Outcomes of cryptococcal meningitis in Uganda before and after the availability of highly active antiretroviral therapy
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CID
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Background. Cryptococcal meningitis (CM) is the proximate cause of death in 20%–30% of persons with acquired immunodeficiency syndrome in Africa. Methods. Two prospective, observational cohorts enrolled human immunodeficiency virus (HIV)–infected, antiretroviral-naive persons with CM in Kampala, Uganda. The first cohort was enrolled in 2001–2002 (np92), prior to the availability of highly active antiretroviral therapy (HAART), and the second was enrolled in 2006– 2007 (np44), when HAART was available. Results. Ugandans presented with prolonged CM symptoms (median duration, 14 days; interquartile range, 7–21 days). The 14-day survival rates were 49% in 2001–2002 and 80% in 2006 (P<.001). HAART was started 35±13 days after CM diagnosis and does not explain the improved 14-day survival rate in 2006. In 2006–2007, the survival rate continued to decrease after hospitalization, with only 55% surviving to initiate HAART as an outpatient. Probable cryptococcal-related immune reconstitution inflammatory syndrome occurred in 42% of patients, with 4 deaths. At 6 months after CM diagnosis, 18 persons (41%) were alive and receiving HAART in 2007. The median cerebral spinal fluid (CSF) opening pressure was 330 mm H2O; 81% of patients had elevated pressure (1200 mm H2O). Only 5 patients consented to therapeutic lumbar puncture. There was a trend for higher mortality for pressures 1250 mm H2O (odds ratio [OR], 2.1; 95% confidence interval [CI], 0.9–5.2; Pp.09). Initial CSF WBC counts of !5 cells/mL were associated with failure of CSF sterilization (OR, 17.3; 95% CI, 3.1– 94.3; P ! .001), and protein levels !35 mg/dL were associated with higher mortality (OR, 2.0; 95% CI, 1.2–3.3; Pp.007). Conclusions. Significant CM-associated mortality persists, despite the administration of amphotericin B and HIV therapy, because of the high mortality rate before receipt of HAART and because of immune reconstitution inflammatory syndrome–related complications after HAART initiation. Approaches to increase acceptance of therapeutic lumbar punctures are needed.
This work was supported in part by the Academic Alliance Foundation (A.K.), University of Minnesota Academic Health Center (P.R.B. and D.B.M.), National Institutes of Health Fogarty International Center: AIDS International Training and Research Program (AITRP) at CaseWestern Reserve University (TW000011 to A.K.), National Institute of Allergy and Infectious Diseases (T32AI055433, L30AI066779, and K12RR023247 to D.R.B.), Minnesota Medical Foundation (P.R.B., D.R.B., and D.B.M.), University of Minnesota Office of International Programs (D.R.B.), the Colorado Center for AIDS Research (NIAID P30AI054907 to E.N.J.), and the Veterans Affairs Research Service (E.N.J.).
This work was supported in part by the Academic Alliance Foundation (A.K.), University of Minnesota Academic Health Center (P.R.B. and D.B.M.), National Institutes of Health Fogarty International Center: AIDS International Training and Research Program (AITRP) at CaseWestern Reserve University (TW000011 to A.K.), National Institute of Allergy and Infectious Diseases (T32AI055433, L30AI066779, and K12RR023247 to D.R.B.), Minnesota Medical Foundation (P.R.B., D.R.B., and D.B.M.), University of Minnesota Office of International Programs (D.R.B.), the Colorado Center for AIDS Research (NIAID P30AI054907 to E.N.J.), and the Veterans Affairs Research Service (E.N.J.).
Keywords
Cryptococcal meningitis, HAART, Observational cohorts, HIV/AIDS, Antiretroviral therapy, Sub-Saharan Africa, Uganda