Effect of Viral Load and Drug Resistance on Mortality among Chinese HIV-Infected Patients Receiving Antiretroviral Treatment

The rapid expansion of HIV combination antiretroviral therapy (cART) in resource-limited countries is saving lives and improving the quality of life for patients, households, and communities [1]. In China, the National Free Antiretroviral Treatment Program (NFATP) initiated in 2002 has also significantly reduced mortality among HIV patients, from 27 deaths per 100 person-years prior to treatment to 4-5 after 6 months of cART [2,3]. Overall mortality decreased from 39.3 per 100 person-years in 2002 to 14.2 per 100 person-years in 2009, with treatment coverage concomitantly increasing from almost zero to 63.4% [4]. However, like other developing countries using firstline generic antiretroviral regimens, [5-7] China is facing an emerging problem of drug resistance [8-10] and challenged by high AIDS-related deaths in spite of the expansion of treatment coverage [11]. HIV drug resistance is associated with faster clinical progression and elevated mortality [13-15], yet there is currently no evaluation of the effect of virologic failure and drug resistance on mortality among Chinese patients. As the Chinese NFATP database has significant missing data on HIV viral load and drug resistance, we linked the NFATP database with results from four national HIV drug resistance surveys in 2004, 2005, 2006 and 2009, and investigated the relationship between HIV virologic failure, drug resistance and mortality.


Introduction
The rapid expansion of HIV combination antiretroviral therapy (cART) in resource-limited countries is saving lives and improving the quality of life for patients, households, and communities [1].In China, the National Free Antiretroviral Treatment Program (NFATP) initiated in 2002 has also significantly reduced mortality among HIV patients, from 27 deaths per 100 person-years prior to treatment to 4-5 after 6 months of cART [2,3].Overall mortality decreased from 39.3 per 100 person-years in 2002 to 14.2 per 100 person-years in 2009, with treatment coverage concomitantly increasing from almost zero to 63.4% [4].However, like other developing countries using firstline generic antiretroviral regimens, [5][6][7] China is facing an emerging problem of drug resistance [8][9][10] and challenged by high AIDS-related deaths in spite of the expansion of treatment coverage [11].HIV drug resistance is associated with faster clinical progression and elevated mortality [13][14][15], yet there is currently no evaluation of the effect of virologic failure and drug resistance on mortality among Chinese patients.As the Chinese NFATP database has significant missing data on HIV viral load and drug resistance, we linked the NFATP database with results from four national HIV drug resistance surveys in 2004, 2005, 2006 and 2009, and investigated the relationship between HIV virologic failure, drug resistance and mortality.

Study design and study population
We combined data from two national databases on antiretroviral treatment and on drug resistance, respectively.Baseline HIV viral load and drug resistance mutations were obtained from four national drug resistance surveys in 2004,2005,2006 and 2009 by the Chinese National HIV Drug Resistance Surveillance and Monitoring Network.All-cause mortality was ascertained prospectively in the NFATP database.All HIV-infected patients who were enrolled in NFATP and who also participated in the national drug resistance survey were included in this analysis.
A total of 5,781 patients participated in the four cross-sectional surveys in 2004, 2005, 2006 and 2009.For patients surveyed more than once, we used data from the first survey showing drug resistance.Data from the four surveys were combined, and records were linked to patient records in the NFATP database by the individual patient's NFATP identification number.A total of 5,421 patients were included in our analysis; 234 patients were excluded because their drug resistance records could not be matched with the NFATP database, and another 126 patients were excluded due to missing data on viral load.The study was approved by the institutional review boards (IRB) of the National Center for AIDS/STD Control and Prevention of the China Center for Disease Control and Prevention (NCAIDS/China CDC).All participants provided written informed consent.

Data source: national drug resistance surveys
The four national HIV drug resistance surveys were cross-sectional surveys conducted in 2004,2005,2006 and 2009.For the surveys from 2004 to 2006, stratified cluster sampling was used to select patients who received cART in NFATP, using county or district as the smallest sampling unit.Approximately 10% of registered patients in NFATP were sampled, and the number of patients from each province was roughly in reverse proportion to the number of patients in treatment in order to oversample participants from provinces with smaller numbers of patients.When a county or district was selected, all patients in this county or district were invited for eligibility screening.In 2004 and 2005, screening and recruitment into the study was performed as per Figure 1.In 2006, in addition to this algorithm, all patients previously surveyed in 2004 or 2005 and could be located were also followed-up.
In 2009, the survey was conducted in the nine provinces with the largest numbers of patients on cART, and the prefecture in each province with the most patients was selected.Up to 250 patients were enrolled per province, according to the eligibility criteria above.If not enough eligible patients were found in the prefecture, the prefecture with the next largest number of patients was then selected.Since Henan began cART treatment before all other provinces and had by far the largest number of treated patients, a different selection process was used.Two high HIV prevalence counties where resistance surveillance had not previously been done were selected.From each county, the villages with the highest number of treated patients from 2003 and 2004 were selected, and all patients in those two villages were recruited.From the rest of the two counties, everyone treated from 2005 onwards were chronologically recruited to participate in the survey.The inclusion criteria for the four surveys were: receiving HIV antiretroviral therapy, being 18 years or older, and willingness and consent to participate.Treatments provided through the NFATP were first-line cART regimens consisting of 2 NRTIs [azidothymidine (AZT) + didanosine (DDI) or stavudine (D4T) + lamivudine (3TC)] and one NNRTI [nevirapine (NVP) or efavirenz (EFV)].AZT, D4T, DDI, and NVP are generically produced in China, whereas 3TC and EFV are branded drugs which became available in 2005.
The drug resistance survey consisted of a questionnaire for the patient and blood specimen collection.The questionnaire included questions on: the patients' identification number in NFATP; demographic information such as sex, age, ethnicity, years of education, marital status, and occupation; HIV infection route; and AIDS-defining clinical symptoms in the past month.It also included questions on treatment history, including initiation date and duration of cART treatment, cART regimens, cART drug distribution institute, counseling and instruction on cART use, cART adherence, reason for non-adherence, etc.

Laboratory analysis
All participants donated a blood sample for testing CD4 count and HIV viral load.CD4 count was measured by flow cytometry in the provincial Centers of Disease Control and Prevention.HIV viral load and drug resistance mutation tests were performed in four central laboratories (NCAIDS, China CDC; Academy of Military Medical Science; China Medical University; Shanghai Municipal Center for Disease Control and Prevention).Plasma HIV-1 RNA copy was quantified with real-time Nucleic Acid Sequence Based Amplification (NASBA), NASBA (NucliSense Easy Q, BioMerieux, France) or COBAS (Roche Applied Science, Germany) according to the manufacturer's protocol.In samples with viral load ≥1,000 copies/ml, HIV drug resistance genotyping was carried out by an in-house polymerase chain reaction (PCR) procedure as previously described.[9,16] The HIV-1 pol gene (protease, amino acids 1-99; and part of reverse transcriptase, amino acids 1-252) was amplified.For analyzing HIV-1 drug resistance mutations, each sequence was compared with the subtype B consensus sequence in the Stanford HIV Drug Resistance Database (http://hivdb.stanford.edu)and was interpreted using the HIV db program.

Statistical analysis
We performed prospective cohort analysis on data from NFATP and the four national HIV drug resistance surveys.The primary outcome variable was death, and was reported through the NFATP database.The primary predictor variables were HIV viral load and drug resistance; these, as well as other covariates such as CD4 count, were reported through the drug resistance surveys.According to WHO criteria, virologic failure was defined as HIV viral load ≥1,000 copies/ ml [17].We used Cox proportional hazard models to evaluate hazard ratios of death associated with baseline virologic failure, while adjusting for other baseline covariates such as age, duration on cART and HIV transmission route.Time zero was defined as the enrollment date at the surveys, and mortality was censored by May 1, 2011.Variables that were significantly (P ≤ 0.05) associated with death in the univariate analysis were considered for inclusion in multivariate Cox regression models.All tests of significance were two-sided, with a P-value ≤ 0.05 indicating that an association was statistically significant.

Demographic characteristics
Of the 5421 participants in the four national drug resistance surveys, 57% were male; 82.7% were of Han ethnicity; 23.6% were single; 45.4% were farmers; median age was 39 years (range, 16-80 years); 20% of participants had no education, and over 50% had attended primary or  junior middle school (1-9 years of schooling) (Table 1).Forty-eight percent of participants were former plasma donors who contracted HIV through the use of contaminated blood collection equipment during commercial blood/plasma donation practices in the 1990s [18,19].Other reported transmission routes were sexual contact (32.9%), and drug injection (12.7%).A large number of patients were from provinces where the primary risk of HIV infection was contaminated plasma collection, including Henan (n=1589, or 29.3% of total participants), Anhui (195, 9.1%),and Hubei (246, 4.5%), or from provinces where the primary risks were sexual contact and injection drug use, such as Yunnan (464, 8.6%), Xinjiang (505, 9.3%), Guangxi (453, 8.4%) and Hunan (246, 4.5%); the remaining 1723 patients (31.8%) represented mixed risk groups and were from the other 22 provinces.
In order to identify whether drug resistance was independently associated with death, subgroup analysis was conducted to compare mortality between HIV patients VL ≥ 10000 with HIVDR and VL ≥ 10000 without HIVDR.After controlling for potential confounding factors, including sex, age, education, occupation, HIV transmission route, initial cART regimens, and baseline CD4 cell count, the final multivariate Cox regression model showed drug resistance was significantly associated with increased risk of death (AHR=1.4,95% CI 1.0-1.9)(Table 3).

Discussion
Our main findings for this study are the mortality rates of cARTtreated HIV patients in China: 2.8 deaths per 100 person-years in all participating patients, 4.8 in patients with virologic failure, and 5.7 in patients with HIVDR.These rates are consistent with findings from developed countries and lower than the rates in other resource-limited countries [20][21][22].Patients at greatest risk of death were older; female; plasma donors and injecting drug users; those with low baseline CD4 cell counts; those initially treated with a didanosine-based cART regimen; those with higher viral load; and those infected with drug resistant HIV, independently.
We stratified viral load as five groups in order to indentify whether higher viral load and emergence of resistance were linked to increased mortality rates.Our results showed that patients with VL ≥ 10,000 copies/ml and with HIVDR was 2.4 times as likely to die as patients with VL < 1,000 copies/ml; similarly, those with VL ≥ 10,000 copies/ ml and without HIVDR was 1.7 times as likely to die.Higher viral load and drug resistance therefore significantly increase the risk of death.As well, we conducted sensitivity analysis in patients with viral load levels of ≥ 10,000 copies/ml to assess the risk of death due to drug resistance alone.We found that within this high viral load cohort, patients infected with drug resistant HIV were 1.4 times more likely to die than those infected with non-resistant HIV.This effect was found in some previous studies [14,23], while others have failed to demonstrate the same [24,25].Our finding reinforces the concept that ongoing viral replications [26] and few treatment options are associated with an increased probability of disease progression [27].It has been reported that the use of boosted protease inhibitors (Boosted PI) is associated with multiple clinical benefits, including higher efficacy against resistant HIV strains [28], lower rates of resistance emergence at highadherence levels [29] and a lack of PI-associated resistance mutations after virologic failure in treatment-naïve patients [30].As well, studies have shown that Boosted PI offers a marginal independent protective effect on disease progression [23,31].As the prevalence of HIV drug resistance accumulates in China, the need for scaling up second-line therapy is clear and must be a priority in China's efforts to control HIV/AIDS.Among the other risk factors for death we identified, the risks due to HIV transmission routes were particular to China's epidemic.Plasma donors and IDUs experience higher mortality rates as compared to those infected through sexual routes.As a cohort, plasma donors were poor farmers who participated in commercial plasma donation in the 1990s, and were infected through use of contaminated equipment and through infusion of pooled red blood cells from multiple donors [18,19].As China's cART program was first piloted among HIVinfected farmer plasma donors before scale-up to the entire country, the quality of cART and other healthcare services delivered were likely to be suboptimal as compared to later, more fine-tuned implementation.This may have contributed to the high rates of virologic failure, [8] drug resistance, and mortality in this cohort.On the other hand, many studies have shown that IDUs have higher rates of mortality than non-IDUs [32,33].This may be attributed to several reasons: IDUs display lower adherence rates to cART regimens [34,35]; they are more likely to be co-infected with hepatitis C [36], which independently increases the risk of mortality among HIV patients even when on HAART [37]; and they have been found to have a lower virologic response to HAART than non-IDUs [38].
This study has several limitations.First, HIV viral load and drug resistance data are obtained at the survey baseline, and do not reflect the change in HIV viral load and emergence of new drug resistance over the follow-up period.Secondly, only patients who were still alive at the time of the HIV drug resistance surveys were included in the analysis; mortality rate may therefore be underestimated, and the statistical relationship between drug resistance and mortality may be reduced.Lastly, adherence to ART is an important factor in treatment success, but we assessed adherence using self-reported data, whose reliability for accurately reflecting true adherence levels is limited.However, these limitations should not affect our conclusion on the association of virologic failure and mortality.To our knowledge, this is the first study evaluating the effect of HIV virologic failure and drug resistance on mortality in China.Our results provide evidence to guide policy-makers in refining cART regimens, training healthcare providers in rural areas, and enhancing patient education to improve cART treatment adherence.

Figure 1 :
Figure 1: Patient recruitment algorithm for antiretroviral therapy experienced patients screened for the 2004, 2005, and 2006 cross-sectional surveys.

Figure 2 :
Figure 2: HIV drug resistance for each drug among 708 patients with plasma HIV-1 RNA concentrations ≥ 1000 copies/ml and with drug resistance.
This work was supported by grants from the Ministry of Science and Technology of China (2012ZX10001-002 and 2009DFB30420) and the International Development Research Center of Canada (#104519-010), and Chinese State Key Laboratory for Infectious Disease Develop Grant (2012SKLID103).

Table 1 :
Demographic characteristics of HIV patients in the study.