The St Stephens Centre, The Chelsea and Westminster Hospital, London, UK
Received 22 October 2003; revised 9 December 203; accepted 12 December 2003
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Abstract |
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Methods: We randomized 21 individuals with treatment failure to receive stavudine and didanosine or stavudine, didanosine and hydroxyurea, for 12 weeks prior to optimizing therapy. Viral load, immunological parameters, genotypic information and the virtual phenotypes were obtained at baseline and at the end of the study.
Results: Significant decreases in viral loads were observed in both groups during a 12 week study period (P = 0.04), the addition of hydroxyurea conferring no additional benefit. This was not predicted by information from genotypes and virtual phenotypes, and these did not reveal sensitive or specific phenotypic cut-offs for those individuals who responded to recycling.
Conclusions: Salvage therapy with didanosine and stavudine can decrease viral loads in heavily pre-treated individuals. Genotypic and virtual phenotype profiles provide little additional information in this setting.
Keywords: recycling, phenotype, nucleoside analogues, HAART
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Introduction |
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Although the nucleoside analogues stavudine (d4T) and didanosine (ddI) had been widely used as the backbone of initial HAART, they are not generally recommended together due to the relatively high levels of toxicity, including pancreatitis, peripheral neuropathy and lactic acidosis.610 However, both agents may be utilized individually in initial therapy, although stavudine is not recommended in some guidelines due to the development of lipoatrophy.1113
It has been difficult to delineate precise genotypic patterns of resistance in individuals failing regimens including stavudine or didanosine. Those failing stavudine may develop either the classical codon 75 mutation but also thymidine excision mutations. The impact of these on the potency of stavudine is not fully understood. Similarly, reduced sensitivity to didanosine is associated with mutations at codon 74, although this is rarely observed in those on continuation therapy.1417 For those patients who have virological failure and few obvious therapeutic options, physicians may wish to recycle either stavudine and/or didanosine, separately or together.
Other agents may confer additional benefit in this situation and hydroxyurea may have particular value in individuals with a low CD4 count.18 This hydroxycarbamide compound has been shown to enhance the antiviral potency of nucleoside analogue-containing salvage regimens.18,19 Here, it exerts a cytostatic effect through the induction of G1 T lymphocyte cell cycle arrest20 and inhibition of DNA synthesis in infected cells.21,22 As a non-randomized study has shown the antiviral efficacy of stavudine, didanosine and hydroxyurea administered for 12 weeks in antiretroviral-experienced patients,19 we randomized individuals to receive stavudine and didanosine plus/minus hydroxyurea for this short time period.
Resistance testing is now widely used for choice of new therapy in individuals failing HAART and here two types of resistance tests are availablegenotypic and virtual phenotype. Both tests have been associated with improvements in future antiretroviral success when accurately interpreted.4 We investigated the use of these resistance tests in combination with the efficacy of recycling the nucleoside analoguesdidanosine and stavudinein heavily pre-treated HIV-1- infected individuals. In particular, we wished to discover whether the genotype and virtual phenotype of heavily pre-treated HIV-1- infected individuals influenced virological outcome in the context of stavudine and didanosine recycling.
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Methods |
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Genotypic and VirtualPhenotype tests (Virco NV, Mechelen, Belgium) were performed before study entry and at 12 weeks. CD4 subset analysis was performed at this time using whole blood stained with murine anti-human monoclonal antibodies to CD4 (TetraOne, Beckman Coulter, High Wycombe, UK) and was evaluated on an Epics XL-MCL (Beckman Coulter) flow cytometer. Viral load in patient plasma was measured using the Quantiplex HIV RNA 3.0 (Chiron bDNA) assay with a lower limit of detection of 50 HIV-1 copies/mL (Chiron Diagnostics, Halstead, UK). All patients were men who have sex with men, written informed consent was provided and the study received appropriate ethical approval in accordance with the declaration of Helsinki.
Non-parametric statistical methods were used for between-group comparisons (MannWhitney U-test) and data are presented as medians with interquartile ranges. Within-group differences were also calculated using the paired t-test for repeated measures. Data were further analysed for trends over time using repeated measures ANOVA with the MIXED procedure in SAS. All P values presented are two sided.
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Results |
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Table 1 demonstrates the patient characteristics and changes in virological and immunological parameters during the study. All patients were men who have sex with men. There were no statistically significant differences between either group at baseline and all patients had a viral load of >12 500 copies/mL. Although the CD4 counts did not show significant increases during the study period, the HIV-1 viral load decreased in both groups, with a greater decrease occurring in the patients not randomized to receive hydroxyurea (P = 0.02 versus P = 0.05). For all 21 patients, the median HIV-1 viral load decreased from 68 060 to 33 339 RNA copies/mL and CD4 counts increased from 79 to 101 cells/mm3. There were no reports of neuropathy during the trial and pancreatitis was not observed (serum amylases remained in the normal range).
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Discussion |
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The lack of efficacy of including hydroxyurea in this setting is consistent with data from previous non-randomized trials in which it did not enhance the antiviral efficacy of tenofovir24 or contribute to the antiviral potency of nevirapine, stavudine and didanosine in primary HIV infection.25 In one 12 week non-randomized trial of the triple combination of didanosine, stavudine and hydroxyurea in a similar patient population, a 1.3 log10 decrease in viral load was observed at 12 weeks.19 One randomized study has also shown a benefit to its longer use at 48 weeks. In that study, only 25% of patients receiving antiretrovirals alone had plasma HIV-1 RNA <200 copies/mL versus 59.1% in the group receiving hydroxyurea, and 56.5% in the group receiving hydroxyurea and interleukin-2 (intent-to-treat; P <0.01).26
The largest study recruited individuals with a low viral load (<200 copies/mL), a CD4 cell count of >200 cells/mm3, who had received prior treatment with indinavir, zidovudine and lamivudine. They were randomized to stay on this regimen or receive indinavir, didanosine and stavudine plus or minus hydroxyurea (600 mg twice daily). Treatment failure occurred more frequently in subjects randomized to the hydroxyurea-containing arm than the other arms, time to treatment failure was significantly shorter in those receiving hydroxyurea (P < 0.05), and pancreatitis was more common in those who received didanosine, stavudine and hydroxyurea. Their results suggest caution in using this combination.
A further recent trial utilized 4 week cycles of high dose stavudine (280 mg daily) in 11 asymptomatic patients who had previously received an average of 6 years of nucleoside reverse transcriptase inhibitors (NRTIs).27 Participants received stavudine for the first 4 weeks, after which it was discontinued for 4 weeks. Additional 4 week drug cycles were given if plasma HIV-1 RNA levels increased to at least 75% of baseline values. Stavudine was well tolerated and there was a median 0.65 log10 reduction in viral load as well as a median increase in the CD4 cell count of 110 cells/mm3 at the end of the cycles. However, plasma viraemia increased and CD4 cell counts decreased between cycles. The study also suggested that increasing viral resistance was not a significant problem, as reflected by the acquisition of only one new nucleoside reverse transcriptase mutation among the participants. Significant relationships between stavudine exposure and changes in plasma HIV RNA levels were observed. Taking these results together, a similar approach might be considered, using more potent regimens containing both stavudine and didanosine for patients in whom resistance to nucleosides is a major reason for therapeutic failure. For recycling of these two particular nucleoside analogues in this setting, genotypic resistance testing appears to confer little additional information.
New antiretrovirals with novel mechanisms of action are now being used in salvage regimens. It has been shown that there are increased rates of virological failure unless other agents with antiviral efficacy are used, although this study has shown a reduction in viral load in heavily pre-treated HIV-1-infected individuals, in a group randomized to receive only the combination stavudine and didanosine. These results need to be interpreted with caution due to the small sample size: larger studies may reveal virtual phenotypic cut-offs that indicate the likelihood of antiviral efficacy, and the role of other nucleoside analoguesincluding abacavir, zidovudine and lamivudine in this settingmerits exploration.
Of increasing importance here are new costs, especially in the developing world2830 where hydroxyurea has been termed a partial solution to Africas HIV/AIDS problem.31 This small study, showing a reduction in viral load in heavily pre-treated HIV-1-infected individuals with treatment failure, shows that nucleoside analogues can be recycled in salvage therapy (although they should not be given to females who may become pregnant). Whereas these medications are considered the cheapest and most readily available of antiretrovirals, we caution against the addition of hydroxyurea in such salvage therapy. We observed in this randomized trial that this did not provide any further benefit and other studies have shown that it may cause harm.
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Footnotes |
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A. P. and B. G. are joint last authors.
¶ A. P. and B. G. are joint last authors.
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