Optimal time for initiation of antiretroviral therapy in asymptomatic, HIV-infected, treatment-naive adults.

BACKGROUND According to consensus, initiation of therapy is best based on CD4 cell count, a marker of immune status, rather than on viral load, a marker of virologic replication. For patients with advanced symptoms, treatment should be started regardless of CD4 count. However, the point during the course of HIV infection at which antiretroviral therapy (ART) is best initiated in asymptomatic patients remains unclear. Guidelines issued by various agencies provide different initiation recommendations according to resource availability. This can be confusing for clinicians and policy-makers when determining the best time to initiate therapy. Optimizing the initiation of ART is clearly complex and must, therefore, be balanced between individual and broader public health needs. OBJECTIVES To assess the evidence for the optimal time to initiate ART in treatment-naive, asymptomatic, HIV-infected adults SEARCH STRATEGY We formulated a comprehensive and exhaustive search strategy in an attempt to identify all relevant studies regardless of language or publication status (published, unpublished, in press, and in progress). In August 2009, we searched the following electronic journal and trial databases: MEDLINE, EMBASE, and CENTRAL. We also searched the electronic conference database of NLM Gateway, individual conference proceedings and prospective trials registers. We contacted researchers and relevant organizations and checked reference lists of all included studies. SELECTION CRITERIA Randomized controlled trials that compared the effect of ART consisting of three drugs initiated early in the disease at high CD4 counts as defined by the trial. Early initiation could be at levels of 201-350, 351-500, or >500 cells/microL, with the comparison group initiating ART at CD4 counts below 200 x 10(6) cells/microL or as defined by the trial. DATA COLLECTION AND ANALYSIS Two review authors independently assessed study eligibility, extracted data, and graded methodological quality. Data extraction and methodological quality were checked by a third author who resolved differences when these arose. Where clinically meaningful to do so, we meta-analysed dichotomous outcomes using the relative risk (RR) and report the 95% confidence intervals (95% CIs). MAIN RESULTS One completed trial (N = 816) and one sub-group (N = 249) of a larger trial met inclusion criteria. We combined the mortality data for both trials comparing initiating ART at CD4 levels at 350 cells/microL or between 200 and 350 cells/microL with deferring initiation of ART to CD4 levels of 250 cells/microL or 200 cells/microL. There was a statistically significant reduction in death when starting ART at higher CD4 counts. Risk of death was reduced by 74% (RR = 0.26; 95% CI: 0.11, 0.62; P = 0.002). Risk of tuberculosis was reduced by 50% in the groups starting ART early; this was not statistically significant, with the reduction as much as 74% or an increased risk of up to 12% (RR = 0.54; 95% CI: 0.26, 1.12; P = 0.01). Starting ART at enrollment (when participants had CD4 counts of 350 cells/microL) rather than deferring to starting at a CD4 count of 250 cells/microL reduced the risk of disease progression by 70%; this was not statistically significant, with the reduction in risk as much as 97% or an increased risk of up to 185% (RR = 0.30; 95% CI: 0.03, 2.85; P = 0.29).One RCT found no statistically significant difference in the number of independent Grade 3 or 4 adverse events occurring in the early and standard ART groups when we conducted an intention-to-treat analysis (RR = 1.72; 95% CI: 0.98, 3.03; P = 0.06). However, when analyzing only participants who actually commenced ART in the deferred group (n = 160), the trial authors report a statistically significant increase in the incidence of zidovudine-related anaemia (8.1%) compared with those in the early initiation group (3.4%) (RR = 0.42; 95% CI: 0.20, 0.88; P = 0.02). AUTHORS' CONCLUSIONS There is evidence of moderate quality that initiating ART at CD4 levels higher than 200 or 250 cells/microL reduces mortality rates in asymptomatic, ART-naive, HIV-infected people. Practitioners and policy-makers may consider initiating ART at levels </= 350 cells/microL for patients who present to health services and are diagnosed with HIV early in the infection.

[1]  Michael J Silverberg,et al.  Effect of early versus deferred antiretroviral therapy for HIV on survival. , 2009, The New England journal of medicine.

[2]  Milton C Weinstein,et al.  When to start antiretroviral therapy in resource-limited settings. , 2009, Annals of internal medicine.

[3]  Stephen R Cole,et al.  Timing of initiation of antiretroviral therapy in AIDS-free HIV-1-infected patients: a collaborative analysis of 18 HIV cohort studies , 2009, The Lancet.

[4]  C. Sabin,et al.  Should HIV therapy be started at a CD4 cell count above 350 cells/μl in asymptomatic HIV-1-infected patients? , 2009, Current opinion in infectious diseases.

[5]  Christopher Dye,et al.  Universal voluntary HIV testing with immediate antiretroviral therapy as a strategy for elimination of HIV transmission: a mathematical model , 2009, The Lancet.

[6]  S. Schrader,et al.  Significant improvements in self-reported gastrointestinal tolerability, quality of life, patient satisfaction, and adherence with lopinavir/ritonavir tablet formulation compared with soft gel capsules , 2008, AIDS research and therapy.

[7]  Amalio Telenti,et al.  Antiretroviral Treatment of Adult HIV Infection2010 Recommendations of the International AIDS Society–USA Panel , 2010 .

[8]  A. Phillips,et al.  Inferior clinical outcome of the CD4+ cell count-guided antiretroviral treatment interruption strategy in the SMART study: role of CD4+ Cell counts and HIV RNA levels during follow-up. , 2008, The Journal of infectious diseases.

[9]  J. Gatell,et al.  Major clinical outcomes in antiretroviral therapy (ART)-naive participants and in those not receiving ART at baseline in the SMART study. , 2008, The Journal of infectious diseases.

[10]  Andrew Schaefer,et al.  Influence of Alternative Thresholds for Initiating HIV Treatment on Quality-Adjusted Life Expectancy: A Decision Model , 2008, Annals of Internal Medicine.

[11]  A. Loundou,et al.  When to Initiate Highly Active Antiretroviral Therapy in Low-Resource Settings: The Moroccan Experience , 2008, Antiviral therapy.

[12]  R. Salamon,et al.  Incidence and determinants of mortality and morbidity following early antiretroviral therapy initiation in HIV-infected adults in West Africa , 2007, AIDS.

[13]  K. Kam,et al.  Establishing CD4 thresholds for highly active antiretroviral therapy initiation in a cohort of HIV-infected adult Chinese in Hong Kong. , 2007, AIDS patient care and STDs.

[14]  S. Lawn,et al.  Conservation of First-Line Antiretroviral Treatment Regimen where Therapeutic Options are Limited , 2007, Antiviral therapy.

[15]  J Darbyshire,et al.  CD4+ count-guided interruption of antiretroviral treatment. , 2006, The New England journal of medicine.

[16]  S. Deeks Antiretroviral treatment of HIV infected adults , 2006, BMJ : British Medical Journal.

[17]  Gordon H Guyatt,et al.  Randomized trials stopped early for benefit: a systematic review. , 2005, JAMA.

[18]  L. Bekker,et al.  Initiating highly active antiretroviral therapy in sub-Saharan Africa: an assessment of the revised World Health Organization scaling-up guidelines , 2004, AIDS.

[19]  Maria Deloria-Knoll,et al.  Survival Benefit of Initiating Antiretroviral Therapy in HIV-Infected Persons in Different CD4+ Cell Strata , 2003, Annals of Internal Medicine.

[20]  Milton C Weinstein,et al.  Cost-effectiveness implications of the timing of antiretroviral therapy in HIV-infected adults. , 2002, Archives of internal medicine.

[21]  S. Thompson,et al.  Quantifying heterogeneity in a meta‐analysis , 2002, Statistics in medicine.

[22]  Richard D Moore,et al.  HIV-1 RNA, CD4 T-lymphocytes, and clinical response to highly active antiretroviral therapy , 2001, AIDS.

[23]  David L. DeMets,et al.  Design and analysis of group sequential tests based on the type I error spending rate function , 1987 .

[24]  Amiram Gafni,et al.  Highly Active Antiretroviral Therapy , 2012, PharmacoEconomics.

[25]  B. Stilwell,et al.  Antiretroviral therapy for HIV infection in adults and adolescents: recommendations for a public health approach. 2006 revision. , 2006 .