Quantitative molecular monitoring of HIV-1 RNA during antiretroviral therapy

Plasma HIV-1 RNA testing was used to monitor 43 HIV-1 infected patients newly placed on antiretroviral therapy or whose therapy had been recently changed. A polymerase chain reaction kit was used to measure HIV-1 RNA in clinical samples or frozen plasma. The cutoff of this test was 200 RNA copies/ml. The first group (11 patients) was stable on long-term zidovudine monotherapy when switched to stavudine. The HIV-1 RNA of three patients who had a regular decline in CD4+ T cell count did not change despite this switch, with a mean follow-up of 630 days. The HIV-1 RNA copy numbers of eight patients whose CD4+ T cell counts were stable declined an average of 0.53 log10 between days 90 and 650. The second group (14 patients) was on long-term zidovudine monotherapy and had declining CD4+ T cell counts over the past 6 months. Lamivudine was added to this regimen on day 0. HIV-1 RNA copy number decreased rapidly within 30 d, reaching -0.86 log10 on day 90, and this effect was maintained thereafter, with a mean follow-up of 161 days. There was a concomitant mean gain of +33 CD4+ T cells on day 90. The third group (nine patients) had never received anti-retroviral therapy and was given zidovudine+didanosine. HIV-1 RNA copy number decreased in all cases but one, reaching -1.31 log10 on day 150. This decrease was transient in three cases. The last group (nine patients) had also not had previous anti-retroviral therapy and was given zidovudine + didanosine + lamivudine in combination. HIV-1 RNA copy numbers declined rapidly in all cases, to below the cutoff in eight cases within a mean period of 50.5 days. The CD4+ cell counts increased by 164 cells/microliter on day 14 and by 201 cells/microliter on day 180. The response to therapy of the total population of 43 patients varied according to cases. The relative changes in p24 antigen compared to HIV-1 RNA also differed between patients. Measurement of HIV-1 viremia appears to be a valuable tool in current practice for individualizing therapy.     

Rate of HIV-1 decline following antiretroviral therapy is related to viral load at baseline and drug regimen

OBJECTIVES AND DESIGN: The dynamics uf viral decline following the initiation of antiretroviral treatment were studied in 29 HIV-1-infected patients participating in a two-arm trial comparing immediate (group A: ritonavir, zidovudine and lamivudine) and delayed (group B: ritonavir supplemented by zidovudine and lamivudine on day 21) triple therapy. Parameters underlying viral dynamics were estimated using mathematical models tailored to these treatment protocols. RESULTS: The decline in plasma HIV-1 density between day 0 and 21 was steeper in group A (-2.27+/- 0.46 log10) than group B (-1.87+/-0.56 log10). In a subset of patients amenable to full mathematical analysis, a short-lived productively infected cell compartment (producing approximately 97% of total virions) decayed with a half-life of 1.0-2.5 days, whereas a long-lived infected cell compartment decayed with a half-life of 18.8-32.8 days. Estimates for the time for the elimination of virus from these two cell populations ranged from 474 to 802 days. The rate of loss of productively infected CD4+ T cells was positively correlated with baseline viral load in group A and in the combined dataset. CONCLUSIONS: These results suggest that HIV-infected cell populations may have a faster turnover in patients with higher viral loads due to higher infection rate parameters, higher rates of virus production, or lower virus clearance rates.     

Treatment history and baseline viral load, but not viral tropism or CCR-5 genotype, influence prolonged antiviral efficacy of highly active antiretroviral treatment

BACKGROUND: The efficacy of highly active antiretroviral treatment (HAART) in HIV-1 disease may vary between nucleoside-naive and experienced patients as well as between patients with different viral phenotypes and in different stages of disease. OBJECTIVE: To investigate variables of importance for successful long-term viral suppression by analysing virological, clinical and immunological characteristics at initiation of protease inhibitor treatment on suppression of HIV RNA over 1 year. DESIGN: An open, non-randomized, observational clinical study. SETTING: Venh?lsan, Department of Dermatovenereology, S?der Hospital, Stockholm, Sweden. PATIENTS: A total of 147 unselected advanced patients with known HIV-1 infection for a mean of 7 years, of whom 37% had AIDS and who started treatment with a protease inhibitor during 1996. INTERVENTIONS: All patients received HAART with at least two nucleoside analogues in combination with either indinavir (81%) or ritonavir (19%). The majority (77%) had been previously treated with nucleoside analogues for a mean of 39 months. MEASUREMENTS: CD4+ lymphocyte count, plasma HIV-1 RNA, viral phenotype and HIV-1 coreceptor CCR-5 genotype at baseline. Viral load and CD4+ lymphocyte count were determined every 3 months. RESULTS: Patients were analysed on an intention-to-treat basis. The mean CD4+ lymphocyte count at baseline was 170 x 10(6)/l and the median viral load was 68 600 copies/ml. Heterozygosity for the delta32 deletion of the CCR-5 gene (delta32/wt) was found in 27%. MT-2 positive virus (syncytium-inducing) was isolated in 46%. Logistic regression revealed that nucleoside analogue experience and baseline log10 HIV-1 RNA were the only factors independently related to plasma HIV-1 RNA levels below 500 copies/ml after 1 year of treatment, which was found in 69%. CONCLUSION: The virological outcome after 1 year of HAART was strongly correlated to prior treatment history and baseline viral load, whereas CD4+ lymphocyte count, CCR-5 genotype and viral biological phenotype had less influence. The long-term antiviral efficacy of HAART was lowest in individuals with previous nucleoside analogue treatment and a high baseline viral load. In these individuals an even more aggressive treatment should be considered.     

Amprenavir

Amprenavir is a viral protease inhibitor with specificity for the HIV protease enzyme. The resistance profile of amprenavir appears to differ from that of other protease inhibitors such as saquinavir and indinavir. Twelve hours after single-dose administration of amprenavir 1200mg to HIV-infected individuals, the mean plasma concentration of the drug was more than 10-fold greater than the 50% inhibitory concentration for HIV-1IIIB in peripheral blood lymphocytes. In a small nonblind study, amprenavir monotherapy increased CD4+ cell count and decreased viral load in 37 patients with HIV infection and no previous exposure to protease inhibitor therapy. Combination therapy comprising amprenavir and other antiretroviral agents (abacavir, zidovudine, lamivudine, indinavir, saquinavir or nelfinavir) decreased viral load and increased CD4+ cell counts in patients with HIV infection. Antiviral efficacy was maintained during up to 24 weeks' follow-up. Available data suggest that rash, headache and diarrhoea or loose stools are the most frequent adverse events associated with amprenavir therapy.     

Virologic and immunologic benefits of initial combination therapy with zidovudine and zalcitabine or didanosine compared with zidovudine monotherapy. Wellcome Resistance Study Collaborative Group

A randomized controlled study was done to determine whether initial combination therapy with zidovudine and zalcitabine or zidovudine and didanosine would delay the emergence of zidovudine-resistant virus. Human immunodeficiency virus (HIV)-1-infected patients with <300 CD4 cells/mm3 and <4 weeks of prior zidovudine therapy were randomized to zidovudine, zidovudine plus zalcitabine, or zidovudine plus didanosine. Combination therapy did not delay the emergence of zidovudine-resistant virus isolates. However, combination therapy resulted in a significant increase in CD4 cells through 72 weeks compared with zidovudine monotherapy and a greater and more sustained decline in serum HIV-1 RNA. Although this trial was not designed as a clinical end-point study, patients assigned to zidovudine plus didanosine combination therapy experienced a significant delay in time to first AIDS-defining event or death compared with those assigned to zidovudine monotherapy.     

Do viral load and CD8 cell count at initiation of tritherapy influence the increase of CD4 T-cell count?

BACKGROUND: Tritherapies including protease inhibitors improve clinical status and usually increase CD4 T cell count. However, the dissociation between the marked decreases in viral load and the incomplete restoration of CD4 cell counts with a three-drug combination has been reported. We assessed this potential difference among our patients. METHODS: Patients were enrolled when a protease inhibitor was prescribed to them for the first time. Using a computerized medical record (ADDIS), we retrospectively assessed a potential relationship between the increase in CD4 T cells (deltaCD4) at M3, M6 and variables including sex, age, CDC staging, protease inhibitor, prior antiviral therapy, CD8 and viral load at baseline. We used Epi-Info 6.4 and BMDP software. RESULTS: Data were analyzed on 154 patients. The median CD4 T cell count was 157 at baseline, 215 at month 3 and 202 at month 6. The median viral load was 52000 copies at baseline, 530 at month 3 and 500 at month 6. In a univariate analysis, a significant relationship was found between deltaCD4 and CD8 at baseline. A statistically significant negative correlation appeared between the CD8 cell count at baseline and deltaCD4 at M6 (r=-0.28, Pearson). Moreover, we found that there also was a relationship between deltaCD4 and viral load at baseline. There was a correlation between deltaCD4 at M6 and the viral load at M0 (r=0.37, Pearson). In a multiple regression model, after CD8 count at baseline had been accounted for, we found a significant correlation between deltaCD4 and viral load at baseline (multiple r=0.33 at M3, and 0.40 at M6). CONCLUSIONS: Patients with a low viral load do not benefit from as great an increase in CD4 T cell count as others when they receive a tritherapy including protease inhibitors. These results suggest that another mechanism rather than direct viral pathogenicity leads to CD4 T cell destruction. This mechanism may not be efficiently stopped by antiviral therapy, especially protease inhibitors.     

A pilot study of hydroxyurea among patients with advanced human immunodeficiency virus (HIV) disease receiving chronic didanosine therapy: Canadian HIV trials network protocol 080

To assess the in vivo short-term antiretroviral effect of hydroxyurea in human immunodeficiency virus (HIV)-infected persons chronically treated with didanosine (ddI), 26 patients with CD4 cell counts between 100 and 350 were enrolled in a 12-week, open-label pilot study and randomly assigned to receive 500 or 1000 mg/day hydroxyurea. Clinical status, laboratory toxicities, CD4 lymphocyte count, and HIV RNA plasma virus load were assessed weekly. Median declines from baseline of 0.02 and 0.63 log10 HIV-1 RNA copies/mL of plasma were observed for the 500- and 1000-mg/day groups, respectively (P = .02). CD4 cell counts did not change significantly with the addition of hydroxyurea; however, a small but statistically significant decrease in counts was observed during the washout phase. Both doses of hydroxyurea were well-tolerated. These results demonstrate a substantial decrease in plasma virus load when 1000 mg of hydroxyurea is administered over 1 month as adjunctive therapy to ddI among HIV-infected persons with 100-350 CD4 cells/mm3.     

Resistance-related mutations in the HIV-1 protease gene of patients treated for 1 year with the protease inhibitor ritonavir (ABT-538)

OBJECTIVE: To define genotypic and phenotypic resistance patterns following prolonged therapy with the protease inhibitor ritonavir (ABT-538). DESIGN: Seven HIV-1-infected patients, all but one previously treated with dideoxynucleoside analogues (zidovudine, didanosine, zalcitabine), were treated for 1 year with ritonavir. METHODS: Direct solid-phase sequencing of the protease gene starting from plasma derived viral RNA followed by comparison to phenotypic drug resistance data. RESULTS: The most frequent amino-acid substitutions occurring upon administration of the protease inhibitor were V82A/F (substrate binding site), I54V (flap region), A71V and L10I. Additional mutations found in more than one patient were I15V, M36I, I84V and I93L. Mutation L63P was found both in pre- and post-ritonavir samples. Phenotypic drug resistance assays confirmed resistance to ritonavir in post-treatment samples (approximately 170-fold) and showed cross-resistance to indinavir (approximately 30-fold) and partially to saquinavir (approximately fivefold). At 1 year of treatment, one patient without known resistance-associated mutations in the protease gene still showed a substantial rise in CD4 cell count accompanied by a more than 2.4 log decrease in RNA viral load. However, at week 78, mutations R8Q, E34K, R57K, L63P and I84V were detected and the treatment benefit was partially lost. CONCLUSIONS: Long-term treatment with ritonavir is associated with the emergence of multiple mutations in the HIV-1 protease gene. The mutations L10I, I54V, L63P, A71V, V82A/F and I84V correspond to known drug-resistance mutations for ritonavir and other protease inhibitors. Phenotypic resistance to ritonavir was detected in a majority of ritonavir-treated patients at 1 year of treatment. In addition, long-term ritonavir treatment selects for cross-resistance to the protease inhibitors indinavir and saquinavir. This argues against sequential therapy with several protease inhibitors. Delayed resistance in one patient was accompanied with a prolonged increase in CD4 cell count and decrease in viral load suggesting a temporary benefit of treatment.     

Efficacy of zidovudine and human immunodeficiency virus (HIV) hyperimmune immunoglobulin for reducing perinatal HIV transmission from HIV-infected women with advanced disease: results of Pediatric AIDS Clinical Trials Group protocol 185

Pediatric AIDS Clinical Trials Group protocol 185 evaluated whether zidovudine combined with human immunodeficiency virus (HIV) hyperimmune immunoglobulin (HIVIG) infusions administered monthly during pregnancy and to the neonate at birth would significantly lower perinatal HIV transmission compared with treatment with zidovudine and intravenous immunoglobulin (IVIG) without HIV antibody. Subjects had baseline CD4 cell counts /=200/microL) but not with time of zidovudine initiation (5.6% vs. 4.8% if started before vs. during pregnancy; P=. 75). The Kaplan-Meier transmission rate for HIVIG recipients was 4. 1% (95% confidence interval, 1.5%-6.7%) and for IVIG recipients was 6.0% (2.8%-9.1%) (P=.36). The unexpectedly low transmission confirmed that zidovudine prophylaxis is highly effective, even for women with advanced HIV disease and prior zidovudine therapy, although it limited the study's ability to address whether passive immunization diminishes perinatal transmission.     

A randomized, double-blind trial comparing combinations of nevirapine, didanosine, and zidovudine for HIV-infected patients: the INCAS Trial. Italy, The Netherlands, Canada and Australia Study

CONTEXT: Current guidelines recommend that individuals infected with the human immunodeficiency virus type 1 (HIV-1) be treated using combinations of antiretroviral agents to achieve sustained suppression of viral replication as measured by the plasma HIV-1 RNA assay, in the hopes of achieving prolonged remission of the disease. However, until recently, many drug combinations have not led to sustained suppression of HIV-1 RNA. OBJECTIVE: To compare the virologic effects of various combinations of nevirapine, didanosine, and zidovudine. DESIGN: Double-blind, controlled, randomized trial. SETTING: University-affiliated ambulatory research clinics in Italy, the Netherlands, Canada and Australia (INCAS). PATIENTS: Antiretroviral therapy-naive adults free of the acquired immunodeficiency syndrome with CD4 cell counts between 0.20 and 0.60x10(9)/L (200-600/microL). INTERVENTION: Patients received zidovudine plus nevirapine (plus didanosine placebo), zidovudine plus didanosine (plus nevirapine placebo), or zidovudine plus didanosine plus nevirapine. MAIN OUTCOME MEASURE: Plasma HIV-1 RNA. RESULTS: Of the 153 enrolled patients, 151 were evaluable. At week 8, plasma HIV-1 RNA levels had decreased by log 2.18, 1.55, and 0.90 in the triple drug therapy, zidovudine plus didanosine, and zidovudine plus nevirapine groups, respectively (P<.05). The proportions of patients with plasma HIV-1 RNA levels below 20 copies per milliliter at week 52 were 51%, 12%, and 0% in the triple drug therapy, zidovudine plus didanosine, and zidovudine plus nevirapine groups, respectively (P<.001). Viral amplification was attempted in 59 patients at 6 months. Viral isolation was unsuccessful in 19 (79%) of 24, 10 (53%) of 19, and 5 (31%) of 16 patients in the triple drug therapy, zidovudine plus didanosine, and zidovudine plus nevirapine groups, respectively. Among patients from whom virus could be amplified, resistance to nevirapine was found in all 11 patients receiving zidovudine plus nevirapine and in all 5 patients receiving triple drug therapy. Rates of disease progression or death were 23% (11/47), 25% (13/53), and 12% (6/51) for the zidovudine plus nevirapine, zidovudine plus didanosine, and triple drug therapy groups, respectively (P=.08). CONCLUSIONS: Triple drug therapy with zidovudine, didanosine, and nevirapine led to a substantially greater and sustained decrease in plasma viral load than the 2-drug regimens studied. Our results also suggest that suppression of viral replication, as demonstrated by a decrease in the plasma HIV-1 RNA load below the level of quantitation of the most sensitive test available, may at least forestall the development of resistance.     

Maternal viral genotypic zidovudine resistance and infrequent failure of zidovudine therapy to prevent perinatal transmission of human immunodeficiency virus type 1 in pediatric AIDS Clinical Trials Group Protocol 076

Maternal samples were assessed from 96 women enrolled in Pediatric AIDS Clinical Trials Group protocol 076 to determine the prevalence of human immunodeficiency virus type 1 (HIV-1) genotypic zidovudine resistance at entry, if zidovudine resistance developed on study, and the role of zidovudine resistance in vertical transmission of HIV-1 despite zidovudine therapy. Low and high levels of genotypic resistance were assessed by differential hybridization, oligoligation, or direct sequencing of plasma HIV-1 RNA for codons K70R and T215Y/F. None of the women had high-level genotypic resistance to zidovudine at study entry or delivery. For low-level zidovudine resistance, the 95% confidence intervals were 0.3%-6.8% for baseline prevalence and 0.3%-14% for delivery incidence. Low-level zidovudine resistance, adjusted for plasma viral RNA level at delivery, was not strongly associated with an increase in vertical transmission risk (odds ratio, 4.8; 95% confidence interval, 0.2-131; P = .35).     

Anaesthesia in a parturient with Noonan''s syndrome

During a randomized double-blind study to assess the antiviral activity of saquinavir (SQV) alone or in combination with zidovudine (ZDV), the emergence of phenotypic resistance was evaluated in 44 patients treated with SQV (13 subjects), ZDV (14 subjects), and SQV plus ZDV (17 subjects). A significant (P< 0.05) lower CD4+ cell count and higher HIV RNA copy number at entry were found in six patients who developed resistant viral strain (3 to ZDV and 3 to SQV) during the first 4 months of treatment. After 1 year, drug-resistant strains (12 to ZDV and 14 to SQV) were isolated in 26 out of 37 patients. A significant higher number of patients treated with ZDV alone (10/13) harbored ZDV-resistant strains compared to patients treated by combination therapy (2/13); whereas more than 50% of patients had SQV-resistant strains aside from treatment. Early SQV-resistant strains were isolated in a limited number of patients treated with SQV alone (3/13). The rates of emergence of resistant strains during ZDV or SQV monotherapies are comparable. Combination therapy may delay the emergence of phenotypic resistance to either drugs in the short term and to ZDV, but not to SQV, at least after 1 year.     

Identification of a reservoir for HIV-1 in patients on highly active antiretroviral therapy

The hypothesis that quiescent CD4+ T lymphocytes carrying proviral DNA provide a reservoir for human immunodeficiency virus-type 1 (HIV-1) in patients on highly active antiretroviral therapy (HAART) was examined. In a study of 22 patients successfully treated with HAART for up to 30 months, replication-competent virus was routinely recovered from resting CD4+ T lymphocytes. The frequency of resting CD4+ T cells harboring latent HIV-1 was low, 0.2 to 16.4 per 10(6) cells, and, in cross-sectional analysis, did not decrease with increasing time on therapy. The recovered viruses generally did not show mutations associated with resistance to the relevant antiretroviral drugs. This reservoir of nonevolving latent virus in resting CD4+ T cells should be considered in deciding whether to terminate treatment in patients who respond to HAART.     

Using action research to facilitate organisational change in mental health service delivery

OBJECTIVE: To evaluate human immunodeficiency virus (HIV)-1 RNA burden in paired plasma and cervicovaginal lavage specimens and to assess the relation of plasma HIV-1 RNA level, CD4 cell count, and antiretroviral therapy with cervicovaginal HIV-1 viral load. METHODS: Paired blood and cervicovaginal lavage specimens were collected from 72 HIV-infected women. Quantitation of HIV-1 RNA from plasma and cervicovaginal lavage specimens was performed by using the nucleic acid sequence-based amplification assay. Analyses examined relations between cervicovaginal HIV-1 RNA and plasma HIV-1 RNA level, CD4 count, and antiretroviral therapy. RESULTS: Plasma HIV-1 RNA was detectable in 61 of 72 women (85%), with copy numbers ranging from 330 to 1,600,000 copies/mL. Twenty-eight of 72 (39%) had detectable HIV-1 RNA in cervicovaginal lavage specimens, ranging from 320 to 440,000 copies/mL. The cervicovaginal lavage HIV-1 RNA level was detectable in 9%, 29%, 52%, and 53% of the women with plasma HIV-1 RNA of less than 400, 400-9999, 10,000-100,000, and more than 100,000 copies, respectively (P = .043). Among women with CD4 counts of less than 200, 200-500, and greater than 500/mm3, cervicovaginal lavage HIV-1 RNA was detected in 67%, 32%, and 25% of subjects, respectively (P = .018). Among women receiving antiretroviral therapy, cervicovaginal lavage revealed HIV-1 RNA in 67%, 31%, and 25% with CD4 cell counts of less than 200, 200-500, and more than 500/mm3, respectively (P = .042). CONCLUSION: The presence of HIV-1 RNA in cervicovaginal lavage correlates significantly with the level of HIV-1 RNA in plasma and negatively with CD4 cell count.