Factors influencing cerebrospinal fluid and plasma HIV-1 RNA detection rate in patients with and without opportunistic neurological disease during the HAART era

<p>Abstract</p> <p>Background</p> <p>In the central nervous system, HIV replication can occur relatively independent of systemic infection, and intrathecal replication of HIV-1 has been observed in patients with HIV-related and opportunistic neurological diseases. The clinical usefulness of HIV-1 RNA detection in the cerebrospinal fluid (CSF) of patients with opportunistic neurological diseases, or the effect of opportunistic diseases on CSF HIV levels in patients under HAART has not been well defined. We quantified CSF and plasma viral load in HIV-infected patients with and without different active opportunistic neurological diseases, determined the characteristics that led to a higher detection rate of HIV RNA in CSF, and compared these two compartments.</p> <p>Methods</p> <p>A prospective study was conducted on 90 HIV-infected patients submitted to lumbar puncture as part of a work-up for suspected neurological disease. Seventy-one patients had active neurological diseases while the remaining 19 did not.</p> <p>Results</p> <p>HIV-1 RNA was quantified in 90 CSF and 70 plasma samples. The HIV-1 RNA detection rate in CSF was higher in patients with neurological diseases, in those with a CD4 count lower than 200 cells/mm³, and in those not receiving antiretroviral therapy, as well as in patients with detectable plasma HIV-1 RNA. Median viral load was lower in CSF than in plasma in the total population, in patients without neurological diseases, and in patients with toxoplasmic encephalitis, while no significant difference between the two compartments was observed for patients with cryptococcal meningitis and HIV-associated dementia. CSF viral load was lower in patients with cryptococcal meningitis and neurotoxoplasmosis under HAART than in those not receiving HAART.</p> <p>Conclusion</p> <p>Detection of HIV-1 RNA in CSF was more frequent in patients with neurological disease, a CD4 count lower than 200 cells/mm³and detectable plasma HIV-1. Median HIV-1 RNA levels were generally lower in CSF than in plasma but some patients showed higher CSF levels, and no difference between these two compartments was observed in patients with cryptococcal meningitis and HIV-associated dementia, suggesting the presence of intrathecal viral replication in these patients. HAART played a role in the control of CSF HIV levels even in patients with cryptococcal meningitis and neurotoxoplasmosis in whom viral replication is potentially higher.</p

Transmission of drug-resistant HIV-1 in Europe remains limited to single classes

Background: The spread of drug-resistant HIV-1 might compromise the future success of current first-line regimens.status: publishe

The institutional and policy framework for regulation and competition in Malaysia

Includes bibliographical references. Also available via the InternetAvailable from British Library Document Supply Centre- DSC:9348. 775(no 45) / BLDSC - British Library Document Supply CentreSIGLEGBUnited Kingdo

Level and pattern of HIV-1-RNA viral load over age: Differences between girls and boys?

Objective: To estimate RNA viral load patterns over age in vertically infected children that account for between- and within-individual variation, treatment and assay cut-off detection level. To investigate possible sex-based differences. Design: A total of 118 infected children with 894 RNA viral load measurements enrolled in the European Collaborative Study were prospectively followed from birth for up to 15 years. Methods: Fractional polynomial and mixed effects models with censored data to assess the non-linear pattern of viral load over age, allowing for repeated measures. Results: The RNA viral load peaked at approximately 3 months of age, and gradually declined thereafter. The sex by age interaction was significant (X2 = 19.7, P &lt; 0.001); viral load peaked higher for girls than boys, but after 4 years the RNA load was consistently 0.25-0.5 log10 lower for girls than boys. The effects of sex and treatment on viral load vary over age (X2 = 6.31, P = 0.043). Sex differences in RNA viral load relating to measurement without treatment were more pronounced than those under treatment. Disease progression was more rapid for girls than for boys up to the age of 4 years, and less rapid thereafter; the overall difference was not statistically significant. Conclusion: Differences in RNA viral load over age between untreated boys and girls may have implications for policies for the initiation of antiretroviral therapy, but do not seem to translate into differences in progression to serious disease. The findings would suggest underlying biological explanations, which need further investigation