Date: Fri, 25 Oct 1996 13:04:20 -0400 From: "Flynn Mclean" Subject: MMWR 10/25/96: Impact of HIV Protease Inhibitors on TB MORBIDITY AND MORTALITY WEEKLY REPORT ****************************************** Centers for Disease Control and Prevention October 25, 1996 Vol. 45/No. 42 Notice to Readers Clinical Update: Impact of HIV Protease Inhibitors on the Treatment of HIV-Infected Tuberculosis Patients with Rifampin In 1995 and 1996, the Food and Drug Administration (FDA) approved three products in the new protease inhibitor class of drugs_saquinavir (Invirase TM ), ritonavir (Norvir TM ), and indinavir (Crixivan TM ). Another drug in this class of agents, nelfinavir (Viracept TM ) (Agouron Pharmaceuticals), is expected to be available soon from the manufacturer through an expanded- access program. All four drugs, which inhibit HIV protease and thus interfere with viral maturation and replication, are the most potent antiretroviral agents available to treat patients with HIV disease (1). However, these protease inhibitors interact with rifamycin derivatives, such as rifampin and rifabutin, which are used to treat and prevent the mycobacterial infections commonly observed in HIV-infected patients. Rifamycins accelerate the metabolism of protease inhibitors (through induction of hepatic P450 cytochrome oxidases), resulting in subtherapeutic levels of the protease inhibitors. In addition, protease inhibitors retard the metabolism of rifamycins, resulting in increased serum levels of rifamycins and the likelihood of increased drug toxicity (2). This report describes approaches for managing patients who are candidates for or who are undergoing protease inhibitor therapy when tuberculosis (TB) is diagnosed and presents interim recommendations for managing these patients until additional data are available and formal guidelines are issued. BACKGROUND Rifampin is an essential component of the currently recommended regimen for treating TB (3). This regimen is efficacious in treating HIV-infected patients with TB and consists of isoniazid and rifampin for a minimum of 6 months, plus pyrazinamide and either ethambutol or streptomycin for the first 2 months (4,5). Therefore, the pharmacokinetic interactions between protease inhibitors and rifampin are important for health-care workers involved in TB control and the care of patients co-infected with TB and HIV because clinicians may decrease or restrict the use of rifampin in the treatment of patients who are candidates for therapy with both protease inhibitors and rifampin. Prompt initiation of appropriate drug therapy for patients with HIV infection who acquire TB is critical because TB may be rapidly fatal (6). Drug therapy is a critical personal health measure for curing TB and minimizes the impact of this disease on the progression of HIV infection; in addition, drug therapy is a major public health measure for interrupting the transmission of Mycobacterium tuberculosis to persons in the community. Currently, the manufacturers_ product labeling for protease inhibitors contraindicates, does not recommend, or discourages the concurrent administration of rifampin and protease inhibitors. Because of the common association of TB and HIV infection, an increasing number of patients probably will be considered candidates for rifampin and protease inhibitors. The management of these patients is complex, requires an individualized approach, and should be undertaken only by or in consultation with an expert. In addition, all HIV-infected patients at risk for TB infection should be carefully evaluated and administered isoniazid for preventive treatment if indicated, regardless of their status for being prescribed protease inhibitor therapy. MANAGEMENT OPTIONS TB Management for Patients for Whom Protease Inhibitor Therapy Is Being Considered but Has Not Yet Been Initiated For HIV-infected patients diagnosed with drug-susceptible TB and for whom protease inhibitor therapy is being considered but has not been initiated, the suggested management strategy is to complete TB treatment with a regimen containing rifampin before starting therapy with a protease inhibitor. The duration of this anti-TB regimen is at least 6 months, and therapy should be administered following current guidelines published by the American Thoracic Society and CDC (3), including the recommendation to carefully assess clinical and bacteriologic response in patients co-infected with HIV and to prolong treatment if response is slow or suboptimal. Antiretroviral agents other than protease inhibitors may be used concurrently with this regimen. Directly observed therapy (DOT) is routinely recommended for the treatment of TB to ensure adherence with the recommended regimen and is available through local health department TB-control programs. Among patients who adhere to therapy, four-drug regimens are expected to be effective even in those infected with strains of M. tuberculosis resistant to isoniazid or streptomycin alone. However, the management of patients with drug-resistant TB should be evaluated on a case-by- case basis and individualized based on the results of drug- susceptibility studies. TB Management Options for Patients Undergoing Protease Inhibitor Therapy There are three options for managing HIV-infected patients with TB who are undergoing protease inhibitor therapy when TB is diagnosed. One option is to discontinue therapy with the protease inhibitor while undergoing a TB treatment regimen that includes rifampin. However, because of the potential that interruptions in the administration of the prescribed protease inhibitor can induce HIV resistance to the protease inhibitor and possibly to other drugs within the protease inhibitor class (1) and because discontinuation of protease inhibitor therapy may be associated with a detrimental effect on the patient_s clinical status, some clinicians may be reluctant to discontinue protease inhibitor therapy for the duration of TB treatment. In such cases, two additional options may be considered. Because the risks and benefits of all these options are unknown, clinicians should individualize management decisions on a case-by-case basis to provide optimal patient care. Option I. This option involves discontinuing therapy with the protease inhibitor and completing a short (minimum 6 months) course of TB treatment with a regimen containing rifampin. This anti-TB regimen should be administered following current guidelines published by the American Thoracic Society and CDC (3), and the duration of therapy should be prolonged in patients with slow or suboptimal responses. Protease inhibitor therapy may be resumed when treatment with rifampin is discontinued. Antiretroviral agents other than protease inhibitors may be used concurrently with rifampin. Although the risks associated with a complete discontinuation of protease inhibitor therapy while undergoing TB treatment are unclear, they may be serious; however, the risks and complications associated with TB treatment regimens that do not include rifampin are known. Potential consequences include prolonged duration of therapy to at least 18_24 months, increased likelihood of treatment failure and mortality (7, 8), slower conversion of sputum culture to negative with patients remaining infectious for longer periods of time, and the adverse effect of TB disease on the progression of HIV infection ( 9,10 ). Therefore, nonrifampin-containing regimens are not recommended for the treatment of rifampin-susceptible TB. Option II. To minimize the interruption of protease inhibitor therapy, one option is to use a four-drug TB treatment regimen that includes rifampin (i.e., daily isoniazid, pyrazinamide, rifampin, and ethambutol or streptomycin) for a minimum of 2 months and until bacteriologic response is achieved (i.e., sputum conversion to culture-negative status), and the results from susceptibility testing are available. After bacteriologic response and drug susceptibility have been documented (usually 3 months), treatment may be modified to a 16-month continuation- phase regimen consisting of isoniazid (15 mg/kg) and ethambutol (50 mg/kg) two times per week. This regimen allows the reintroduction of protease inhibitor therapy. Some experts consulted for this report recommended adding a third drug, such as streptomycin, during this continuation phase if the infecting organism is not resistant to the drug. Option II cannot be recommended for patients with proven isoniazid-resistant TB. Option III. The other management option is to continue protease inhibitor therapy with indinavir (800 mg every 8 hours) and administer a four-drug, 9-month TB-treatment regimen containing daily rifabutin (150 mg/day) instead of rifampin. When this option is used for TB management, clinicians should conduct careful monitoring, possibly including measuring serum concentrations of rifabutin_a service available only in specialized centers in the United States. This alternative TB therapy is recommended based on the pharmacokinetic characteristics of rifabutin and limited data from clinical trials. Rifabutin is a rifamycin derivative with comparable anti- TB activity in vitro but with less hepatic P450 cytochromic enzyme-inducing effect than rifampin (11, 12). An international multicenter study indicated that a 6-month regimen containing rifabutin, at the daily dose of either 150 mg or 300 mg, was as effective for treating TB as a similar regimen containing rifampin (13). In a small clinical trial, a rifabutin-containing regimen was effective in treating TB in patients co-infected with HIV (14). In addition, limited data from pharmacokinetic studies suggest that the combination of rifabutin at 150 mg/day and indinavir resulted in acceptable levels of both drugs (15). Option III cannot be recommended for patients undergoing therapy with ritonavir or saquinavir. For these patients, the decision to change the prescribed protease inhibitor to indinavir and to prescribe rifabutin for TB therapy should be made in consultation with an expert in the use of protease inhibitors to manage HIV infection. In the United States, rifabutin is approved by FDA for the prevention of disease caused by M. avium complex (MAC) but not for the treatment or prevention of TB. ADDITIONAL RECOMMENDATIONS Neither option II nor option III have been studied in large clinical trials of HIV-infected patients or patients undergoing protease inhibitor therapy during TB treatment. For these reasons, if either of these options are selected for managing patients with TB, CDC recommends the following interim guidelines until additional data are available and formal guidelines are issued: 1) on initiation of therapy, perform frequent bacteriologic evaluations to document sputum conversion to culture-negative status, and after culture conversion, to detect any possible treatment failures, 2) extend the duration of therapy to at least 18 months for option II or 9 months for option III, 3) use only indinavir with option III, 4) carefully monitor for drug toxicity, 5) use DOT throughout, and 6) reevaluate periodically during the first 2 years after completion of therapy (including an assessment of bacteriologic status at six months) and instruct patients to promptly report symptoms compatible with relapse of TB disease. The management of HIV- infected patients diagnosed with drug-resistant TB or diagnosed clinically with TB but without culture and susceptibility-testing results should be evaluated on a case-by-case basis and performed in consultation with a TB expert. CONCLUSIONS In the future, concurrent use of protease inhibitors with rifampin might be possible by modifying the doses of both to compensate for the drug interaction. For example, based on limited data submitted to FDA during the new drug application review for ritonavir, a slight increase in the dosage of ritonavir and a reduction by half in the dosage of rifampin may have resulted in satisfactory levels of both drugs. However, this option cannot be recommended until data from larger, more detailed studies are available and will require careful monitoring of the serum levels of rifampin. Interactions between protease inhibitors and the rifamycins also have complicated prophylaxis and treatment for disseminated MAC disease. Rifabutin is one of the drugs recommended for MAC prophylaxis ( 16 ). According to the manufacturer of indinavir, rifabutin at half the dose (150 mg) can be used for MAC prophylaxis simultaneously with indinavir. Other options for MAC prophylaxis are clarithromycin and azithromycin ( 17,18 ), two macrolide antibiotics approved by FDA for this purpose and for which interactions with protease inhibitors are expected to be less of an issue. In November 1996, a joint working group of the Public Health Service and Infectious Disease Society of America will update recommendations for MAC prophylaxis. To reduce the likelihood of drug interactions while providing optimal anti-TB care for HIV-infected persons, health-care workers involved in the care of patients with TB and health-care workers involved in HIV clinical care are encouraged to coordinate efforts and thus ensure the best possible outcome for these patients. CDC_s Research and Evaluation Branch, Division of Tuberculosis Elimination, National Center for HIV, STD, and TB Prevention, (telephone [404) 639-8123]) requests the inclusion of clinical information in the comments section of TB surveillance reports from private practitioners or health department staff who manage HIV-infected patients undergoing protease inhibitor therapy when TB is diagnosed. Reported by: Center for Drug Evaluation and Research, Food and Drug Administration. Div of Tuberculosis Elimination, and Div of HIV/AIDS Prevention, National Center for HIV, STD, and TB Prevention, CDC. References 1. Bartlett JG. Protease inhibitors for HIV infection. Ann Int Med 1996;124:1086_8. 2. Sun E, Heath-Chiozzi M, Cameron DW, et al. Concurrent ritonavir and rifabutin increase risk of rifabutin-associated adverse event [Abstract no. B.171]. Presented at XI International Conference on AIDS. Vancouver, July 8, 1996. 3. Bass JB Jr, Farer LS, Hopewell PC, et al. Treatment of tuberculosis and tuberculosis infection in adults and children. Am J Respir Crit Care Med 1994;149:1359_74. 4. Small PM, Schecter GF, Goodman PC, Sande MA, Chaisson RE, Hopewell PC. Treatment of tuberculosis in patients with advanced human immunodeficiency virus infection. N Engl J Med 1991;324:289_94. 5. Perriens JH, St Louis ME, Mukadi YB, et al. Pulmonary tuberculosis in HIV-infected patients in Zaire: a controlled trial of treatment for either 6 or 12 months. N Engl J Med 1995;332:779_84. 6. Iseman MD. Treatment of multidrug-resistant tuberculosis. N Engl J Med 1993;329:784_91. 7. Perriens JH, Colebunders RL, Karahunga C, et al. Increased mortality and tuberculosis treatment failure rate among human immunodeficiency virus (HIV) seropositive compared with HIV seronegative patients with pulmonary tuberculosis treated with _standard_ chemotherapy in Kinshasa, Zaire. Am Rev Respir Dis 1991;144:750_5. 8. Okwera A, Whalen C, Byekwaso F, et al. Randomised trial of thiacetazone and rifampicin-containing regimens for pulmonary tuberculosis in HIV-infected Ugandans. Lancet 1994;344:1323_8. 9. Whalen C, Horsburgh CR, Hom D, Lahart C, Simberkoff M, Ellner J. Accelerated course of human immunodeficiency virus infection after tuberculosis. Am J Respir Crit Care Med 1995;151:129_35. 10. Wallis RS, Helfand MS, Whalen C, et al. Immune activation, allergic drug toxicity, and mortality in HIV-positive tuberculosis. Tubercle Lung Dis (in press). 11. Kunin CM. Antimicrobial activity of rifabutin. Clin Infect Dis 1996;22(suppl 1):S3_S14. 12. Blaschke TF, Skinner MH. The clinical pharmacokinetics of rifabutin. Clin Infect Dis 1996;22(suppl 1):S15_S22. 13. McGregor M, Olliaro P, Wolmarans L, et al. Efficacy and safety of rifabutin in patients with newly-diagnosed pulmonary tuberculosis. Am J Respir Crit Care Med (in press). 14. Schwander S, Rusch-Gerdes S, Mateega A, et al. A pilot study of antituberculosis combinations comparing rifabutin with rifampicin in the treatment of HIV-1 associated tuberculosis. Tubercle Lung Dis 1995;76:210_8. 15. The Indinavir (MK 639) Pharmacokinetic Study Group. Indinavir (MK 639) drug interaction studies. Presented at the XI International Conference on AIDS. Vancouver, July 8, 1996. 16. USPHS/IDSA Prevention of Opportunistic Infections Working Group. USPHS/IDSA guidelines for the prevention of opportunistic infections in persons infected with human immunodeficiency virus: a summary. MMWR 1995;44(no. RR-8):1_34. 17. Pierce M, Crampton S, Henry D, et al. A randomized trial of clarithromycin as prophylaxis against disseminated Mycobacterium avium complex (MAC) infection in patients with advanced acquired immunodeficiency syndrome. N Engl J Med 1996;335:384_91. 18. Havlir DV, Dube MP, Sattler FR, et al. Prophylaxis against disseminated Mycobacterium avium complex with weekly azithromycin, daily rifabutin, or both. N Engl J Med 1996;335:392_8. HIV Protease Inhibitors _ Continued From ilga@ilga.org Wed Nov 20 03:04:07 1996 Received: from mimas.glo.be (dns.glo.be [206.48.177.1]) by qrd.rdrop.com (8.6.9/8.6.9) with ESMTP id DAA20788 for ; Wed, 20 Nov 1996 03:04:03 -0800 Received: from phobos.glo.be (root@phobos.glo.be [206.48.176.11]) by mimas.glo.be (8.7.5/8.7.3) with ESMTP id LAA15801; Wed, 20 Nov 1996 11:56:39 +0100 Received: from ip116.z02.glo.be (ip116.z02.glo.be [206.48.177.116]) by phobos.glo.be (8.7.5/8.6.9) with SMTP id MAA01135; Wed, 20 Nov 1996 12:00:24 +0100 Date: Wed, 20 Nov 1996 12:00:24 +0100 Message-Id: <199611201100.MAA01135@phobos.glo.be> X-Sender: ilga@glo.be X-Mailer: Windows Eudora Light Version 1.5.2 Mime-Version: 1.0 Content-Type: text/plain; charset="us-ascii" To: ilga@ilga.org From: ilga Subject: two requests: argentina/india 20 November 1996 1. The Argentinean group ISIS (Group for the Investigation of Sexuality and Social Interaction) are looking for contacts. They are looking for people who are "fighting homophobia from the point of view of the mental health of lesbian and gay people." At the first Argentine national meeting in Rosario this April, they held workshops on internalized homophobia. Contact them: Grupo ISIS Casilla de Correo 78 Sucursal 25B 1425 Buenos Aires Argentina fx: 54 1 733 9180 *NOTE: Please contact them directly, and do not reply to this e-mail address. 2. The Indian lesbian group SAKHI is appealing for help. In a letter to ILGA, they say: "We are currently facing a major crisis in regards to our lesbian archive. A few months ago we had a major robbery in which the entire computer, fax and photographic equipment was stolen. Since then we have put in a number of grant applications but are still to receive an answer. We are trying to find other ways of self supporting ourselves and looking towards an exchange of the material that we have collected in the form of articles, newspaper clippings, lesbian ancient iconography (post cards, prints, portfolios, handmade handicrafts) unpublished research and books for a nominal fee. We appeal to you for support and any suggestions that you may have. " Based in Delhi, SAKHI is one of two lesbian groups in India (the other is in Bombay). An interview with Giti Thadani, one of the organizers of the group, appeared in ILGA Bulletin 3/96. Contact them at: SAKHI B-44 Defence Colony 110 024 New Delhi India tel: +91 11 462 8970 fax: +91 11 462 8970 e-mail: sakhi@ilga.org Show your solidarity! Do you know any lesbian or gay groups that can organize exchanges, or possibly get material from SAKHI to sell to their members or the general public? Or any progressive groups - student, third-world support etc? Thanks to all of you for reading this, and distributing the info to those you think can help! ~~~~~~~~~~~~~~~~~~~~~~~~~~~ ILGA - International Lesbian and Gay Association 81 Kolenmarkt, B-1000 Brussels, Belgium Phone/Fax +32-2-502-2471, E-mail: ilga@ilga.org A federation of over 300 groups from 80 countries fighting for the rights of lesbian, gay, bisexual and transgender people. We also have over 100 supportive associate and individual members. Will you join us? Contact us for more info!