazidime, or meropenem. Linezolid has been reported to reach adequate CSF concentrations and resolve cases of meningitis refractory to vancomycin.35 However, data with linezolid are limited. The addition of rifampin should be considered for treatment of shunt infections. When culture and sensitivity data are available, pathogen-directed antibiotic therapy should be administered. Removal of infected devices is desirable aggressive antibiotic therapy (including high-dose intravenous antibiotic therapy plus intraventricular vancomycin and/or tobramycin) may be effective for patients in whom hardware removal is not possible.36... 

It is important to determine (1) whether the isolate is methicillin-susceptible or methicillin-resistant and (2) whether the patient has a prosthetic valve. For patients with no prosthetic material, methicillin-susceptible staphylococci treatment should consist of a penicillinase-resistant penicillin (e.g., nafcillin or oxacillin) with or without gentamicin, and for methicillin-resistant strains, therapy should consist of vancomycin (see Table 71-4). Combination therapy with aminoglycosides, when used in these patients, typically is given only during the first 3 to 5 days of therapy. In the absence of prosthetic material, some treatment guidelines do not recommend combination therapy against MRSA. However, many clinicians may combine either gentamicin or rifampin with vancomycin if the patient is unresponsive to monotherapy. 

Ketoconazole (a potent inhibitor of CYP3A4) has been shown to increase the oral bioavailability of cyclosporin from 22 to 56% [50]. This consisted of a 1.8-fold decrease in systemic clearance combined with a 4.9-fold decrease in oral clearance. The authors estimated that hepatic extraction was decreased only 1.15-fold, whereas the oral bioavailability increased 2.6-fold and the observation was attributed to decreased intestinal metabolism. Erythromycin was also shown to increase the oral bioavailability of cyclosporin A 1.7-fold, while pre-treatment with rifampin (an inducer of CYP3A4) decreased oral bioavailability of cyclosporin from 27% to 10% due to a 4.2-fold increase in oral clearance but only a 1.2-fold increase in systemic clearance. Floren et al. [51] have also shown that ketoconazole can double the oral bioavailability of tacrolimus in man by inhibiting gut wall CYP3A4. 

The answer is c. (Hardman, pp 1161-1162.) An important problem in the chemotherapy of TB is bacterial drug resistance For this reason, concurrent administration of two or more drugs should be employed to delay the development of drug resistance. Isoniazid is often combined with ethambutol for this purpose. Streptomycin or rifampin may also be added to the regimen to delay even further the development of drug resistance. 

Tetracycline 500 mg every six hours or doxycycline 100 mg every twelve hours for five to seven days will shorten the duration of illness, and fever usually disappears within one to two days after treatment is begun. Ciprofloxacin and other quinolones are active in vitro and should be considered for victims unable to take tetracycline or doxycycline. Successful treatment of Q fever endocarditis is much more difficult. Tetracycline or doxycycline given in combination with trimethoprim-sulfamethoxazole (TMP-SMX) or rifampin for twelve months or longer has been successful in some cases. However, valve replacement is often required to achieve a cure. 

Yes, but treatmert can be difficult, Doctors car prescribe effective antiiiotics. Usually, doxycvcline and rifampin are used in combination for 6 weeks to prevent reoccuring infection, Depending on the timing of treatment and severity of Blness, recovery may lake a few weeks to several months. Mortality is low (<2%), and is usually associated with endocarditis. 

Treatment — A number of antibiotics are available including doxycycline combined with rifampin, and ofloxacin combined with rifampin. Vaccines for animal use directed against B. melitensis and B. abortus have proven very successful. An effective vaccine for human use against B. suis is currently under development.3... 

Treatment — Various antibiotics are useful in treating Coxiella infections. They include tetracycline, doxycycline, and erythromycin. In cases of endocarditis, treatments with doxycycline combined with rifampin, and trimethoprim-sulfamethoxazole combined with doxycycline or tetracycline for 12 months or longer have been successful.3... 

Rifampin is frequently given in combination with one or both of the following agents ... 

Tuberculosis Treatment of tuberculosis in combination with other active agents. It is most commonly used in patients with multi-drug resistant tuberculosis (MDR-TB) or in situations when therapy with isoniazid and rifampin is not possible because of a combination of resistance and intolerance. 

Rifampin is a first-line antitubercular drug used in the treatment of all forms of pulmonary and extrapul-monary tuberculosis. Rifampin is an alternative to isoniazid in the treatment of latent tuberculosis infection. Rifampin also may be combined with an antileprosy agent for the treatment of leprosy and to protect those in close contact with patients having H. influenza type b and N. meningitidis infection rifampin is also used in methicillin-resistant staphylococcal infections, such as osteomyelitis and prosthetic valve endocarditis. 

The most commonly observed side effects are GI disturbances and nervous system symptoms, such as nausea, vomiting, headache, dizziness, and fatigue. Hepatitis is a major adverse effect, and the risk is highest in patients with underlying liver diseases and in slow isoniazid acetylators the rate of hepatotoxicity is increased if isoniazid and rifampin are combined. 

Pyrazinamide is an essential component of the multidrug short-term therapy of tuberculosis. In combination with isoniazid and rifampin, it is active against the intracellular organisms that may cause relapse. 

Ethambutol has replaced aminosalicylic acid as a first-line antitubercular drug. It is commonly included as a fourth drug, along with isoifiazid, pyrazinamide, and rifampin, in patients infected with MDR strains. It also is used in combination in the treatment of M. avium-intracellulare infection in AIDS patients. 

Streptomycin is indicated as a fourth drug in combination with isoniazid, rifampin, and pyrazinamide in patients at high risk for drug resistance. It is also used in the treatment of streptomycin-susceptible MDR tuberculosis. 

Rifabutin appears as effective as rifampin in the treatment of drug-susceptible tuberculosis and is used in the treatment of latent tuberculosis infection either alone or in combination with pyrazinamide. Clinical use of rifabutin has increased in recent years, especially in the treatment of HIV infection. It is a less potent inducer of cytochrome 450 enzymes pathways than rifampin and results in less drug interaction with the protease inhibitors and nonnucleoside reverse transcriptase inhibitors. Rifabutin is therefore commonly substituted for rifampin in the treatment of tuberculosis in HIV-infected patients. Another important use of rifabutin in the HIV-infected population is prevention and treatment of disseminated MAC. 

Quinolones are important recent additions to the therapeutic agents used against M. tuberculosis, especially in MDR strains. Clinical trials of ofloxacin in combination with isoniazid and rifampin have indicated activity comparable to that of ethambutol. In addition, quinolones, particularly ciprofloxacin, are used as part of a combined regimen in HIV-infected patients. 

Dapsone, combined with other antUeprosy agents like rifampin and clofazimine, is used in the treatment of both multibacillary and paucibacillary M. leprae infections. Dapsone is also used in the treatment and prevention of Pneumocystis carinii pneumonia in AIDS patients who are allergic to or intolerant of trimethoprim-sulfamethoxazole. 

Lopinavir is available in the United States only as a fixed-dose combination with ritonavir (Kaletra). In this regimen, a low dose of ritonavir is used to inhibit the rapid inactivation of lopinavir by CYP3A4. Side effects, which are generally mild, include diarrhea, nausea, asthenia, and headache. Pancreatitis occurs rarely. Ritonavir is a potent inhibitor of CYP3A4 and also inhibits CYP2D6. In addition to the drugs contraindicated for all protease inhibitors, fiecainide, propafenone, pimozide, and rifampin should not be given with lopinavir-ritonavir combination therapy. 

Combination antituberculosis agents isoniazid/pyrazinamide/rifampin... 

Rifampin, usually 600 mg/d (10 mg/kg/d) orally, must be administered with isoniazid or other antituberculous drugs to patients with active tuberculosis to prevent emergence of drug-resistant mycobacteria. In some short-course therapies, 600 mg of rifampin are given twice weekly. Rifampin 600 mg daily or twice weekly for 6 months also is effective in combination with other agents in some atypical mycobacterial infections and in leprosy. Rifampin, 600 mg daily for 4 months as a single drug, is an alternative to isoniazid prophylaxis for patients with latent tuberculosis only, who are unable to take isoniazid or who have had exposure to a case of active tuberculosis caused by an isoniazid-resistant, rifampin-susceptible strain. 

Ethambutol hydrochloride, 15-25 mg/kg, is usually given as a single daily dose in combination with isoniazid or rifampin. The higher dose is recommended for treatment of tuberculous meningitis. The dose of ethambutol is 50 mg/kg when a twice-weekly dosing schedule is used. 

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