Penetration of zidovudine into the cerebrospinal fluid of patients infected with HIV

Pharmacokinetic, Pharmacogenetic, and Other Factors Influencing CNS Penetration of Antiretrovirals

Neurological complications associated with the human immunodeficiency virus (HIV) are a matter of great concern. While antiretroviral (ARV) drugs are the cornerstone of HIV treatment and typically produce neurological benefit, some ARV drugs have limited CNS penetration while others have been associated with neurotoxicity. CNS penetration is a function of several factors including sieving role of blood-brain and blood-CSF barriers and activity of innate drug transporters. Other factors are related to pharmacokinetics and pharmacogenetics of the specific ARV agent or mediated by drug interactions, local inflammation, and blood flow. In this review, we provide an overview of the various factors influencing CNS penetration of ARV drugs with an emphasis on those commonly used in sub-Saharan Africa. We also summarize some key associations between ARV drug penetration, CNS efficacy, and neurotoxicity.

Pharmacokinetics and pharmacodynamics of antiretrovirals in the central nervous system

HIV-positive patients may be effectively treated with highly active antiretroviral therapy and such a strategy is associated with striking immune recovery and viral load reduction to very low levels. Despite undeniable results, the central nervous system (CNS) is commonly affected during the course of HIV infection, with neurocognitive disorders being as prevalent as 20-50 % of treated subjects. This review discusses the pathophysiology of CNS infection by HIV and the barriers to efficacious control of such a mechanism, including the available data on compartmental drug penetration and on pharmacokinetic/pharmacodynamic relationships. In the reviewed articles, a high variability in drug transfer to the CNS is highlighted with several mechanisms as well as methodological issues potentially influencing the observed results. Nevirapine and zidovudine showed the highest cerebrospinal fluid (CSF) to plasma ratios, although target concentrations are currently unknown for the CNS. The use of the composite CSF concentration effectiveness score has been associated with better virological outcomes (lower HIV RNA) but has been inconsistently associated with neurocognitive outcomes. These findings support the CNS effectiveness of commonly used highly antiretroviral therapies. The use of antiretroviral drugs with increased CSF penetration and/or effectiveness in treating or preventing neurocognitive disorders however needs to be assessed in well-designed prospective studies.

A novel tricyclic ligand-containing nonpeptidic HIV-1 protease inhibitor, GRL-0739, effectively inhibits the replication of multidrug-resistant HIV-1 variants and has a desirable central nervous system penetration property in vitro

We report here that GRL-0739, a novel nonpeptidic HIV-1 protease inhibitor containing a tricycle (cyclohexyl-bis-tetrahydrofuranylurethane [THF]) and a sulfonamide isostere, is highly active against laboratory HIV-1 strains and primary clinical isolates (50% effective concentration [EC50], 0.0019 to 0.0036 μM), with minimal cytotoxicity (50% cytotoxic concentration [CC50], 21.0 μM). GRL-0739 blocked the infectivity and replication of HIV-1NL4-3 variants selected by concentrations of up to 5 μM ritonavir or atazanavir (EC50, 0.035 to 0.058 μM). GRL-0739 was also highly active against multidrug-resistant clinical HIV-1 variants isolated from patients who no longer responded to existing antiviral regimens after long-term antiretroviral therapy, as well as against the HIV-2ROD variant. The development of resistance against GRL-0739 was substantially delayed compared to that of amprenavir (APV). The effects of the nonspecific binding of human serum proteins on the anti-HIV-1 activity of GRL-0739 were insignificant. In addition, GRL-0739 showed a desirable central nervous system (CNS) penetration property, as assessed using a novel in vitro blood-brain barrier model. Molecular modeling demonstrated that the tricyclic ring and methoxybenzene of GRL-0739 have a larger surface and make greater van der Waals contacts with protease than in the case of darunavir. The present data demonstrate that GRL-0739 has desirable features as a compound with good CNS-penetrating capability for treating patients infected with wild-type and/or multidrug-resistant HIV-1 variants and that the newly generated cyclohexyl-bis-THF moiety with methoxybenzene confers highly desirable anti-HIV-1 potency in the design of novel protease inhibitors with greater CNS penetration profiles.

Antiretroviral bioanalysis methods of tissues and body biofluids

Research in the many areas of HIV treatment, eradication and prevention has necessitated measurement of antiretroviral (ARV) concentrations in nontraditional specimen types. To determine the knowledgebase of critical details for accurate bioanalysis, a review of the literature was performed and summarized. Bioanalytical assays for 31 ARVs, including metabolites, were identified in 205 publications measuring various tissues and biofluids. 18 and 30% of tissue or biofluid methods, respectively, analyzed more than one specimen type; 35-37% of the tissue or biofluid methods quantitated more than one ARV. 20 and 76% of tissue or biofluid methods, respectively, were used for the analysis of human specimens. HPLC methods with UV detection predominated, but chronologically MS detection began to surpass. 40% of the assays provided complete intra- and inter-assay validation data, but only 9% of publications provided any stability data with even less for the prevalent ARV in treatments.

CSF penetration by antiretroviral drugs

Severe HIV-associated neurocognitive disorders (HAND), such as HIV-associated dementia, and opportunistic CNS infections are now rare complications of HIV infection due to comprehensive highly active antiretroviral therapy (HAART). By contrast, mild to moderate neurocognitive disorders remain prevalent, despite good viral control in peripheral compartments. HIV infection seems to provoke chronic CNS injury that may evade systemic HAART. Penetration of antiretroviral drugs across the blood-brain barrier might be crucial for the treatment of HAND. This review identifies and evaluates the available clinical evidence on CSF penetration properties of antiretroviral drugs, addressing methodological issues and discussing the clinical relevance of drug concentration assessment. Although a substantial number of studies examined CSF concentrations of antiretroviral drugs, there is a need for adequate, well designed trials to provide more valid drug distribution profiles. Neuropsychological benefits and neurotoxicity of potentially CNS-active drugs require further investigation before penetration characteristics will regularly influence therapeutic strategies and outcome.

AIDS dementia complex: incidence, clinical profile and impact of zidovudine treatment*

This study aimed to determine the incidence of AIDS dementia complex (ADC), the clinical data which distinguish it from other neurological complications of HIV infection, and the impact of zidovudine (AZT) therapy on the appearance and course of this condition. Data on the neurological complications of HIV patients treated at a community hospital from 1988 to 1992 were collected prospectively. Out of 500 AIDS patients treated at the hospital, there were 142 patients with neurological complications, with an average of 1.42 complications/patient There were 23 patients diagnosed as having ADC; with an estimated incidence of 4.6%, it was the most frequent neurological complication, after cerebral toxoplasmosis. Age was higher in patients with ADC as first manifestation of AIDS with respect to ADC patients with previous AIDS diagnosed. Compared with the group of patients suffering from other neurological complications, patients with ADC showed significant differences in several biological markers of progression to AIDS, such as hemoglobin, hematocrit, global lymphocyte count, serum β2-microglobulin and serum IgA. CD4 count was similar in both groups. Ten ADC patients had been treated previously with AZT. Dementia continued progressing in seven of these patients and remained stable in three. Of the other 13 cases not treated previously with the drug, eight received AZT therapy, and a favourable response was obtained in three patients (p = 0.068). ADC represents a major neurological complication in AIDS patients. AZT therapy may delay the appearance of ADC, but not prevent it. A trend towards a favourable response to AZT was observed in ADC patients who had not been treated with it previously.

Effects of different antiretroviral agents on cerebral function in HIV-infected individuals

Since the advent of effective antiretroviral therapy, the incidence of severe HIV-associated brain disease has declined dramatically; however, more subtle forms of cerebral impairment, known as HIV-associated neurocognitive disorders, are becoming increasingly recognized. Some of the risk factors for this impairment are well described and include nadir CD4+ cell count. However, the effects of different antiretroviral agents on cerebral function are only beginning to be unraveled. Overall, there are clear beneficial effects on neurocognitive function from antiretroviral therapy. Recent data suggest that some antiretroviral agents have more potent effects on improving cerebral function, whereas other antiretroviral agents may even be associated with direct cerebral toxicities.

Maraviroc-containing regimen suppresses HIV replication in the cerebrospinal fluid of patients with neurological symptoms

We report the concentrations of maraviroc in the cerebrospinal fluid (CSF) and plasma of six HIV-1-infected patients with both neurological impairment and detectable HIV-1 replication in CSF. One month after starting maraviroc, the viral load in the CSF decreased significantly (P = 0.005). The median (range) maraviroc concentration in plasma was 347 ng/ml (123-2678). Four patients had CSF concentrations above the protein-adjusted inhibitory concentration (IC90) of 0.57 ng/ml (0.06-10.7) with a median of 102 ng/ml (35-173).

Lopinavir cerebrospinal fluid steady-state trough concentrations in HIV-infected adults

BACKGROUND

The central nervous system may act as a sanctuary site for viral replication in the setting of low antiretroviral penetration. Data on lopinavir cerebrospinal fluid (CSF) trough concentration (C(trough)) values have yet to be reported.

OBJECTIVE

To describe lopinavir CSF C(trough) values and compare them with a measure of HIV susceptibility.

METHODS

In a prospective, open-label design, HIV-infected adults whose regimen included lopinavir/ritonavir 400/100-mg soft-gel capsules twice daily for at least 4 weeks were enrolled. Each subject had 8 plasma lopinavir concentrations determined over a 12-hour dosing interval and 1 CSF lopinavir C(trough) value determined at the end of the study. Linear regression methods tested for associations between CSF or CSF to plasma concentration ratio and covariates including pharmacokinetic parameters and CSF protein.

RESULTS

Ten patients (7 male; median [range] +/- SD age 45.3 +/- 2.8 y) completed the study. Median (intraquartile range [IQR]) lopinavir plasma 0- to 12-hour area under the curve (AUC(0-12)) and minimum concentrations were 71.3 h x microg/mL (48.4-87.6) and 3.82 microg/mL (2.76-5.34). Median (IQR) CSF C(trough), paired plasma concentration, and time since last dose were 11,200 pg/mL (6760-16,400), 5.42 microg/mL (3.88-5.85), and 9.9 hours (9.7-10.2), respectively. Median (IQR) CSF to plasma concentration ratio was 0.225% (0.194-0.324). Lopinavir CSF C(trough) was above the median 50% inhibitory concentration (IC(50)) for wild-type HIV-1 (wtHIV-1) (1900 pg/mL) in all subjects. Lopinavir plasma AUC(0-12) (r(2) = 0.65; p = 0.009) and CSF protein (r(2) = 0.26; p = 0.006) were associated with lopinavir CSF concentration, while CSF protein (r(2) = 0.66; p = 0.008) was associated with CSF to plasma concentration ratio.

CONCLUSIONS

Lopinavir CSF C(trough) was above the median IC(50) for wtHIV-1 replication in all patients receiving lopinavir/ritonavir 400/100-mg soft-gel capsules twice daily.

Darunavir concentrations in cerebrospinal fluid and blood in HIV-1-infected individuals

Darunavir is the most recently licensed protease inhibitor currently used in treatment-experienced HIV-infected individuals. Our objective was to determine darunavir concentrations in cerebrospinal fluid (CSF) and plasma in subjects receiving antiretroviral treatment regimens containing ritonavir-boosted darunavir. Darunavir concentrations were determined by liquid chromatography tandem mass spectrometry in 14 paired CSF and plasma samples from eight HIV-1-infected individuals. The lower limit of quantification was 5.0 ng/ml. All of the 14 CSF samples had detectable darunavir concentrations with a median darunavir concentration of 34.2 ng/ml (range 15.9-212.0 ng/ml). The median (range) plasma darunavir concentration was 3930 (1800-12900) ng/ml. All CSF samples had detectable darunavir concentrations. Most of them exceeded or were in the same range as levels needed to inhibit replication of wild type virus, making it probable that darunavir, at least to some extent, contributes to the suppression of HIV replication in the central nervous system.

Persistent intrathecal immune activation in HIV-1-infected individuals on antiretroviral therapy

BACKGROUND

Neopterin is a well-established marker of macrophage activation. The cerebrospinal fluid (CSF) neopterin levels are elevated in most HIV-1-infected individuals and decrease significantly after initiation of antiretroviral therapy (ART). Unexpectedly, CSF concentrations often remain mildly abnormal even in patients treated for a long time with suppressive ART. The aims of this study were to analyze if persistently elevated CSF neopterin levels were associated with the type of antiretroviral regimen or with low-level CSF HIV-1 concentrations and to evaluate if plasma HIV-1 RNA levels correlated to lingering CSF neopterin concentrations in patients with effective ART.

METHODS

One hundred fifty-seven chronically HIV-1-infected patients with stable ART for > or =6 months and no neurologic symptoms were included, and 193 HIV-1-infected patients without ART served as controls. Neopterin was analyzed with a radioimmunoassay or an enzyme-linked immunosorbent assay. HIV-1 RNA quantification was performed with the Roche Amplicor assay (version 1.5; Hoffman-La Roche, Basel, Switzerland). Two quantitative HIV-1 RNA assays with sensitivities < or =2.5 copies/mL were used in 40 samples.

RESULTS

As anticipated, HIV-1 RNA and CSF neopterin levels were markedly lower in patients on ART compared with untreated controls. No significant difference in CSF neopterin concentrations was found between those treated with protease inhibitor- and nonnucleoside reverse transcriptase inhibitor-based regimens in combination with 2 nucleoside analogues. Subjects with CSF HIV-1 RNA loads <2.5 copies/mL had the lowest CSF neopterin levels. Plasma viral load had no impact on intrathecal immune activation in cases with CSF viral loads <50 copies/mL.

CONCLUSION

The persistent intrathecal cell-mediated immune response was associated with CSF viral load but not with treatment regimen in individuals on ART.

Comparison of HIV-1 pol and env sequences of blood, CSF, brain and spleen isolates collected ante-mortem and post-mortem

OBJECTIVES

HIV-1 infects the central nervous system (CNS) early in the course of infection. However, it is not known to what extent the virus evolves independently within the CNS and whether the HIV-RNA in cerebrospinal fluid (CSF) reflects the viral population replicating within the brain parenchyma or the systemic infection. The aim of this study was to investigate HIV-1 evolution in the CNS and the origin of HIV-1 in CSF.

MATERIALS AND METHODS

Longitudinally derived paired blood and CSF samples and post-mortem samples from CSF, brain and spleen were collected over a period of up to 63 months from three HIV-1 infected men receiving antiretroviral treatment and presenting with symptoms of AIDS dementia complex (ADC).

RESULTS

Phylogenetic analyses of HIV-1 V3, reverse transcriptase (RT) and protease sequences from patient isolates suggest compartmentalization with distinct viral strains in blood, CSF and brain. We found a different pattern of RT and accessory protease mutations in the systemic infection compared to the CNS.

CONCLUSIONS

We conclude that HIV-1 may to some extent evolve independently in the CNS and the viral population in CSF mainly reflects the infection in the brain parenchyma in patients with ADC. This is of importance in understanding HIV pathogenesis and can have implications on treatment of HIV-1 patients.

Pharmacokinetics of the anti-human immunodeficiency virus agent 1-(beta-D-dioxolane)thymine in rhesus monkeys

Beta-D-dioxolane-thymine (D-DOT) has potent and selective in vitro activity against several clinically important resistant human immunodeficiency virus (HIV) mutants and is in advanced preclinical development. Therefore, the single-dose intravenous and oral pharmacokinetics of D-DOT were studied with three rhesus monkeys. The pharmacokinetic profiles of D-DOT in serum and urine were adequately described by a two-compartment open pharmacokinetic model. D-DOT was rapidly and almost completely absorbed (absorption rate constant = 2.7 h(-1); fraction of oral dose absorbed = 0.82 to 1.06). The average serum beta half-life was 2.16 h. The average central and steady-state volumes of distributions were 0.52 and 1.02 liter/kg of body weight, respectively, and the average systemic and renal clearance values were 0.36 liter/h/kg and 0.18 liter/h/kg. Four or eight percent of administered D-DOT was eliminated in the urine as glucuronide within 8 h after intravenous or oral administration, respectively. D-DOT reached levels in the cerebrospinal fluid in excess of 10 to 20 times the median effective concentration for wild-type HIV and resistant mutants. The potent antiretroviral activity of D-DOT against a lamivudine- and zidovudine-resistant HIV-1 mutant, together with an excellent pharmacokinetic profile for rhesus monkeys, suggest that further development is warranted.

Cerebrospinal Fluid Viral Loads Reach Less than 2 Copies/ML in HIV-1-Infected Patients with Effective Antiretroviral Therapy

Background

A low-grade persisting viraemia despite long-term treatment with highly active antiretroviral therapy (HAART) has previously been demonstrated in HIV-1-infected patients. Whether ongoing viral replication also could be detected in cerebrospinal fluid (CSF) in those circumstances has not been studied before.

Methods

Paired CSF and blood samples from 13 neurologically asymptomatic HIV-1-infected patients on stable HAART were analysed regarding HIV-1 RNA, by using a PCR assay with a detection limit of 2 copies/ml.

Results

All 13 patients had HIV-1 RNA <2 copies/ml in CSF, compared with 8/13 in plasma.

Conclusion

We could not demonstrate any persistent viral replication in the CSF of neurologically asymptomatic HIV-1-infected patients on effective HAART, rendering it unlikely that CSF acts as a viral reservoir in this category of patients.

The AIDS dementia complex: clinical and basic neuroscience with implications for novel molecular therapies

The AIDS dementia complex (ADC, also referred to as HIV-associated cognitive impairment) is a common disorder among HIV-infected patients associated with both inflammatory and neurodegenerative processes. This review describes recent advances in the clinical and basic neurosciences of HIV infection and discusses the multivariable nature of what has become a chronic disorder in the context of highly active antiretroviral therapies (HAART). Since its initial description twenty years ago, advances in cell and molecular biology along with those in neuroimaging have furthered our understanding of the underlying pathogenic mechanisms. The clinical and neuropsychological profile of ADC is generally consistent with a "frontal-subcortical" pattern of injury. Neuropathogenesis is largely driven by indirect mechanisms mediated by infected, or more commonly, immune activated macrophages, which secrete viral and host-derived factors. Magnetic resonance spectroscopy (MRS) provides a robust in vivo method to measure the inflammatory and neurotoxic events triggered by these factors and their associated signals. Although the use of combined or highly active antiretroviral therapies (HAART) has significantly improved survival rates, cerebral injury and cognitive impairment remain common events. Factors such as aging and chronic infection will likely impact the course of this disease, its pathogenesis, and treatment. The combined observations presented in this review suggest a number of critical areas for future inquiry.

Rapidly progressed acquired immunodeficiency syndrome dementia complex as an initial manifestation

We report a patient with acquired immunodeficiency syndrome dementia complex (ADC) that presented human immunodeficiency virus infection as an initial manifestation. A 34-year-old man developed disturbance of consciousness and severe abulia over 3 months. The CD4 lymphocyte count was 7.9/microl, while human immunodeficiency virus RNA in blood amounted to 4.2 x 10(4) copies/ml. T2-weighted magnetic resonance imaging showed diffusely high signal intensity in the deep white matter of both cerebral hemispheres. On the 20th hospital day, the patient died of sepsis caused by methicillin-resistant Staphylococcus aureus. Autopsy findings in the brain included increased glial cells and multinucleated giant cells in cerebral white matter and subcortical gray matter. These features were compatible with ADC.

Enhancing antiretroviral therapy for human immunodeficiency virus cognitive disorders

The benefits of combination antiretroviral therapy (ART) for HIV cognitive disorders vary substantially between individuals. This study evaluated whether cerebrospinal fluid (CSF) drug penetration and CSF virological suppression influence the extent of neuropsychological (NP) improvement during ART. Overall performance on a battery of NP tests administered at baseline and follow-up (median 15 weeks) was computed by using the global deficit score (GDS) methods in 31 cognitively impaired, HIV-infected individuals who began new ART regimens. Virological suppression (attaining undetectable viral load by RT-PCR at follow-up) was assessed separately for plasma and CSF. Subjects on regimens containing greater numbers of CSF-penetrating drugs showed significantly greater reduction in CSF viral load. Subjects attaining CSF virological suppression demonstrated greater GDS improvement than those who did not (median GDS change, 0.62 vs 0.23; p = 0.01). A similar trend for plasma did not reach statistical significance (p = 0.053). NP improvement was greater in ART-naive versus treatment-experienced subjects. In a multivariate model (overall p = 0.0008), significant, independent predictors of GDS reduction were CSF HIV RNA suppression, baseline antiretroviral history, and their interaction. Including CSF-penetrating drugs in the ART regimen and monitoring CSF viral load may be indicated for individuals with HIV-associated cognitive impairment.

Antiviral activity and pharmacokinetics of 1-(2,3-dideoxy-2-fluoro-beta-L-glyceropent-2-enofuranosyl)cytosine

1-(2,3-Dideoxy-2-fluoro-beta-L-glyceropent-2-enofuranosyl)cytosine (L-2'-Fd4C) is an L-nucleoside analogue with both anti-human immunodeficiency virus (HIV) and anti-hepatitis B virus (HBV) activity with median effective concentrations of 0.12 microM in peripheral blood mononuclear cells and 0.002 microM in HepG2-2.2.15 cells, respectively. The purpose of this study was to examine the antihepadnavirus potency and pharmacokinetics of L-2'-Fd4C in vivo. HBV-transgenic mice treated intraperitoneally with L-2'-Fd4C showed a reduction of HBV levels in their blood comparable to that produced by lamivudine. The pharmacokinetics of L-2'-Fd4C in rhesus monkeys was evaluated after intravenous and oral administration. The concentrations in plasma declined in a biexponential manner after intravenous administration, with a long terminal-phase half-life of 5.02 h. The steady-state volumes of distribution and systemic clearance were 1.09 liter x kg(-1) and 0.25 liter x h(-1) x kg(-1), respectively, with a renal clearance of 0.16 liter x h(-1) x kg(-1). The oral bioavailability was approximately 44%. About 53% of the compound administered intravenously and 19% of that administered orally were recovered unchanged in the urine within the 24-h urine collection period, and no other metabolite was detected. The compound penetrated the central nervous system at concentrations that exceeded the median effective antiviral concentration against HIV in cell cultures. Based upon these observations, further testing to develop this agent for treatment of HIV and HBV infections is warranted.

Assessing the efficacy of highly active antiretroviral therapy in the brain

The devastating effects of HIV infection have been documented for the last 2 decades. Since the 1980s over 60 million people have been infected and at present 40 million people globally are living with HIV. HIV infects the central nervous system (CNS) early in the disease process. Indeed, numerous studies document the presence of HIV within the cerebrospinal fluid (CSF). Direct infection of the brain by HIV ultimately results in HIV associated dementia (HAD), which (prior to the advent of antiretroviral therapy) affected 20% of patients. An increasing number of drugs have been developed to treat this infection and delay the development of AIDS. Current treatment is aimed at inhibiting viral replication, and thus, lowering the viral load. However a subsequent increase in viral load can occur as patients become resistant to drug therapy. In the era of HAART, the incidence of HAD has been reduced, whereas the prevalence rate is increasing as people with HIV survive longer. However, in a study of initial AIDS defining illnesses, the proportion with HIV related dementia did not decline following introduction of HAART. In a separate study, no decrease was found in the incidence of dementia per se, although there was a decrease in the incidence of all AIDS-defining illnesses during this time period. It is evident from most studies that since the introduction of HAART, its effect on HAD is not entirely clear, although the majority of findings indicate that it is beneficial. Here we will outline the issues relevant to preventing HAD by HAART.

Clinical implications of CNS penetration of antiretroviral drugs

The CNS serves as an important sanctuary site for HIV replication. The presence of HIV in this compartment may contribute to neurological complications in individuals infected with HIV. Understanding the CNS penetration capabilities of available antiretroviral agents may help clinicians to design treatment regimens with neuroprotective effects. Although numerous clinical studies and anecdotal reports have examined CSF antiretroviral drug exposure as a marker of CNS penetration, understanding the clinical relevance of these findings is difficult. Challenges with study design and subject recruitment often limit the investigator's ability to collect comprehensive data. Upon review of available data, the antiretroviral agents zidovudine, stavudine, lamivudine, nevirapine, efavirenz and indinavir demonstrate consistent penetration into the CSF. Zidovudine-, stavudine-, lamivudine-, didanosine- and protease inhibitor-based regimens also appear to suppress CSF viraemia or improve HIV neurological disease. These agents may be appropriate candidates for neuroprotective antiretroviral treatment regimens. Despite these data, several unanswered questions about the CSF antiretroviral drug exposure-response relationship still remain. Prospective, controlled studies examining this relationship are needed before absolute clinical recommendations are founded.

Antiretroviral treatment of central nervous system HIV-1 infection: a review

HIV-1 infects the central nervous system (CNS) and it has been feared that the CNS may be a sanctuary site where HIV-1 could hide and continue to replicate despite otherwise effective antiretroviral treatment. Neurological HIV-1 related symptoms, cerebrospinal fluid (CSF) viral load, intrathecal immunoactivation and CSF drug concentration measurements are considered in this review of antiretroviral treatment effects on CNS HIV-1 infection. We conclude that antiretroviral combination treatment regimens improve neurocognitive symptoms in HIV-1 infection and substantially lower CSF viral load. The threat of an increasing number of patients with neurological symptoms and continued HIV-1 replication in the brain despite otherwise effective antiretroviral therapy has not yet proved to be a problem. It is, however, important to keep this potential risk in mind, and more longitudinal prospective studies addressing the issue of antiretroviral treatment effects on CNS HIV-1 infection are needed.

Cerebrospinal fluid and plasma viral load in HIV-1-infected patients with various anti-retroviral treatment regimens

Highly active anti-retroviral therapy (HAART) effectively decreases HIV-1 RNA in cerebrospinal fluid (CSF) and plasma in controlled clinical trials. To study the virological effect in CSF and plasma achieved in routine practice, HIV-1 RNA levels were analysed retrospectively in 27 patients on mono-nucleoside reversed transcriptase inhibitor (NRTI) treatment, 27 on dual-NRTI-treatment and 45 on HAART using a Roche Amplicor HIV-1 monitor quantitative PCR. A significant difference was found in the proportion of patients with a CSF viral load below 20 copies/ml between patients treated with 1 (0%) and 2 NRTIs (41%) as well as between those treated with 2 NRTIs and HAART (69%). The proportion of patients with plasma viral load below 20 copies/ml differed significantly between patients on HAART (47%) and those on 2 NRTIs (0%), but not between those with 1 (0%) or 2 NRTIs. In multivariate regression analysis, treatment regimen and prior anti-retroviral experience (but not treatment time) were independently associated with the CSF viral load. Plasma viral load was independently associated with treatment regimen and treatment time, but not with anti-retroviral experience. Dual-NRTI-treatment affects the CSF viral load substantially, while HAART is required to achieve an essential decline in plasma viral load.

Multiple-dose pharmacokinetics and pharmacodynamics of abacavir alone and in combination with zidovudine in human immunodeficiency virus-infected adults

Abacavir (1592U89) is a nucleoside reverse transcriptase inhibitor with potent activity against human immunodeficiency virus type 1 (HIV-1) when used alone or in combination with other antiretroviral agents. The present study was conducted to determine the multiple-dose pharmacokinetics and pharmacodynamics of abacavir in HIV-1-infected subjects following oral administration of daily doses that ranged from 600 to 1,800 mg, with and without zidovudine. Seventy-nine subjects received abacavir monotherapy for 4 weeks (200, 400, or 600 mg every 8 hours [TID] and 300 mg every 12 h [BID]) and thereafter received either zidovudine (200 mg TID or 300 mg BID) or matching placebo with abacavir for 8 additional weeks. Pharmacokinetic parameters were calculated for abacavir after administration of the first dose and at week 4 and for abacavir, zidovudine, and its glucuronide metabolite at week 12. The concentrations of abacavir in cerebrospinal fluid were determined in a subset of subjects. Steady-state plasma abacavir concentrations were achieved by week 4 of monotherapy and persisted to week 12. At steady state, abacavir pharmacokinetic parameters (area under the plasma concentration-time curve for a dosing interval [AUC(tau)] and peak concentration [C(max)]) were generally proportional to dose over the range of a 600- to 1,200-mg total daily dose. Coadministration of zidovudine with abacavir produced a small and inconsistent effect on abacavir pharmacokinetic parameters across the different doses. At the clinical abacavir dose (300 mg BID) zidovudine coadministration had no effect on the abacavir AUC(tau), which is most closely associated with efficacy. Zidovudine pharmacokinetics appeared to be unaffected by abacavir. Statistically significant but weak relationships were found for the change in the log(10) HIV-1 RNA load from the baseline to week 4 versus total daily AUC(tau) and C(tau) (P < 0.05). The incidence of nausea was significantly associated with total daily AUC(tau) and C(max). In conclusion, abacavir has predictable pharmacokinetic characteristics following the administration of multiple doses.

Pharmacokinetics of [(14)C]abacavir, a human immunodeficiency virus type 1 (HIV-1) reverse transcriptase inhibitor, administered in a single oral dose to HIV-1-infected adults: a mass balance study

Abacavir (1592U89) ((-)-(1S, 4R)-4-[2-amino-6-(cyclopropylamino)-9H-purin-9-yl]-2-cyclopentene- 1-m ethanol) is a 2'-deoxyguanosine analogue with potent activity against human immunodeficiency virus (HIV) type 1. To determine the metabolic profile, routes of elimination, and total recovery of abacavir and metabolites in humans, we undertook a phase I mass balance study in which six HIV-infected male volunteers ingested a single 600-mg oral dose of abacavir including 100 microCi of [(14)C]abacavir. The metabolic disposition of the drug was determined through analyses of whole-blood, plasma, urine, and stool samples, collected for a period of up to 10 days postdosing, and of cerebrospinal fluid (CSF), collected up to 6 h postdosing. The radioactivity from abacavir and its two major metabolites, a 5'-carboxylate (2269W93) and a 5'-glucuronide (361W94), accounted for the majority (92%) of radioactivity detected in plasma. Virtually all of the administered dose of radioactivity (99%) was recovered, with 83% eliminated in urine and 16% eliminated in feces. Of the 83% radioactivity dose eliminated in the urine, 36% was identified as 361W94, 30% was identified as 2269W93, and 1.2% was identified as abacavir; the remaining 15.8% was attributed to numerous trace metabolites, of which <1% of the administered radioactivity was 1144U88, a minor metabolite. The peak concentration of abacavir in CSF ranged from 0.6 to 1.4 microg/ml, which is 8 to 20 times the mean 50% inhibitory concentration for HIV clinical isolates in vitro (0.07 microg/ml). In conclusion, the main route of elimination for oral abacavir in humans is metabolism, with <2% of a dose recovered in urine as unchanged drug. The main route of metabolite excretion is renal, with 83% of a dose recovered in urine. Two major metabolites, the 5'-carboxylate and the 5'-glucuronide, were identified in urine and, combined, accounted for 66% of the dose. Abacavir showed significant penetration into CSF.

The penetration of anti-infectives into the central nervous system

The blood-brain barrier, blood-cerebrospinal fluid (CSF) barrier, and meninges are a complex and difficult-to-study system charged with protecting the central nervous system (CNS) from toxins, including drugs. Current estimates of CNS drug exposure are limited to CSF to blood ratios, of which area-under-the curve (AUC) estimates provide the most robust measure of drug exposure. Different classes of drugs and individual drugs within classes have different CNS penetration potential that is dependent upon a variety of biologic and pharmacologic factors. Clinical data (AUC and point ratios) regarding the penetration of several anti-infective agents used for the treatment of CNS infections are provided in this article.

Investigation of distribution, transport and uptake of anti-HIV drugs to the central nervous system

The distribution of currently available anti-HIV drugs into the CNS is reviewed with a focus on transport mechanisms. Among these drugs, nucleoside analogs are most well studied for their CNS distribution. The average reported values of the CSF/plasma steady-state concentration or corresponding AUC ratios are 0.23 (AZT), 0.06 (ddI), 0.04 (ddC), 0.49 (d4T), and 0.08 (3TC). Active efflux transport out of the CNS appears to be a predominant mechanism limiting nucleoside access to the CNS, although poor penetration may contribute to some extent for some polar nucleosides. The nature of the efflux pump for these drugs is speculated to be MRP-like transporter(s) in blood-brain and blood-CSF barriers. For non-nucleoside and protease inhibitors, much research remains to be done on the extent, time course, and mechanisms of their CNS distribution. The CNS penetration of some protease inhibitors is restricted by P-glycoprotein. A better understanding of transport mechanisms of anti-HIV drugs in the CNS is essential to develop approaches to enhance CNS delivery of available drugs and to identify new drugs less subject to active efflux transporter(s) in the CNS.

Neurological outcomes in late HIV infection: adverse impact of neurological impairment on survival and protective effect of antiviral therapy. AIDS Clinical Trial Group and Neurological AIDS Research Consortium study team

OBJECTIVE

In a large multi-center clinical trial of combination reverse transcriptase inhibitors (RTIs), we assessed the impact of antiretroviral therapy on neurological function, the relationship between neurological and systemic benefit, and the prognostic value of neurological performance in late HIV-1 infection.

DESIGN

Neurological evaluations incorporated in a randomized, multi-center trial of combination antiretroviral therapy.

SETTING

Forty-two AIDS Clinical Trials Group sites and seven National Hemophilia Foundation sites.

PATIENTS

Adult HIV-infected patients (n = 1313) with CD4 counts < 50 x 10(6) cells/l.

INTERVENTIONS

Four combinations of reverse transcriptase inhibitors consisting of zidovudine (ZDV), alternating monthly with didanosine (ddl), or in combination with zalcitabine (ddC), ddl or ddl and nevirapine.

MAIN OUTCOME MEASURES

Mean change from baseline of a four-item quantitative neurological performance battery score, the QNPZ-4, administered to 1031 subjects.

RESULTS

Triple therapy and ZDV/ddl combination preserved or improved neurological performance over time compared with the alternating ZDV/ddl and ZDV/ddC regimens (P < 0.001), paralleling their impact on survival in the same trial as previously reported. QNPZ-4 scores were predictive of survival (P < 0.001), after adjusting for CD4 counts and HIV-1 plasma RNA concentrations.

CONCLUSIONS

Combination antiretroviral therapy can have a salutary effect on preserving or improving neurological function. Superior systemic treatments may likewise better preserve neurological function. The significant association of poor neurological performance with mortality, independent of CD4 counts and HIV-1 RNA levels indicates that neurological dysfunction is an important cause or a strong marker of poor prognosis in late HIV-1 infection. This study demonstrates the value of adjunctive neurological measures in large therapeutic trials of late HIV-1 infection.

Cerebrospinal-fluid HIV-1 RNA and drug concentrations after treatment with lamivudine plus zidovudine or stavudine

BACKGROUND

Treatment and prevention of HIV-1-related central-nervous-system disease may be dependent on penetration of antiretroviral drugs into the central nervous system. Few data are available about cerebrospinal-fluid penetration and concomitant changes of HIV-1-RNA concentrations during treatment with antiretroviral agents. We investigated these effects in HIV-1-infected people.

METHODS

28 antiretroviral-naive individuals with CD4 cell counts of 200/microL or more and plasma HIV-1-RNA concentrations of 10,000 or more copies/mL who were free of neurological symptoms were randomly assigned lamivudine plus either stavudine (n = 17) or zidovudine (n = 11). We did lumbar punctures on 28 individuals before and 22 individuals after 12 weeks of treatment to assess HIV-1-RNA and drug concentrations in cerebrospinal fluid.

FINDINGS

All 28 individuals had detectable HIV-1-RNA concentrations in the cerebrospinal fluid (median 4.64 log10 copies/mL and 4.20 log10 copies/mL in the lamivudine plus zidovudine and lamivudine plus stavudine groups, respectively). There was no correlation between plasma and cerebrospinal-fluid HIV-1-RNA concentrations (r = 0.18, p = 0.35). After 12 weeks of treatment none of the individuals had detectable HIV-1-RNA concentrations in the cerebrospinal fluid. The highest drug concentration in the cerebrospinal fluid was for lamivudine followed by stavudine and zidovudine. Concentrations were consistent over time, unlike plasma concentrations. Therefore, we found time-dependent cerebrospinal-fluid to plasma drug-penetration ratios, which were highest for zidovudine followed by stavudine and lamivudine.

INTERPRETATION

The two drug combinations were equally effective in the decrease of cerebrospinal fluid HIV-1-RNA concentrations. All drugs penetrated the cerebrospinal fluid. Antiretroviral drugs other than zidovudine might be useful in the prevention of AIDS dementia complex.

Measurement of viral sequences in cerebrospinal fluid of AIDS patients with cerebral white-matter lesions using polymerase chain reaction

OBJECTIVES

To optimize the use of polymerase chain reaction (PCR) on cerebrospinal fluid (CSF) for the evaluation of central nervous system (CNS) white-matter lesions that along with clinical findings and magnetic resonance imaging (MRI) can allow a definite diagnosis to be made; also to evaluate treatment with zidovudine plus foscarnet.

DESIGN AND METHODS

Fifteen AIDS patients with uncertain CNS white-matter lesions were identified. HIV-1 RNA, cytomegalovirus (CMV) and JC virus (JCV) DNA were measured in a total of 29 CSF samples. The results were correlated with clinical and MRI findings and treatment with zidovudine plus foscarnet was evaluated.

RESULTS

Four and five out of 15 patients with CMV DNA > or = 1 : 625 and JCV DNA > or = 10(3) copies/microl detected in the CSF were diagnosed with CMV and progressive multifocal leukoencephalopathy (PML), respectively. Six patients who were CMV/JCV-negative with the highest levels of HIV RNA (median, 6.87 log10 copies/ml) in CSF were considered as having HIV-1 encephalitis. Neurological symptoms were non-supportive for diagnosis as was MRI in 11 out of 15 patients. Nine patients completed a 21-day course of zidovudine plus foscarnet. HIV RNA decreased irrespective of neurological diagnosis. All three HIV-1 encephalitis patients and two out of three patients with CMV leukoencephalopathy improved. In these two latter patients, relief of clinical symptoms coincided with decreased CMV DNA. JCV DNA remained unchanged and all three PML patients deteriorated.

CONCLUSIONS

Measurement of CSF viral sequences supports the diagnosis of CNS white-matter lesions in AIDS patients. While effective therapy for PML remains elusive, treatment including zidovudine plus foscarnet may be a promising option for HIV-1 and CMV-related manifestations.

Impact of antiretroviral treatment on AIDS dementia: a longitudinal prospective event-related potential study

We investigated the impact of antiretroviral treatment on event-related potentials (ERP) as a possible marker of AIDS dementia. A total of 154 HIV-infected patients without central nervous system (CNS) neoplasm or opportunistic infection were examined and randomized to receive either zidovudine 500 mg/day or no antiretroviral treatment. The participants were prospectively examined by visually evoked ERP in a longitudinal design. Latencies and amplitudes of ERP were evaluated at the beginning of the study, after 1 year, and after 2 years. After 1 year, 98 patients could be analyzed, 47 of whom were taking zidovudine. In the treatment group, P3 latency was 419 +/- 55 msec at baseline and 424 +/- 52 msec at follow-up (not significant). In the patients without treatment, P3 latency was 437 +/- 42 msec at baseline and 462 +/- 53 msec at follow-up (p < .0001, Wilcoxon test). A significant inverse correlation existed between P3 latency and CD4 cell count in both groups. The increase of P3 latency in untreated patients and a stable P3 latency in treated patients could be confirmed in a subgroup analysis of 21 patients with a follow-up of three examinations in a 2-year period. Our data suggest that zidovudine has a positive impact on AIDS dementia as measured by ERP. This finding was observed in patients in different stages of HIV infection, thus suggesting that zidovudine is indicated in all stages of HIV infection to treat encephalopathy.

Absorption and elimination kinetics of zidovudine in the cerebrospinal fluid in HIV-1-infected patients

Current knowledge of zidovudine (ZDV) levels in human cerebrospinal fluid (CSF) is limited to single sample determination and extrapolation to time after administration. Longitudinal studies have not been performed. Pharmacokinetic parameters of ZDV in CSF were determined in six HIV-1-infected patients. CSF samples were collected by an intraspinal catheter over a period of 6 hours after a single intravenous (IV) dose of ZDV (2.5 mg/kg). ZDV concentrations were measured by high-performance liquid chromatography (HPLC). ZDV was cleared rapidly from plasma, with a mean terminal elimination half-life (t 1/2) of 75.5 +/- 4.9 minutes. ZDV penetrated slowly into the CSF, reaching maximal concentration (Cmax) 2 hours after the start of the infusion in all patients. ZDV was cleared from the CSF with a mean t 1/2 of 187.6 +/- 69.3 minutes. Mean Cmax in the CSF was 1.3 +/- 1.2 micromol/l (17% of that of plasma), and mean area under the concentration time curve (AUC) was 358 +/- 200 micromol x minutes/l (75% of that of plasma). There was a significant correlation between plasma and CSF for Cmax (r = 0.88, p = .009) and AUC (r = 0.89, p = .014). Calculated trough levels in CSF for a 12-hour dosing interval were 0.090 +/- 0.065 micromol/l and thus about twice the 50% inhibitory concentration (IC50) of susceptible HIV strains. The CSF-plasma ratio of ZDV increased in a nearly linear fashion with time after drug administration. Thus, ZDV has a distinct pharmacokinetic profile in CSF compared with other compartments of the body.

Penetration of 3'-amino-3'-deoxythymidine, a cytotoxic metabolite of zidovudine, into the cerebrospinal fluid of HIV-1-infected patients

The penetration of 3'-amino-3'-deoxythymidine (AMT) into the cerebrospinal fluid (CSF) of HIV-1-infected patients has been investigated. In 23 patients who used zidovudine (ZDV) chronically, CSF and plasma samples were assayed for AMT and ZDV. The influences of time between ZDV oral administration and lumbar puncture, of ZDV dose, and of the medical indication for lumbar puncture based on the concentration of AMT in CSF and on the CSF-plasma concentration ratio were investigated. AMT can be detected in the CSF after oral administration of ZDV; concentrations of AMT in CSF ranged from 0.75 to 4.8 ng/ml (median, 1.7 ng/ml). The median CSF-plasma concentration ratio was 1, and equaled that for ZDV. CSF and plasma concentrations of AMT were approximately threefold higher in patients with cerebral toxoplasmosis; the CSF-plasma concentration ratio remained equal to unity in these cases. This phenomenon might be caused by a pharmacokinetic interaction between AMT and pyrimethamine, sulfadiazine, folinic acid, or a combination of these. The clinical relevance of AMT, especially the possibility of decreased efficacy of ZDV, throughout the body and in the central nervous system, and the involvement of this metabolite in ZDV-induced myelosuppression, remains to be established.

Pharmacokinetics of (-)-beta-D-2-aminopurine dioxolane and (-)-beta-D-2-amino-6-chloropurine dioxolane and their antiviral metabolite (-)-beta-D-dioxolane guanine in rhesus monkeys

(-)-beta-D-2-Aminopurine dioxolane (APD) and (-)-beta-D-2-amino-6-chloropurine dioxolane (ACPD) are recently synthesized dioxolanylpurine nucleoside derivatives being developed as potential prodrugs for the antiviral nucleoside analog (-)-beta-D-dioxolane guanine (DXG). In vitro, APD and ACPD are converted to DXG by xanthine oxidase and adenosine deaminase, respectively. The purpose of this study was to evaluate the preclinical pharmacokinetics of APD and ACPD and their potential for generating sustained levels of the parent nucleoside, DXG, in rhesus monkeys following oral administration. Both nucleoside derivatives were rapidly absorbed, with similar peak concentrations achieved within 1 h after administration. However, concentrations of APD were more markedly sustained than those of ACPD. Both prodrugs yielded DXG, but significantly higher serum concentrations of DXG and area under the concentration-time curve values were observed following administration of APD. In addition, APD produced higher concentrations of prodrug and DXG in cerebrospinal fluid than did ACPD. Thus, the results of this pharmacokinetic study suggest that APD is likely to serve as a better prodrug of DXG and should be considered for clinical trials for antiviral therapy against human immunodeficiency virus and hepatitis B virus.

Intrathecal immunoactivation in patients with HIV-1 infection is reduced by zidovudine but not by didanosine

The effect of zidovudine and didanosine on the cerebrospinal fluid (CSF) concentrations of neopterin was studied in 12 patients with human immunodeficiency virus type-1 (HIV-1) infection 3-12 months after initiation of antiretroviral therapy. Ten treatment periods on zidovudine and 7 on didanosine were analysed. The CSF concentrations of neopterin decreased by 63% (from 29.6 to 12.9 nmol/l, p < 0.01) during zidovudine but increased by 15% (from 22.6 to 25.9 nmol/l, not significant during didanosine treatment. The CSF monocytic cell count decreased during zidovudine but increased during didanosine treatment. The results suggest that zidovudine but not didanosine reduces intrathecal immunoactivation during HIV-1 infection.

Study on didanosine concentrations in cerebrospinal fluid. Implications for the treatment and prevention of AIDS dementia complex

It has been hypothesized that didanosine has a low efficacy in the prevention and treatment of patients with the dementia complex of acquired immunodeficiency syndrome (AIDS) because "... the drug has not been detected in the cerebrospinal fluid". We investigated didanosine concentrations in cerebrospinal fluid (CSF) and plasma of four patients with AIDS who were using didanosine chronically. Didanosine levels, 4 h after the last drug administration, averaged 0.16 (+/- 0.03) mumol/l in CSF and 0.70 (+/- 0.27) mumol/l in plasma. When compared with historical data from patients using zidovudine, didanosine concentrations in CSF appeared to be approximately half (on a molar base) those of zidovudine concentrations in the CSF. Whether this difference in CSF levels is the explanation for the presumed lower efficacy of didanosine in the prevention and treatment of AIDS dementia complex remains to be proven. However, it is clear from this study, in contrast with earlier suggestions, that didanosine is able to pass the blood-CSF barrier in human immunodeficiency virus-infected individuals.

Neurophysiological evaluation of zidovudine in asymptomatic HIV-1 infection: a longitudinal placebo-controlled study

The effect of early antiretroviral medication with zidovudine on neurophysiological functions was evaluated in subjects with asymptomatic HIV-1 infection. Patients were recruited participants of a larger double-blind randomised placebo-controlled treatment trial with zidovudine (Concorde). The main outcome measures included: quantitative electroencephalography (QEEG), auditory event-related potentials (AEP) and pattern-reversal visual evoked potentials (PRVEP), as well as standard clinical, virological and immunological markers. No significant impairment and no difference between treatment groups was found in visual P100 latency and auditory long-latency P3 responses which is in agreement with the absence of neurological and neuropsychological impairment over the study period. Significant treatment effects were revealed by quantitative electroencephalography (QEEG). While the placebo group showed a significant increase in delta and theta slow frequency QEEG activity over the study period, slow wave amplitude remained unchanged in the zidovudine group after a mean follow-up period of 28 months. In summary, the data provide evidence for a low level neuropathological process in asymptomatic HIV-1 infection which can be effectively suppressed by antiretroviral medication.

Concise overview of the clinical pharmacokinetics of dideoxynucleoside antiretroviral agents

In this paper aspects of the clinical pharmacokinetics of the antiretroviral agents zidovudine, didanosine and zalcitabine are reviewed. Special attention is paid to possibly altered pharmacokinetics in special circumstances, such as hepatic and renal dysfunction, pregnancy, stage of disease, etc. The dideoxynucleoside antiretroviral agents have some clinical pharmacokinetic properties in common (rapid absorption and elimination), but substantial differences exist in their degree of absorption, metabolism and penetration into the cerebrospinal fluid. All agents display wide interpatient variability in pharmacokinetic parameters. The relevance of therapeutic drug monitoring of antiretroviral agents is also discussed.

Reverse transcriptase sequence of paired isolates of cerebrospinal fluid and blood from patients infected with human immunodeficiency virus type 1 during zidovudine treatment

Human immunodeficiency virus type 1 (HIV-1) isolates obtained from the blood of patients undergoing treatment with 3'-azido-3'-deoxythymidine (zidovudine [AZT]) show a decreased sensitivity to the drug in vitro. The aim of the present study was to determine if HIV-1 variants resistant to AZT are present also in the brain compartment. We selected sequential HIV-1 isolates from the blood and the cerebrospinal fluid (CSF) of six patients with HIV-1 infection undergoing AZT therapy for a time varying between 1 and 3 years. The isolates were used to infect peripheral blood mononuclear cell cultures which were used to prepare viral DNA. The viral DNA was amplified by PCR and then directly sequenced. Analysis of the reverse transcriptase (RT) sequence of the isolates from the CSF during therapy demonstrated that CSF-resistant isolates are characterized by the same mutations documented in resistant isolates from the blood compartment. Isolates obtained from one patient (patient 3) showed the same two mutations (codons 70 and 215) in blood and CSF, whereas isolates obtained from an additional four patients presented a different pattern of mutations in the two compartments. We also analyzed the degree of amino acid homology between RT sequences from blood and CSF isolates in patients before and during AZT treatment. The percentages of amino acid variations were approximately equal when isolates from the same or different compartments were considered. Excluding the codons involved in AZT resistance, the time point of sampling did not affect RT variations during therapy significantly. In conclusion, our studies show that AZT-resistant HIV-1 can be found in the CSF of patients undergoing treatment. The mutations linked to AZT resistance in the CSF isolates are the same as those identified in AZT-resistant isolates from blood.

Review of antiretroviral therapy in the prevention of HIV-related AIDS dementia complex (ADC)

Following the introduction of zidovudine, a major decline was noted in the incidence of AIDS dementia complex (ADC). Several factors point to a causal relationship. It is important now to review the evidence derived from clinical, cerebrospinal fluid (CSF) and neuropathological studies to determine whether the protective effect of zidovudine on the brain of patients with HIV infection has implications for clinical practice. It has been demonstrated in clinical studies that patients with ADC may improve with zidovudine treatment and that the development of ADC is rare in patients receiving the nucleoside analogue long term. In support of these clinical findings, CSF studies have revealed that the presence of HIV-1 p24 antigen has diagnostic value in patients with suspected ADC and that p24 antigen levels decline with zidovudine treatment. Supporting evidence has also come from neuropathological studies, which have demonstrated that zidovudine decreases HIV-specific neuropathological abnormalities. Recently, the Multicenter AIDS Cohort Study reported conflicting data which suggested that antiretroviral therapy is not protective against ADC; however, several methodological weaknesses of this study limit the general applicability of the findings and the conclusions. In view of the increasing body of evidence in support of the efficacy of zidovudine in the prevention and management of ADC in patients with HIV-1 infection, it seems reasonable to include this antiretroviral agent in any combination treatment regimen. Many questions remain to be answered, however, before management of such patients is optimised. Meanwhile, in order to increase both insight and evidence, it is imperative that ongoing and future clinical trials with antiretroviral drugs closely monitor all cases of progression to ADC.(ABSTRACT TRUNCATED AT 250 WORDS)

Management of antiretroviral drug therapy in human immunodeficiency virus infection

Nucleoside analog reverse transcriptase inhibitors, including zidovudine, didanosine, and zalcitabine, remain the cornerstone of therapy against human immunodeficiency virus (HIV) infection, the cause of AIDS. Although therapeutic regimens have been designed that are effective in slowing the progression of disease, therapy with these agents has not been optimized. Ultimately, therapy is destined to fail in most patients. Decisions regarding when to begin therapy and the course of action to take when failure of therapy occurs are largely in the hands of the patient's physician, and currently must be made without the support of conclusive clinical data. In addition to an understanding of the recommended dosing guidelines, proper management of AIDS therapy requires a fundamental knowledge of the disease process, the pharmacology and limitations of the agents employed against the virus, and close cooperation with the clinical laboratory. Therefore, this article reviews the pharmacology of the three drugs currently approved for treatment of HIV infection, and the current guidelines for their use. The article also reviews the clinical and laboratory management of these agents, including the use of surrogate markers and the potential for pharmacokinetic optimization of therapy.