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Low-Level Viremia in Persons Living With HIV


Image credit: C. Goldsmith; Content Providers: CDC/ C. Goldsmith, P. Feorino, E. L. Palmer, W. R. McManus

HIV is a single-stranded RNA virus that can be transmitted through sexual intercourse, during pregnancy from mother to child, as a result of hypodermic needle use, or through infected blood transfusions.1,2 The World Health Organization (WHO) estimates there were 39.9 million persons living with HIV (PLWH) at the end of 2023.3 The incidence of HIV and HIV-associated mortality has decreased by 39% and 51%, respectively, since 2010.3 This progress is partly due to the development of antiretroviral (ARV) medication that allows for HIV RNA suppression (undetectable HIV levels). Combination ARVs, or antiretroviral therapy (ART), have been shown to significantly improve survival, reduce HIV RNA levels, and reduce ART resistance to HIV in PLWH.2,4,5 While receiving ART, a phenomenon can occur where patients can present with a low level of virus that is detectable but still clinically suppressed, known as low-level viremia (LLV).6,7 Currently, there is minimal guidance from contemporary HIV guidelines from the US Department of Health and Human Services (DHHS), the European AIDS Clinical Society (EACS), and the WHO on how to manage LLV. The purpose of this article is to review the clinical significance of patients with LLV and the current literature surrounding the management of LLV in PLWH.

Clinical guidelines developed by the DHHS, EACS, and WHO all define clinical success differently. The WHO defines clinical success as an HIV RNA level of 1000 copies/mL or lower, whereas 200 copies/mL or lower and 50 copies/mL or lower are used by the DHHS and EACS, respectively, at which points HIV transmission and complications are low.8-10 Even while receiving effective therapy, PLWH can develop LLV. The incidence of LLV ranges from 18% to 34% per the DHHS (HIV RNA levels, < 200 copies/mL) and WHO definitions (HIV RNA levels, 50-1000 copies/mL) shown in the TABLE.7-9 Subcategories of LLV have been defined in literature as follows: very LLV (VLLV), fewer than 50 copies/mL; LLV, 50 to 200 copies/mL; and high LLV (HLLV), 200 to 999 copies/mL.7,11,12 This article will use the definitions of VLLV, LLV, and HLLV to better describe the viral level cutoffs reported in the current literature.

Though clinically suppressed, patients with low levels of HIV are not living without risk, especially if the LLV persists, also known as persistent LLV (PLLV). PLLV and HLLV (PHLLV) have been associated with a higher risk of developing severe non-AIDS-associated conditions such as cancers, cardiac-related events, vascular disease, liver cirrhosis, and chronic kidney disease.11 Persistent VLLV (PVLLV), PLLV, and PHLLV have been associated with chronic immunological activation and inflammation.6,13-15 As a result, data from studies have shown weakened cytotoxic T-cell activity concerning reduced HIV clearance and increased cardiac inflammatory markers associated with a risk of developing cardiovascular disease.6,13-15 Virologic failure (VF), virological nonsuppression (at least 2 HIV RNA levels at ≥ 1000 copies/mL), and resist-ance to first-line ART were also associated with PVLLV, PLLV, and PHLLV.6,7,16-21

Of note, the DHHS, EACS, and WHO discuss VF differently, and the ranges of more than 200 copies/mL to more than 1000 copies/mL are all represented in the literature presented here for VF (TABLE). The risk of transmission has not been well studied for PLWH who have PLLV, but patients enrolled in the PARTNER studies (PARTNER1 and PARTNER2) with viral loads of fewer than 200 copies/mL were or lower and 50 copies/mL or lower are used by the DHHS and EACS, respectively, at which points HIV transmission and complications are low.8-10 Even while receiving effective therapy, PLWH can develop LLV. The incidence of LLV ranges from 18% to 34% per the DHHS (HIV RNA levels, < 200 copies/mL) and WHO definitions (HIV RNA levels, 50-1000 copies/mL) shown in the TABLE.7-9

Subcategories of LLV have been defined in literature as follows: very LLV (VLLV), fewer than 50 copies/mL; LLV, 50 to 200 copies/mL; and high LLV (HLLV), 200 to 999 copies/mL.7,11,12 This article will use the definitions of VLLV, LLV, and HLLV to better describe the viral level cutoffs reported in the current literature.

Though clinically suppressed, patients with low levels of HIV are not living without risk, especially if the LLV persists, also known as persistent LLV (PLLV). PLLV and HLLV (PHLLV) have been associated with a higher risk of developing severe non-AIDS-associated conditions such as cancers, cardiac-related events, vascular disease, liver cirrhosis, and chronic kidney disease.11 Persistent VLLV (PVLLV), PLLV, and PHLLV have been associated with chronic immunological activation and inflammation.6,13-15 As a result, data from studies have shown weakened cytotoxic T-cell activity concerning reduced HIV clearance and increased cardiac inflammatory markers associated with a risk of developing cardiovascular disease.6,13-15 Virologic failure (VF), virological nonsuppression (at least 2 HIV RNA levels at ≥ 1000 copies/mL), and resist-ance to first-line ART were also associated with PVLLV, PLLV, and PHLLV.6,7,16-21 Of note, the DHHS, EACS, and WHO discuss VF differently, and the ranges of more than 200 copies/mL to more than 1000 copies/mL are all represented in the literature presented here for VF (TABLE).

The risk of transmission has not been well studied for PLWH who have PLLV, but patients enrolled in the PARTNER studies (PARTNER1 and PARTNER2) with viral loads of fewer than 200 copies/mL were changes.9 Based on DRT results, patients can be switched to a susceptible drug class or add a drug class with a novel mechanism of action (eg, lenacapavir, maraviroc).9 It is also suggested that the new ART include at least 1 drug with a high barrier to resistance (eg, bictegravir, dolutegravir, boosted darunavir).9 The resistant ART should be discontinued, and HIV RNA should be monitored every 4 to 8 weeks.9 This current guidance is concerning for patients with PVLLV and PLLV, especially because these 2 groups are associated with the development of VF and ART resistance. Primary literature guidance for the management of PLLV and PVLLV is scarce. Like the DHHS recommendation for PHLLV, it may be beneficial to use DRT to guide therapy in patients with PLLV. Data from a retrospective cohort study of 1607 patients found 21 patients who had PLLV.28 Of these 21 patients, 8 were receiving unoptimized therapy (on ART with known resistance or on low-potency ART).28

When their ART was optimized or intensified, 6 of the 8 patients achieved virologic suppression (undetectable virus).28 Another retrospective cohort study of 304 PLWH with PLLV assessed DNA-based DRT-guided ART switches.29 VF ( failure to obtain a viral load < 20 copies/mL at 6 months post switch) was lower in those with a guided switch than in those who remained on therapy (5% vs 19%; P = .02).29 Maintenance of virologic suppression was significantly higher after DRT-guided ART switch than in those who continued on therapy 6 months after DRT was performed (P = .0006).29

Of these switches, the primary methods were a switch to an INSTI-based regimen, a single-tablet regimen, or de-escalation to second-line therapy.29 In a review of 7 studies including PLWH with PLLV, data revealed that modifying or intensifying ART resulted in decreased incidences of VF.30 No studies have discussed using DRT as guidance for ART management in patients with PVLLV. Considering the paucity of data and relatively high incidence (18%-34%) for patients with persistently low levels of virus over their course of treatment, more research and guidance are needed to help determine appropriate management. Guideline revision is essential, especially for the DHHS guidelines, which state that patients with an HIV RNA level fewer than 200 copies/ mL do not require ART modification, as PLLV and PVLLV have been associated with VF, virologic non-suppression, and ART resistance. The development of non-AIDS-defining events has been associated with PLLV, leading to poor clinical outcomes. Current literature and guidelines suggest using DRT to guide therapy in these cases, yet DRT may not always be available and could be cost-prohibitive, especially in low-and middle-income countries.31 Another limitation of DRT is that the FDA approved DRT assays require levels of at least 1000 copies/mL (TRUGENE HIV-1 Genotyping Kit), which by definition would prevent testing for resistance in patients with PVLLV, PLLV, or PHLLV.32 Evidence from 1 study demonstrated successful genotyping at viral levels as low as 100 copies/mL with these switches, the primary methods were a switch to an INSTI-based regimen, a single-tablet regimen, or de-escalation to second-line therapy.29

In a review of 7 studies including PLWH with PLLV, data revealed that modifying or intensifying ART resulted in decreased incidences of VF.30 No studies have discussed using DRT as guidance for ART management in patients with PVLLV. Considering the paucity of data and relatively high incidence (18%-34%) for patients with persistently low levels of virus over their course of treatment, more research and guidance are needed to help determine appropriate management. Guideline revision is essential, especially for the DHHS guidelines, which state that patients with an HIV RNA level fewer than 200 copies/ mL do not require ART modification, as PLLV and PVLLV have been associated with VF, virologic non-suppression, and ART resistance. The development of non-AIDS-defining events has been associated with PLLV, leading to poor clinical outcomes. Current literature and guidelines suggest using DRT to guide therapy in these cases, yet DRT may not always be available and could be cost-prohibitive, especially in low-and middle-income countries.31

Another limitation of DRT is that the FDA approved DRT assays require levels of at least 1000 copies/mL (TRUGENE HIV-1 Genotyping Kit), which by definition would prevent testing for resistance in patients with PVLLV, PLLV, or PHLLV.32 Evidence from 1 study demonstrated successful genotyping at viral levels as low as 100 copies/mL with detectable virus.33 Still, DRT may not detect all resistances, especially archived viruses, or viruses with resistance stored away in the HIV reservoir.9 These resistances can reemerge under selective drug pressure even if absent from initial or subsequent DRT results.9 The DHHS suggests an HIV-1 proviral DNA resistance assay to detect resistance of archived virus below the limit of detection in standard DRT or in patients with low-level viremia, though this method can still miss resistance at levels of DNA <83 copies/mL.9

References
1.Deeks SG, Overbaugh J, Phillips A, Buchbinder S. HIV infection. Nat Rev Dis Primers. 2015;1:15035. doi:10.1038/nrdp.2015.35
2.Gupta PK, Saxena A. HIV/AIDS: current updates on the disease, treatment and prevention. Proc Natl Acad Sci India Sect B Biol Sci. 2021;91(3):495-510. doi:10.1007/s40011-021-01237-y
3.HIV data and statistics. WHO. Accessed July 11, 2024. https://www.who.int/teams/global-hiv-hepatitis-and-stis-programmes/hiv/strategic-information/hiv-data-and-statistics
4.Survival after introduction of HAART in people with known duration of HIV-1 infection: the CASCADE collaboration: concerted action on seroconversion to AIDS and death in Europe. Lancet. 2000;355(9210):1158-1159.
5.Mocroft A, Lundgren JD. Starting highly active antiretroviral therapy: why, when and response to HAART. J Antimicrob Chemother. 2004;54(1):10-13. doi:10.1093/jac/dkh290
6.Crespo-Bermejo C, de Arellano ER, Lara-Aguilar V, et al. Persistent low-level viremia in persons living with HIV undertreatment: an unresolved status. Virulence. 2021;12(1):2919-2931. doi:10.1080/21505594.2021.2004743
7.Ryscavage P, Kelly S, Li JZ, Harrigan PR, Taiwo B. Significance and clinical management of persistent low-level viremia and very-low-level viremia in HIV-1-infected patients. Antimicrob Agents Chemother. 2014;58(7):3585-3598. doi:10.1128/AAC.00076-14
8.Consolidated Guidelines on HIV, Viral Hepatitis and STI Prevention, Diagnosis, Treatment and Care for Key Populations. World Health Organization; 2022.
9.Panel on Antiretroviral Guidelines for Adults and Adolescents. Guidelines for the Use of Antiretroviral Agents in HIV-1-Infected Adults and Adolescents. Department of Health and Human Services. Revised June 3, 2021. Accessed July 11, 2024. http://aid sinfo.nih.gov/contentfiles/lvguidelines/AdultandAdolescentGL.pdf
10.European AIDS Clinical Society. Guidelines version 12.0. EACS. Revised October 2023. Accessed July 11, 2024. https://www.eacsociety.org/media/guidelines-12.0.pdf.
11.Ganesan A, Hsieh HC, Chu X, et al. Low level viremia is associated with serious non-AIDS events in people with HIV. Open Forum Infect Dis. 2024;11(4):ofae147. doi:10.1093/ofid/ofae147
12.Olakunde BO, Ezeanolue EE. The virological consequences of low-level viraemia. Lancet Glob Health. 2022;10(12):e1699-e1700. doi:10.1016/S2214-109X(22)00462-4
13.Lara-Aguilar V, Llamas-Adán M, Brochado-Kith Ó, et al. Low-level HIV-1 viremia affects T-cell activation and senescence in long-term treated adults in the INSTI era. J Biomed Sci. 2024;31(1):80. doi:10.1186/s12929-024-01064-z
14.Elvstam O, Medstrand P, Jansson M, Isberg PE, Gisslén M, Björkman P. Is low‐level HIV ‐1 viraemia associated with elevated levels of markers of immune activation, coagulation and cardiovascular disease? HIV Med. 2019;20(9):571-580. doi:10.1111/hiv.12756
15.Eastburn A, Scherzer R, Zolopa AR, et al. Association of low level viremia with inflammation and mortality in HIV-infected adults. PLoS ONE. 2011;6(11):e26320. doi:10.1371/journal.pone.0026320
16.Delaugerre C, Gallien S, Flandre P, et al. Impact of low-level-viremia on HIV-1 drug-resistance evolution among antiretroviral treated-patients. PLoS ONE. 2012;7(5):e36673. doi:10.1371/journal.pone.0036673
17.Liu P, You Y, Liao L, et al. Impact of low-level viremia with drug resistance on CD4 cell counts among people living with HIV on antiretroviral treatment in China. BMC Infect Dis. 2022;22(1):426. doi:10.1186/s12879-022-07417-z
18.Chun HM, Abutu A, Milligan K, et al; Nigeria Low-Level Viremia Investigation Group. Low-level viraemia among people living with HIV in Nigeria: a retrospective longitudinal cohort study. Lancet Glob Health. 2022;10(12):e1815-e1824. doi:10.1016/S2214-109X(22)00413-2
19.Taiwo B, Gallien S, Aga E, et al. Antiretroviral drug resistance in HIV-1–infected patients experiencing persistent low-level viremia during first-line therapy. J Infect Dis. 2011;204(4):515-520. doi:10.1093/infdis/jir353
20.Swenson LC, Min JE, Woods CK, et al. HIV drug resistance detected during low-level viraemia is associated with subsequent virologic failure. AIDS. 2014;28(8):1125-1134. doi:10.1097/QAD.0000000000000203
21.Li Q, Chen M, Zhao H, et al. Persistent low-level viremia is an independent risk factor for virologic failure: a retrospective cohort study in China. Infect Drug Resist. 2021;14:4529-4537. doi:10.2147/IDR.S332924
22.Rodger AJ, Cambiano V, Bruun T, et al; PARTNER Study Group. Risk of HIV transmission through condomless sex in serodifferent gay couples with the HIV-positive partner taking suppressive antiretroviral therapy (PARTNER): final results of a multicentre, prospective, observational study. Lancet. 2019;393(10189):2428-2438. doi:10.1016/S0140-6736(19)30418-0
23.Lombardi F, Bruzzesi E, Bouba YR, et al. Factors associated with low-level viremia in people living with HIV in the Italian antiviral response cohort analysis cohort: a case-control study. AIDS Res Hum Retroviruses. 2024;40(2):80-89. doi:10.1089/aid.2023.0015
24.Brattgård H, Björkman P, Nowak P, Treutiger CJ, Gisslén M, Elvstam O. Factors associated with low-level viraemia in people with HIV starting antiretroviral therapy: a Swedish observational study. PLoS One. 2022;17(5):e0268540. doi:10.1371/journal.pone.0268540
25.Bai R, Lv S, Hua W, et al. Factors associated with human immunodeficiency virus‐1 low‐level viremia and its impact on virological and immunological outcomes: a retrospective cohort study in Beijing, China. HIV Med. 2022;23(suppl 1):72-83. doi:10.1111/hiv.13251
26.Lao X, Zhang H, Deng M, et al. Incidence of low-level viremia and its impact on virologic failure among people living with HIV who started an integrase strand transfer inhibitors: a longitudinal cohort study. BMC Infect Dis. 2024;24(1):8. doi:10.1186/s12879-023-08906-5
27.Leierer G, Grabmeier-Pfistershammer K, Steuer A, et al; Austrian HIV Cohort Study Group. Factors associated with low-level viraemia and virological failure: results from the Austrian HIV cohort study. PLoS One. 2015;10(11):e0142923. doi:10.1371/journal.pone.0142923
28.Taramasso L, Magnasco L, Bruzzone B, et al. How relevant is the HIV low level viremia and how is its management changing in the era of modern ART? a large cohort analysis. J Clin Virol. 2020;123:104255. doi:10.1016/j.jcv.2019.104255
29.Meybeck A, Alidjinou EK, Huleux T, et al. Virological outcome after choice of antiretroviral regimen guided by proviral HIV-1 DNA genotyping in a real-life cohort of HIV-infected patients. AIDS Patient Care STDS. 2020;34(2):51-58. doi:10.1089/apc.2019.0198
30.Hanners EK, Benitez-Burke J, Badowski ME. HIV: how to manage low-level viraemia in people living with HIV. Drugs Context. 2022;11:2021-8-13. doi:10.7573/dic.2021-8-13
31.Noguera-Julian M. HIV drug resistance testing – the quest for point-of-care. EBioMedicine. 2019;50:11-12. doi:10.1016/j.ebiom.2019.11.040
32.Gonzalez-Serna A, Min JE, Woods C, et al. Performance of HIV-1 drug resistance testing at low-level viremia and its ability to predict future virologic outcomes and viral evolution in treatment-naive individuals. Clin Infect Dis. 2014;58(8):1165-1173. doi:10.1093/cid/ciu019
33.Gale HB, Kan VL, Shinol RC. Performance of the TruGene human immunodeficiency virus type 1 genotyping kit and OpenGene DNA sequencing system on clinical samples diluted to approximately 100 copies per milliliter. Clin Vaccine Immunol. 2006;13(2):235-238. doi:10.1128/CVI.13.2.235-238.2006



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