Browsing by Author "Ochola, Dorothy"
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Item Assessment of a Pilot Antiretroviral Drug Therapy Programme in Uganda: Patients' Response, Survival, and Drug Resistance(Elsevier, 2002-07-06) Weidle, J Paul; Malamba, Samuel; Mwebaze, Raymond; Sozi, Catherine; Rukundo, Gideon; Downing, Robert; Hanson, Debra; Ochola, Dorothy; Mugyenyi, Peter; Mermin, Jonathan; Samb, Badara; Lackritz, EveBackground Little is known about how to implement antiretroviral treatment programmes in resource-limited countries. We assessed the UNAIDS/Uganda Ministry of Health HIV Drug Access Initiative—one of the first pilot antiretroviral programmes in Africa—in which patients paid for their medications at negotiated reduced prices. Methods We assessed patients' clinical and laboratory information from August, 1998, to July, 2000, from three of the five accredited treatment centres in Uganda, and tested a subset of specimens for phenotypic drug resistance. Findings 912 patients presented for care at five treatment centres. We assessed the care of 476 patients at three centres, of whom 399 started antiretroviral therapy. 204 (51%) received highly active antiretroviral therapy (HAART), 189 (47%) dual nucleoside reverse transcriptase inhibitors (2NRTI), and six (2%) NRTI monotherapy. Median baseline CD4 cell counts were 73 cells/μL (IQR 15–187); viral load was 193 817 copies/mL (37 013–651 716). The probability of remaining alive and in care was 0·63 (95% CI 0·58–0·67) at 6 months and 0·49 (0·43–0·55) at 1 year. Patients receiving HAART had greater virological responses than those receiving 2NRTI. Cox's proportional hazards models adjusted for viral load and regimen showed that a CD4 cell count of less than 50 cells/μL (vs 50 cells/μL or more) was strongly associated with death (hazard ratio 2·93 [1·51–5·68], p=0·001). Among 82 patients with a viral load of more than 1000 copies/mL more than 90 days into therapy, phenotypic resistance to NRTIs was found for 47 (57%): 29 of 37 (78%) who never received HAART versus 18 of 45 (40%) who received HAART (p=0·0005). Interpretation This pilot programme successfully expanded access to antiretroviral drugs in Uganda. Identification and treatment of patients earlier in the course of their illness and increased use of HAART could improve probability of survival and decrease drug resistance.Item Development of Phenotypic and Genotypic Resistance to Antiretroviral Therapy in the UNAIDS HIV Drug Access Initiative – Uganda(Wolters Kluwer Health, Inc., 2003-07) Weidlea, J. Paul; Downingb, Robert; Sozic, Catherine; Mwebaze, Raymond; Rukundo, Gideon; Malamba, Samuel; Respessa, Richard; Hertogsf, Kurt; Larderg, Brendan; Ochola, Dorothy; Mermin, Jonathan; Badara Sambk, Badara; Lackritz, EveObjective: We describe phenotypic drug resistance, response to therapy, and geno-typic mutations among HIV-infected patients in Uganda taking antiretroviral medica-tions for ≥ 90 days who had a viral load ≥ 1000 copies/ml. Methods: HIV-1 group and subtype, virologic and immunologic responses to anti-retroviral therapy, phenotypic resistance to antiretroviral drugs, and associated geno-typic mutations among patients at three treatment centers in Uganda between June 1999 and August 2000 were assessed. Therapy was two nucleoside reverse tran-scriptase inhibitors (NRTIs) or highly active antiretroviral therapy (HAART). Results: All HIV identified was HIV-1, group M, subtypes A, C, and D. Sixty-one (65%) of 94 patients with a phenotypic resistance result had evidence of phenotypic resistance including resistance to a NRTI for 51 of 92 (55%) taking NRTIs, to a non-nucleoside reverse transcriptase inhibitor (NNRTI) for nine of 16 (56%) taking NNRTIs, and to a protease inhibitor (PI) for eight of 37 (22%) taking PIs. At the time of the first specimen with resistance, the median change from baseline viral load was –0.56 log copies/ml [interquartile range (IQR), –1.47 to +0.29] and CD4+ cell count was +35 × 106 cells/l (IQR, –18 to +87). Genotypic resistance mutations, matched with phenotypic resistance assay results and drug history, were generally consistent with those seen for HIV-1, group M, subtype B infections in industrialized countries. Conclusion: Initial phenotypic resistance and corresponding genotypic mutations among patients treated in Uganda were similar to those with subtype B infections in North America and Europe. These data support policies that promote the use of HAART regimens against HIV-1, group M, non-B subtypes in a manner consistent with that used for subtype B infections.