Fit for purpose: antiretroviral treatment optimisation March 2020
12 March 2020. Related: Special reports, Supplements, Fit for purpose, Antiretrovirals.
HIV i-Base produces Fit for Purpose – a review of antiretroviral therapy (ART) optimisation – annually for distribution at the International AIDS Society (IAS) conferences, with updates to coincide with other key HIV meetings.
Download Fit for purpose March 2020 or view below
This update of the July 2019 edition was for the Conference on Retroviruses and Opportunistic Infections (CROI) 2020 and the Conference on Antiretroviral Drug Optimisation (CADO) 4. We also highlight relevant data presented at CROI.
The frequently-updated Op-ART trial tracker summarises the progress of key research is available at: https://i-base.info/op-art/
i-Base produces an annual HIV pipeline review as a companion to Fit for Purpose. The full Pipeline Report – looking at investigational HIV drugs – is available here:
i-Base’s HIV Treatment Bulletin (HTB) reports from CROI 2020 and affiliated meetings are available at: https://i-base.info/htb/
The next edition of Fit for Purpose will include adult and paediatric ART optimisation and pipeline drugs and will be released at the 23rd International AIDS Conference (AIDS 2020) in July.
Contents
Introduction
Fit for Purpose provides an overview of research and development in ART optimisation for people living with HIV in low- and middle-income countries (LMICs).
This prioritises investigation into drugs, regimens and strategies that support or help to change current and future global HIV treatment recommendations.
Important recent developments include:
- World Health Organization (WHO) guidance recommending dolutegravir (DTG)-based regimens as preferred first-and second-line ART.
- Week 48 data from ADVANCE and NAMSAL – two key ART optimisation trials of first-line DTG vs efavirenz (EFV) showing non-inferiority of DTG regimens in African settings.
- Update from Tsepamo study showing a declining rate of neural tube defects in Botswana but still slightly elevated compared to other ART regimens.
- Reports of weight gain among people receiving DTG-based ART that appears to be most pronounced in black women and those receiving tenofovir alafenamide (TAF).
What does the World Health Organization recommend?
Current WHO guidelines – Update of recommendations on first- and second-line antiretroviral regimens.
World Health Organization 2019 [1] – recommend tenofovir disoproxil fumarate (TDF)/lamivudine (3TC) or emtricitabine (FTC) (XTC)/DTG as preferred first-and second-line ART regimen for adults and adolescents (and children with approved DTG dosing). See Table 1.
DTG-based first-line ART was previously recommended as an alternative regimen due to evidence gaps for its use in pregnancy, periconception and with rifampicin (RIF)-based tuberculosis (TB) treatment and lack of generic formulations at that time.
Since then, more information has accumulated on the use of DTG both first- and second-line, including some that helps to fill the evidence gaps.
The guidelines include a note of caution on using DTG during the periconception period among women and adolescent girls of childbearing potential. Effective contraception should be offered to those who do not wish to become pregnant and those who do should be fully informed of the slight increase in risk of neural tube defects.
EFV 400 mg is now recommended for adults and adolescents as an alternative first-line ART. But guidelines do not recommend EFV-based ART in settings with national estimates of pretreatment resistance to EFV of 10% or more.
TAF is only recommended in special circumstances: it may be considered for people with established osteoporosis and/or kidney impairment as part of a first-line regimen.
Darunavir/ritonavir (DRV/r) is recommended as part of an alternative second-line regimen.
First-line | ||
---|---|---|
Preferred | Alternative | Special circumstances |
TDF + 3TC (or FTC) + DTG | TDF + 3TC + EFV 400 mg | TDF + 3TC (or FTC) + EFV 600 mg
AZT + 3TC + EFV 600 mg TDF + 3TC (or FTC) + PI/r TDF + 3TC (or FTC) + RAL TAF + 3TC (or FTC) + DTG ABC + 3TC + DTG |
Second-line | ||
Failing first-line regimen | Preferred | Alternative |
TDF + 3TC (or FTC) + DTG | AZT + 3TC + ATV/r (or LPV/r) | AZT + 3TC + DRV/r |
TDF + 3TC (or FTC) + EFV (or NVP) | AZT + 3TC + DTG | AZT + 3TC + ATV/r (or LPV/r or DRV/r) |
AZT + 3TC + EFV (or NVP) | TDF + 3TC (or FTC) + DTG | TDF + 3TC (or FTC) + ATV/r (or LPV/r or DRV/r) |
Key: ABC, abacavir; ART, antiretroviral treatment; ATV/r, atazanavir/ritonavir; AZT, zidovudine; DTG, dolutegravir; DRV/r, darunavir/ritonavir; EFV, efavirenz; FTC, emtricitabine; LPV/r, lopinavir/ritonavir; NVP, nevirapine; PI/r; ritonavir-boosted protease inhibitor; RAL, raltegravir; TAF, tenofovir alafenamide; TDF, tenofovir disoproxil fumarate; 3TC, lamivudine.
Source: Update of recommendations on first- and second-line antiretroviral regimens. World Health Organization 2019
What we know and the evidence gaps
Dolutegravir
DTG-based regimens are now WHO-preferred for first- and second-line and many countries have transitioned to and others are planning to transition to DTG.
Week 48 data from two key ART optimisation studies looking at DTG regimens were presented in late 2018 and 2019.
ADVANCE
Forty-eight week results from the ADVANCE study were presented at IAS 2019, alongside a simultaneous publication in the New England Journal of Medicine (NEJM). [2, 3] In this study, first-line ART regimens TAF/emtricitabine (FTC)/DTG and tenofovir disoproxil fumarate (TDF)/FTC/DTG showed non-inferior efficacy compared with TDF/FTC/EFV at week 48.
Unlike registrational studies, ADVANCE participants reflect the population that will be treated in LMICs.
Among participants who remained on their study ART, TDF/FTC/EFV potency was equivalent to that of the DTG regimens, despite significant reported background resistance in South Africa.
Participants receiving TAF/FTC/DTG had a higher risk of developing obesity.
ADVANCE is a 96-week phase 3, investigator-led, open-label randomised trial, comparing TAF/FTC/ DTG and TDF/FTC/DTG with the local standard-of-care of TDF/FTC/EFV.
The study enrolled ART-naive adults and adolescents ages 12 years and above with viral load greater than 500 copies/mL. The primary endpoint is the proportion with viral load less than 50 copies/mL at 48 weeks.
A total of 1053 participants were randomised between February 2017 and May 2018: 99% black, 59% female, mean age 32 years, with mean CD4 count 337 cells/mm3.
At week 48, the respective proportions of participants with viral load less than 50 copies/mL were: 84% for TAF/FTC/DTG, 85% for TDF/FTC/DTG, and 79% for TDF/FTC/EFV, confirming non-inferiority.
All three regimens were well tolerated, with slightly greater toxicity and rate of discontinuation in the TDF/FTC/EFV arm. There were no differences in sleep or clinical events between arms, and modest differences in laboratory measures.
TAF/FTC/DTG had less effect on bone density and renal function than other regimens. Weight increase (both lean and fat mass) was greater when DTG and TAF were used together and for women.
Week 96 data from ADVANCE will be presented in 2020.
The investigators are planning to continue the study beyond 96 weeks, particularly to look at weight gain and whether this can be reversed.
NAMSAL
NAMSAL results were first presented in 2018 and published in the NEJM in 2019. [4, 5, 6] like ADVANCE, participants reflect the population that will be treated in LMICs. NAMSAL also includes a considerable proportion with high baseline viral load who are less likely to achieve a fully suppressed viral load.
Findings from the study were shown at Glasgow 2018: at week 48, DTG-based first-line ART was non-inferior, but not superior, to that with EFV 400 mg.
Of 613 participants, approximately 70% achieved viral load suppression. But people with high viral load at baseline (greater than 500,000 copies/mL) had poor virological response with less than 60% achieving less than 50 copies/mL in both arms.
Baseline characteristics were similar across both arms: 68% of participants were women, median age was 36 years, CD4 count was 281 cells/mm3, and viral load was 5.3 log copies/mL. A considerable proportion of participants had high viral load at baseline: 66% had greater than 100,000 copies/mL and 30% had greater than 500,000 copies/mL.
At week 48, the proportion of participants with viral load less than 50 copies/mL was 74.5% in the DTG arm and 69.0% in the EFV 400 mg arm: p=0.13 for the superiority test.
Among participants with baseline viral load less than 100,000 copies/mL, the respective proportions were 91.3% and 83.5%.
And for participants with greater than 100,000 copies/mL at baseline, the respective proportions were 66.2% and 61.5%.
Of participants with greater than 500,000 copies/mL at baseline only 54.8% and 57.9% in the DTG and EFV 400 mg arms respectively, achieved viral load suppression.
Viral load greater than 100,000 copies, CD4 count less than 200 cells/mm3, and male sex were associated with viral load greater than 50 copies/mL at week 48.
Among participants presenting with high viral load at baseline, the investigators observed persistently low viral replication rates in both arms.
Adherence was good in the study – greater than 80% in both arms.
NAMSAL will continue until 2021 to ensure long-term monitoring of participants who started DTG.
Dolutegravir preconception and pregnancy
On 18 May 2018, WHO issued a statement after a potential safety signal with DTG was identified relating to neural tube defects in infants who had been exposed to this antiretroviral at the time of conception. [7]
The potential safety signal was found at a preliminary, unscheduled analysis of an ongoing observational study in Botswana. The Tsepamo study is a birth surveillance programme, started after the introduction Option B+ (lifelong ART for all pregnant women) in Botswana. When it was designed, there was still some uncertainty about EFV and birth defects.
Tsepamo compares birth outcomes with exposure from conception and/or during pregnancy to the most common ART regimens used in the country since 2014. Surveillance is conducted at eight maternity wards in government hospitals, representing about 45% of all births. Data are extracted from all consecutive births at 24 weeks or more gestational age, using obstetric records. Livebirth and stillbirth outcomes in HIV positive are also compared to those in HIV negative women.
The study had previously reported reassuring data (similar to that with EFV) with DTG started during pregnancy. [8, 9] The most recent figures, published in Lancet Global Health in June 2018, includes 1729 pregnant women who started DTG-based ART and 4593 EFV-based ART in pregnancy. [10] The risk for any adverse birth outcome among women on DTG versus EFV was similar: 33.2% vs 35.0%. As was the risk of any severe birth outcome: 10.7% vs 11.3%.
But adverse pregnancy outcomes among HIV positive women continue to be elevated compared with HIV negative women, despite ART. When these data were released the Tsepamo investigators emphasised that the findings were reassuring but not the whole story: birth outcomes with DTG exposure from conception still needed to be evaluated.
The periconception analysis revealed four cases of neural tube defects out of 426 births to women who became pregnant while taking DTG.
This rate of approximately 0.9% compared with a 0.1% risk of neural tube defects in infants born to women taking other ARVs at the time of conception.
WHO’s May 2018 statement was followed by several others, including from PEPFAR, US FDA, European Medicines Agency (EMA), US Department of Health and Human Services (DHHS), as well as a Dear Doctor letter from ViiV Healthcare. [11, 12, 13, 14] The recommendations advised varying degrees of caution.
Tsepamo data were previously updated on 1 May 2018 to include 596 births to women receiving DTG at conception. No additional neural tube defects were reported in this group, bringing the interim reported rate to 4/596, 0.67%.
The most recent update, presented at IAS 2019 and published in the NEJM [15,16] reported 5/1683 neural tube defects among births to women receiving DTG at conception, a rate of 0.3%.
Since 1 May 2018 and as of 31 March 2019 the study accrued data on an additional 29,979 deliveries including 1,257 to women on DTG at conception.
Of the total study population there were 98/119,033 neural tube defects, a rate of 0.08% (95% CI 0.07 to 0.10). For DTG at conception the rate was 0.3% (95% CI 0.13 to 0.69) and for non-DTG at conception 15/14792, 0.1% (95% CI 0.06 to 0.17).
The prevalence of neural tube defects with DTG at conception remains higher than all other exposure groups but the estimated difference is small (0.2-0.27%). Compared with all other ART at conception, the 95% CI indicates that this difference is as low as 0.1% and as high as 0.67%.
Tsepamo surveillance continues and DTG at conception exposures continue to accrue without notable decrease (240 since 31 March 2019).
Tsepamo remains the most informative dataset on which to base guidance and policy.
As far as other datasets are concerned, programmes have been looking at this issue for DTG (as well as other integrase inhibitors) and some data from small, and mostly high-income country cohorts were presented at HIV Glasgow 2018 and CROI 2019. [17, 18]
There are data from a few women who became pregnant in DTG phase 3 trials and post marketing but these are not in sufficient numbers to pick up a rare adverse event such as a neural tube defect, nor have a comparator. [19, 20, 21]
Similar programmes to Tsepamo are in place in Uganda and Malawi. [22] But the transition to DTG is only just beginning so neither country has much to report yet.
Brazil has been using DTG in its national programme since early 2017, and has an excellent reporting system and is analysing these data. [23] No neural tube defects among 382 women on DTG at conception were reported in Brazil at IAS 2019. [24]
Data from high-income countries are frequently collected and there has been longer term DTG use – although far fewer women with HIV.
This includes reports to the Antiretroviral Pregnancy Registry (APR). [25] APR is an international (although largely US), voluntary, prospective registry that monitors prenatal antiretroviral exposures to detect potential increases in the risk of birth defects. The APR produces twice-yearly reports.
Antiretroviral exposure is classified by earliest trimester, which means starting ART any time in the first three months. Due to the narrow exposure window of interest for neural tube defects, the interim reports now include supplementary information on periconception integrase inhibitor exposure.
Data presented at EACS 2019 [26] showed that by 31 July 2019, 667 pregnancies with exposure to DTG were prospectively reported to APR: 357 periconception (defined as 2 weeks before through 28 days after conception) exposures, 67 later during the first trimester, and 243 during the second/third trimesters.
Among the 667 DTG exposed pregnancies there were 614 live singleton births: 312 with periconception exposure, 63 later during the first trimester, and 239 during the second/third trimesters.
There were 21/614 defects overall: prevalence 3.4% (95% CI 2.1 to 5.2). With periconception exposure there were 10/312 defects: prevalence 3.2% (95% CI 1.6 to 5.8). Defect prevalence for later first trimester and second/third trimester were both similar and not above the expected population rate.
There was 1/312 neural tube defect case of anencephaly with periconception DTG exposure.
Although 1/312 gives an neural tube defect prevalence of 0.3%, similar to data from the Tsepamo study, the number of periconception outcomes is not sufficient (2000 needed to rule out a 3-fold increase) to refute or confirm an association between DTG and neural tube defects.
Most of the reports in the APR come from US, where there is national food folic acid fortification which has been shown to reduce neural tube defect risk by 36-68% in the general population.
And, although one neural tube defect is reported in this data set, the denominator is too small to draw any conclusions about an association between periconception DTG and neural tube defectss.
The European Pregnancy and Paediatric HIV Cohort Collaboration (EPPICC) is a network of cohort and surveillance studies conducting epidemiologic research on pregnant women and children with HIV and children exposed to HIV during pregnancy.
Data for 81 infants presented in 2017 reported defects in four infants – these are from any pregnancy exposures (55 mothers ART preconception) and no neural tube defects. [27, 28, 29] EPPICC is analysing preconception exposures to date across participating European countries.
Most European countries have their own surveillance, some like the UK and Ireland NSHPC (National Study of HIV in Pregnancy and Childhood) and the Swiss MoCHiV (Mother and Child HIV Cohort Study) contribute to EPPICC.
Reports from Canada, Frankfurt and Eastern/Central Europe found no neural tude defects. [30, 31, 32] But the numbers are very small.
Most impenetrable are adverse event reporting systems. Accessing FAERS (AERS) data (data within the FDA’s drug Adverse Event Reporting System) requires the investigative skills of a sleuth (plus US $420 for a drug safety analysis). [33] Obviously, there is no denominator from spontaneous reporting but it is also tricky to work out whether or not events have been reported more than once under different descriptions. A presentation at CROI 2019 looked at the complexities of extracting information from such databases. [34]
But using DTG later in pregnancy appears safe. [35]
And DolPHIN1, the pilot study to DolPHIN2, confirmed that standard dose of DTG should be used in the third trimester. [36]
DolPHIN1 and DolPHIN2 studies suggest there might be some advantages, in terms of viral suppression, to using DTG late in pregnancy. [37, 38] A significantly greater proportion of women achieved undetectable viral load starting a DTG-based regimen late in pregnancy, compared with one based on EFV. Median time to undetectable viral load with DTG was approximately half of that with EFV.
But HIV positive women who start ART in late pregnancy are a vulnerable group with a higher risk of adverse outcomes and vertical transmission of HIV.
WHO recommends DTG for women of child-bearing potential and recognition of their autonomy and right to make this choice with the relevant information.
And the IAS Forum on the risks of periconceptional dolutegravir exposure published FAQs, [39] also supporting access to DTG for women of child-bearing potential, designed to help provide context and to support public health and clinical decision-making bodies until there are more data available.
Dolutegravir and TB
Treating TB and HIV is complicated by drug interactions, overlapping toxicities, and immune reconstitution inflammatory syndrome (IRIS). As DTG is becoming a massively-used antiretroviral worldwide this includes use in settings where TB is common.
Week 24 and 48 results from the INSPIRING study – to look at safety and efficacy of DTG in ART naive adults with HIV/TB – suggest that DTG 50 mg twice daily seems effective and well-tolerated in HIV/TB co-infected adults receiving RIF-based TB treatment. [40, 41] This study was not powered to make a comparison with EFV but conducted to obtain some data in people with HIV/TB.
Data from a PK sub-study of the NAMSAL study with DTG 50 mg given twice daily in the presence of RIF also supports this strategy. [42]
The DTG label already recommends twice-daily dosing in the presence of RIF based on a previous drug-drug interaction study in HIV negative participants. [43, 44]
A PK study in healthy volunteers looked at the effect of RIF on the PK of DTG 100mg once daily. The study was conducted to evaluate whether doubling the DTG dose over 24 hours could offer an easier option than 50 mg twice daily to manage the drug interaction. [45]
Whether DTG 100 mg once daily with RIF will be safe and effective in people with HIV/TB coinfection remains unclear from the PK results so far and further studies (including with 50 mg) are planned.
DTG can be given with short-course TB preventive therapy of 12 once-weekly rifapentine/isoniazid (3HP) without dose adjustment, according to data from the DOLPHIN (not to be confused with DolPHIN 1 and 2) trial, presented at CROI 2019. [46]
Dolutegravir and adverse events
DTG was better tolerated than EFV or darunavir/ritonavir (DRV/r) in its registrational studies but there was an increased risk of insomnia. More serious central nervous system (CNS) side effects (depression, suicide ideation) were rare. [47]
A meta-analysis of 6647 patient-years follow up showed no significant effect of DTG on the risk of cardiac, IRIS or suicide-related serious adverse events. [48] There was a higher risk of insomnia with DTG-based ART.
Anecdotes suggest that taking DTG in the morning overcomes difficulties with insomnia in most cases, without causing additional problems during the day. [49]
Another meta-analysis, suggested that treatment with integrase inhibitors appears to lead to greater increases in body weight than with other antiretrovirals. [50] The effect seems to be more pronounced for women and black people. There also might be an additional effect with NRTIs. But it is unclear yet whether these changes are clinically significant.
No clear conclusions emerged from (largely high-income country) data presented at CROI 2019 on this topic. [51]
But a pooled analysis of the ADVANCE and NAMSAL studies, presented at IAS 2019, found weight gain and clinical obesity for TAF/FTC/DTG and TDF/FTC/DTG compared with TDF/FTC/EFV. [52]
In this analysis, first-line DTG was associated with rises in body weight, clinical obesity, and increased trunk fat. Increased weight gain was higher in women and if used in combination with TAF/FTC. Rises in body weight on TAF/FTC/DTG appear to be progressive in black women.
Futher analysis from ADVANCE was presented at EACS 2019 and included 531 participants who had reached week 96. [53]
Approximately 25% of participants were overweight and 12% obese before starting ART.
In men, the mean change in weight at 96 weeks was: 5.9 kg, 3.5 kg and 1.2 kg in the TAF/FTC/DTG, TDF/FTC/DTG TDF/FTC/EFV arms respectively.
In women, the mean change in weight at 96 weeks was: 8.3 kg, 5.3 kg and 3.4 kg in the TAF/FTC/DTG, TDF/FTC/DTG and TDF/FTC/EFV arms respectively.
Factors associated with 10% or more increase in body weight were: TAF/FTC/DTG, baseline CD4, baseline viral load, female sex, age, and baseline weight.
Twenty-seven per cent of women in ADVANCE developed clinical obesity by week 96 and there is no sign of a plateau in weight gain. The investigators are now calculating the potential effects of this weight gain on increased future risks. These results will be shown at CROI 2020.
Hyperglycaemia was reported in Uganda among people switching first-line regimens to DTG-based ART, in a letter to Lancet HIV, publised in February 2020. [54]
The report showed 16 of 3417 (0·47%) people receiving DTG-based ART had new-onset hyperglycaemia compared with 1 of 3230 (0·03%) receiving non-DTG ART (p=0·0004). Over 12 months this gave an incidence of 4·7 per 1000 vs 0·32 per 1000, in the DTG and non-DTG groups respectively.
Among the cases, hyperglycaemia events were severe (in 15 of 16) and the majority were preceded by weight loss after starting DTG rather than weight gain.
Median time from starting DTG to onset of hyperglycaemia was 4 months.
Longer term follow up and re-analysis of these and other studies and cohorts – particularly those representative of the global epidemic – is needed to evaluate consequences of weight gain/clinical obesity, hyperglycaemia and metabolic disorders.
This is particularly important in settings where pharmacovigilance is poor.
Efavirenz 400 mg
EFV 400 mg with two NRTIs is now the is now recommended by WHO as the alternative first-line – EFV 600 mg is no longer recommended, except in special circumstances.
The ENCORE 1 study, showed EFV 400 mg to be non-inferior to 600 mg (both plus TDF/FTC) as first-line ART. [55] The lower dose resulted in a modest reduction in EFV-related side effects 38% versus 48% with the standard dose.
Efavirenz 400 mg and pregnancy
Results from a PK study of EFV 400 mg during pregnancy, showed lower drug concentrations in the third trimester, compared with post-partum. [56] But, these were within adequate ranges achieved with EFV 600 mg during the third trimester and those measured in ART-naive participants receiving EFV 400 mg in ENCORE1. [57, 58]
All participants in the PK study maintained an undetectable viral load, suggesting that EFV 400 mg can be used in pregnant HIV positive women.
Reassuring real-life data from 271 women in Lusaka, Zambia, presented at IAS 2019, showed EFV 400 mg to be associated with high levels of maternal viral suppression (92%) during pregnancy. [59]
Notably this rate was higher than the previously reported suppression rates of 75% with EFV 600 mg in the same Zambian population, which might be due to the slightly improved tolerability of the lower dose.
Efavirenz and TB
A PK study in HIV positive people without TB found isoniazid (INH)/RIF was associated with limited changes in EFV 400 mg exposure. EFV concentrations were sufficient to maintain virological suppression. [60]
The investigators concluded that EFV 400 mg can be co-administered with anti-TB treatment and this is being confirmed in people with HIV/TB coinfection.
Tenofovir alafenamide
The first generic TAF-containing FDC was tentatively approved by the US FDA in 2018: DTG/FTC/TAF. [61, 62] This FDC might offer some programmatic benefits to LMICs including lower cost and smaller tablet size (easier to swallow, transport and store). [63]
But, lack of evidence, particularly for use in pregnancy and with TB coinfection, has meant that TAF is only just included (with an honourable mention) in WHO guidelines and is not included in the WHO Essential Medicines List (EML). [64]
And participants of the Third Conference on Antiretroviral Drug Optimisation (CADO 3), held at the end of 2017, did not consider TAF to be supported by sufficient evidence to inform use in LMICs. [65, 66]
TAF vs TDF
Results from a meta-analysis of TDF vs TAF showed TDF, boosted with ritonavir or cobicistat, led to higher risks of bone and renal adverse events and lower rates of viral load suppression, compared with TAF. [67, 68] But, unboosted, there were no differences between the two versions of tenofovir for efficacy and only slight differences in safety.
Boosting agents significantly increase plasma AUC concentrations of TDF (25-37%). Higher plasma tenofovir levels are linked to higher risks of renal and bone adverse events. The TAF dose is reduced from 25 to 10 mg daily when boosted but TDF remains at 300 mg daily. TDF is most commonly used worldwide in unboosted regimens, combined with 3TC and either EFV or DTG. TAF will largely be used unboosted in LMICs.
The meta-analysis evaluated 11 randomised head-to-head trials of TDF vs TAF – including 8110 participants. Those included were largely young to middle aged, with no pre-existing osteoporosis or kidney damage and mostly from high-income countries.
Nine trials compared TDF vs TAF in HIV positive people and two in people with hepatitis B. There were 4,574 participants who received boosting agents (with both TDF and TAF) representing 7,198 person years (p/y) follow up. The remaining 3,537 participants received unboosted regimens, giving 3,595 p/y follow up.
The analysis revealed boosted TDF treated participants had marginally lower viral load suppression rates, more bone fractures, lower bone mineral density and more discontinuation for bone or renal adverse events.
In contrast, there were no significant differences in viral load suppression rates or clinical safety endpoints (except bone mineral density) between unboosted TDF and TAF.
TAF and rifampicin
TAF is a substrate of drug transporters and RIF is a potent inducer and associated with drug-drug interactions and in turn lower drug exposures. Currently TDF is indicated for use with RIF but once-daily TAF is not.
Two PK studies in healthy volunteers suggest that TAF 25 mg could be given once daily with RIF. Both studies found the concentrations of tenofovir-diphosphate (TFV-DP) for TAF with RIF were higher than for people receiving standard TDF 300 mg.
In the first, twice-daily TAF plus RIF provided similar drug exposure to once-daily TAF. [69, 70]
This parallel design PK study showed when twice-daily TAF was given with RIF 600 mg intracellular TFV-DP decreased by 24% and plasma TAF by 15% compared with once-daily TAF alone.
The evaluation found that with twice-daily administration of TAF plus RIF, exposures over 24 hours of TAF total plasma, overall systemic plasma TFV and intracellular PBMC-associated TFV-DP are expected to be reduced by less than 15%, about 20%, and about 24%, respectively, compared with once-daily TAF.
Notably, after twice-daily administration of TAF plus RIF, the mean steady-state trough concentration of TFV-DP was above the historical steady state TFV-DP concentrations achieved with TDF 300 mg.
In the second PK study, plasma concentrations of once-daily TAF AUC were decreased by 55% and intracellular TFV-DP concentrations by 36% when given with RIF. [71, 72, 73]
But although RIF co-administration decreased the plasma TAF by 55% and intracellular TFV-DP AUC by 36%, intracellular TFV-DP AUC were 76% higher with TAF plus RIF than with TDF (300 mg once daily) alone.
These PK data support further evaluation of TAF plus RIF in people with HIV and TB.
TAF and pregnancy
Almost no adequate and well-controlled studies have been conducted on the use of TAF in pregnant women.
The first publicly presented clinical data on TAF in pregnancy are from IMPAACT P1026s – an ongoing, non-randomised, open-label, multi-centre, phase 4 study conducted to characterise antiretroviral PK in HIV positive pregnant women. [74]
TAF exposures during pregnancy were within the typical range of those in non-pregnant adults but higher than expected postpartum when dosed at 25 mg – according to data presented at AIDS 2018.
TAF is given at a dose of 25 mg unboosted and 10 mg when boosted with 150 mg COBI in ART regimens.
Target TAF exposure was assessed relative to the 10th percentile value in non-pregnant adults.
There were 31 participants receiving TAF 25 mg and 27 TAF/COBI 10/150 mg. Postpartum sampling was performed at a median of approximately 9 weeks.
Plasma TAF exposures during pregnancy and postpartum were in the range of those observed in non-pregnant adults. TAF exposure with 25 mg was lower during pregnancy compared with postpartum but this difference was driven by higher than expected AUC postpartum.
Congenital anomalies, considered possibly related to study drugs, included left congenital pseudarthrosis clavicle in one infant and renal cyst in another.
In a further analysis from IMPAACT P1026s, plasma exposures to TAF 25 mg with PK boosters did not differ significantly between third trimester and postpartum, although confidence intervals were wide. [75]
This group plan to look at look at intracellular levels of TAF in pregnancy and postpartum.
TAF reached the threshold of 200 first trimester exposed cases during the most recent reporting period of the APR. [76]
Prevalence of birth defects was calculated for the first time: 12 birth defects / 233 live births, 5.2% (95% CI 2.7-8.8) in the first trimester compared with 1 birth defect / 84 live births, 1.2% (95% CI 0.0-6.5) in the second/third trimester.
Although the prevalence in first trimester exposures is elevated, the lower end of the 95% CI is within the bounds of the 95% CI for background population prevalence.
Before TAF can be recommended for use in pregnancy additional safety and outcome data from larger numbers of women and their infants (including preconception exposure) are needed.
Following the potential periconception safety signal with DTG, programmes are likely to be more cautious about new drugs with limited periconception and pregnancy data.
Darunavir/ritonavir
DRV/r is generally considered to be the most potent and tolerable protease inhibitor but cost has been a barrier to its wide use. WHO recommendeds DRV/r as part of second-line ART a heat-stable, co-formulated generic version remains elusive.
Although there has been little progress, DRV/r appears to still be a potential candidate for dose optimisation (although this will be discussed at CADO 4).
Results from the original dose finding studies and two with 600/100 mg once daily, plus one showing the recommended dose of cobicistat results in a significantly lower DRV Cmin than when it is boosted with ritonavir (in which the investigators say a reduction of up to 50% in Cmin should not make a difference to efficacy), suggest that a dose reduction to DRV/r 400/100 mg might be feasible. [77, 78, 79]
A 400/100 mg once-daily DRV/r dose plus two NRTIs maintained virologic efficacy through 48 weeks in participants previously suppressed with DRV/r 800/100 mg ANRS-165 Darulight study. [80]
A PK sub study of Darulight conducted in 15 men found total and unbound blood and seminal plasma exposure of DRV to be not significantly different between doses, despite 50% dose reduction.
Unexpectedly total blood plasma exposure of ritonavir trended to be higher in 400/100mg once-daily, than in 800/100mg once-daily due to a change in the inducer/inhibitor balance between DRV and ritonavir (RTV). [81]
Data from Johannesburg, presented at AIDS 2018, found stable participants on a twice-daily lopinavir/ritonavir (LPV/r)-based second-line regimen who switched to a once-daily 400/100 mg DRV/r one maintained similar virological suppression to those who remained on LPV/r at 48 weeks. [82]
In this study, 300 participants, stable on 2 NRTI + LPV/r with viral load less than 50 copies/mL, were randomised to 2 NRTI + DRV/r 400/100 mg once daily or to continue on their LPV/r-based regimen. The study defined treatment success as viral load less than 50 copies/mL at week 48.
At baseline participants were 68% women and 99.7% black, with median of age 42 years, and CD4 count greater than 600 cells/mm3.
In the primary efficacy analysis, viral load less than 50 copies/mL by week 48 was 95.3% in the DRV/r arm versus 93.4% in the LPV/r arm.
DRV/r at the lower dose of 400/100 mg once daily showed non-inferior efficacy to LPV/r in this switch study.
These results support further studies with low dose DRV/r, including in PI-naive second-line patients.
Optimised DRV/r 400/100 mg could be cheaper to produce than LPV/r and atazanavir/r.
Darunavir/ritonavir in pregnancy
Standard once-daily 800/100 mg dosing of DRV/r leads to reduced trough levels in third trimester – although it has been effective in some reports – 600/100 mg twice daily is recommended. [83, 84]
There is sufficient data for DRV/r to exclude a two-fold increased risk of birth defects. Like other protease inhibitors it crosses the placenta poorly.
Darunavir and TB
Giving DRV/r with RIF is complicated. Double doses of DRV/r with RIF were associated with unacceptable risk of hepatotoxicity and a reduction in DRV trough concentrations in a PK study, in HIV positive people without TB, conducted in South Africa, and presented at CROI 2019. [85]
The study was stopped before completion due to the high rates of hepatotoxicity.
What is planned or ongoing?
First-line
The main two African investigator-led studies to look at DTG-based regimens in closer-to-real-life settings have presented week 48 data (as shown above) and are ongoing.
ADVANCE is a three-arm randomised comparison between two DTG-based regimens (one with TDF/FTC and the other with TAF/FTC) and EFV 600 mg (with TDF/FTC); and NAMSAL is comparing DTG-based to EFV 400 mg based regimens, conducted in South Africa and Cameroon respectively. [86, 87, 88, 89, 90]
Study/cohort | Design | Purpose | Status |
---|---|---|---|
ADVANCE
WRHI 060 Ezintsha, Wits RHI (USAID, Unitaid) |
Phase 3
DTG/FTC/TAF vs DTG/FTC/TDF vs EFV 600/FTC/TDF non-inferiority, open label 1053 ART-naive adult participants >12 years randomised 1:1:1 Johannesburg, South Africa |
Establish non-inferior efficacy for DTG/FTC/TAF compared to other study arms
Primary outcome number of participants with VL <50 copies/mL at 48 weeks Secondary outcomes include: VL <50 copies/mL at 96 weeks, CD4 changes, tolerability, safety and efficacy |
Started January 2017
Week 48 data presented IAS 2019 DTG-based regimens non-inferior to EFV-based Completion Q1 2020 Two years extension after 96 weeks (funding application stage) |
NAMSAL
ANRS 12313 Inserm-ANRS (Unitaid) |
Phase 3
DTG/3TC/TDF vs EFV400 mg /3TC/TDF non-inferiority, open label 606 ART-naive participants (303 per arm) Yaoundé, Cameroon |
Establish non-inferior efficacy for DTG/3TC/TDF compared to EFV 400 mg/3TC/TDF
Primary outcome number of participants with VL <50 copies/mL at 48 weeks Secondary outcomes include: VL <50 copies/mL at 24 weeks, CD4 changes, tolerability, safety and efficacy |
Week 48 data presented HIV Glasgow 2018
DTG arm non-inferior to EFV 400 Concern about suppression rates in participants with high BL VL Long term follow up to 2021 |
Key: ABC, abacavir; ART, antiretroviral treatment; ARV, antiretroviral; BL, baseline; DTG, dolutegravir; DRV/r, darunavir/ritonavir; EFV, efavirenz; FTC, emtricitabine; TAF, tenofovir alafenamide; TDF, tenofovir disoproxil fumarate; VL, viral load; Wits RHI, Wits Reproductive Health and HIV Institute; XTC, lamivudine or emtricitabine; 3TC, lamivudine
There are a number of ongoing or planned studies to help to address some of the evidence gaps associated with use in pregnant women and people receiving TB treatment.
Pregnancy
VESTED (IMPAACT P2010) is recruited and ongoing. The study is making the same three-arm comparison as ADVANCE but in pregnant women. [91, 92]
The primary efficacy analysis will be presented at CROI 2020 as a late breaker. [93]
DolPHIN2 is looking at DTG PK, safety and efficacy in pregnant women presenting in the third trimester, postpartum, and during breast feeding until weaning or 18 months. [94, 95] First results with all deliveries were presented at CROI 2019. [96]
These results showed, women living with HIV starting DTG-based ART after presenting in late pregnancy achieved more rapid virological suppression before delivery than those who started with an EFV-based one.
IMPAACT P1026s and PANNA – the respective American and European studies that look at PK of antiretrovirals in pregnancy and post-partum include women receiving DTG and TAF. [97, 98, 99, 100] Data have been presented previously for DTG and TAF.
A ViiV-sponsored study is enrolling ART-naive women only and comparing first-line DTG regimens to boosted atazanavir (ATV/r) ones. [101, 102] Women who become pregnant in the study will remain on their randomly assigned regimen and roll over into a pregnancy study.
IMPAACT 2026, also looking at PK in pregnancy and post-partum,and starting imminently, will include TAF 10 mg boosted and 25 mg arms. [103]
Study | Design | Purpose | Status |
---|---|---|---|
DolPHIN2
UoL (UCT, MU, LSTM, RU) (Unitaid) |
Phase 3
DTG PK, safety and efficacy in pregnant women in 3rd trimester and PP during BF until weaning or 18 months 250 late presenting women (28 weeks’ gestation to delivery) Women randomised 1:1 to receive DTG (50 mg once daily) or standard of care (EFV) plus two NRTIs South Africa and Uganda |
Primary efficacy endpoint: proportion VL <50 at delivery
Primary safety endpoint: safety of DTG in pregnancy Secondary: time to undetectable VL, CD4 response, VL in breastmilk, genital HIV shedding, health economics |
Recruited
First results presented at CROI 2019. More rapid virological suppression before delivery with DTG vs EFV Primary completion Q4 2021 |
VESTED
IMPAACT P2010 NIH (NIAID) |
Phase 3
DTG/TAF/FTC vs DTG/TDF/FTC vs EFV/TDF/FTC in 639 mother/infant pairs Treatment-naive women starting ART at 14-28 weeks’ gestation 50 weeks of maternal and infant follow-up postpartum Multicountry: IMPAACT sites (US, Botswana, Brazil, Haiti, India, Malawi, South Africa, Tanzania, Thailand, Uganda, Zambia, Zimbabwe) |
Primary endpoints: VL <200 copies/mL at delivery; adverse pregnancy outcomes; maternal toxicity; infant toxicity
Main secondary endpoints: VL <50 at delivery; VL <200 at 50 weeks postpartum; renal toxicity (mothers and infants); bone toxicity (subset of mothers and infants); adverse pregnancy outcomes; resistance (women with VF and HIV infected infants) |
Recruited
First results CROI 2020 Primary completion 31 July 2020 |
ING200336
PK and safety study in pregnant women with HIV ViiV Healthcare |
Phase 3
PK and safety single arm study of women with unintended pregnancies while participating in ARIA study of DTG/ABC/3TC vs ATV/ r +TDF/FTC in 474 treatment naive women to be completed in 2018 Estimated enrolment 25 women (approx 237 receive study drug in ARIA) Multicountry: US, Russian Federation, Spain, UK |
Primary endpoints: PK 2nd /3rd trimester
Secondary endpoints: PK in neonates, maternal:cord blood ratio, maternal and infant AEs; adverse pregnancy outcomes |
Recruiting (started January 2015)
Primary completion February 2019 |
Key: ABC, abacavir; ART, antiretroviral treatment; ATV/r, atazanavir/ritonavir; BF, breastfeeding; DTG, dolutegravir; EFV, efavirenz; FTC, emtricitabine; IMPAACT, International Maternal Pediatric Adolescent AIDS Clinical Trials Network; LSTM, Liverpool School of Tropical Medicine; MU, Makerere University; NIH, US National Institutes of health; NRTIs, nucles/tide reverse transcriptase inhibitors; PK, pharmacokinetic; PP, postpartum; PTD, preterm delivery; PW, pregnant women; RU, Raboud University; SGA, small for gestational age; SoC, standard of care; TAF, tenofovir alafenamide; TDF, tenofovir disoproxil fumarate; TM, trimester; UoL University of Liverpool; VL, viral load; 3TC, lamivudine
Study | Design | Purpose | Status |
---|---|---|---|
IMPAACT 1026s
NIH (NIAID) |
Phase 4
PK properties of antiretroviral and related drugs during pregnancy and PP Each arm 12-25 (target) women with evaluable 3rd trimester PK data Pregnant women > 20 weeks’ gestation receiving TAF (3 arms – within FDCs) as part of clinical care Washout PK in drug exposed infants Multicountry: IMPAACT sites (United States, Argentina, Botswana, Brazil, Puerto Rico, South Africa, Thailand, Uganda) |
Primary endpoint: PK 2nd /3rd trimester
Secondary endpoints: PK in neonate, maternal:cord blood ratio, maternal and infant adverse events; adverse pregnancy outcomes |
Results presented at AIDS 2018
TAF exposures during pregnancy within typical range in non-pregnant adults; higher than expected PP with 25 mg Looking at intracellular levels |
PANNA study
Radboud University (PENTA Foundation, ViiV Healthcare) |
Phase 4
Pregnant women <33-week gestation receiving TAF as part of clinical care Each study arm 16 with evaluable 33-week data Multicountry: PANNA sites (Belgium, Germany, Ireland, Italy, Netherlands, Spain, UK) |
Primary endpoint: PK at 33 weeks and 4-6 weeks after delivery
Secondary endpoints: PK in neonates, safety, VL and transmission |
Recruiting
11/16 recruited Primary completion December 2020 |
VESTED
IMPAACT P2010 |
Phase 3
DTG/TAF/FTC vs DTG/TDF/FTC vs EFV/TDF/FTC in 639 mother/infant pairs Treatment-naive women starting ART at 14-28 weeks’ gestation 50 weeks of maternal and infant follow-up PP Multicountry: IMPAACT sites (US, Botswana, Brazil, Haiti, India, Malawi, South Africa, Tanzania, Thailand, Uganda, Zambia, Zimbabwe) |
Primary endpoints: VL <200 copies/mL at delivery; adverse pregnancy outcomes; maternal toxicity; infant toxicity
Main secondary endpoints: VL <50 at delivery; VL <200 at 50 weeks PP; renal toxicity; bone toxicity; adverse pregnancy outcomes; resistance (women with VF, and HIV infected infants) |
Recruited
First results CROI 2020 Primary completion 31 July 2020 |
IMPAACT 2026
NIH (NIAID) |
Phase 4
PK properties of ARV and anti-TB drugs during pregnancy and PP TAF 10 mg boosted TAF 25 mg without boosting TAF 25 mg boosted Up to 28 women to achieve 25 (target) with evaluable 3rd trimester PK data Pregnant women > 20 weeks’ gestation receiving TAF (3 arms – within FDCs) as part of clinical care Washout PK in drug exposed infants Multicountry: IMPAACT sites (US and international) |
Primary endpoint: PK 2nd /3rd trimester
Secondary endpoints: PK in neonate, maternal:cord blood ratio, maternal and infant adverse events; adverse pregnancy outcomes |
Will begin recruiting 2020
Total study duration 5 years |
Key: AIDS 2018, 22nd International AIDS Conference; ART, antiretroviral treatment; ARV, antiretroviral; BF, breastfeeding; BM, breastmilk; DTG, dolutegravir; EFV, efavirenz; FDC, fixed dose combination; FTC, emtricitabine; IMPAACT, International Maternal Pediatric Adolescent AIDS Clinical Trials Network; NIH, US National Institutes of health; PK, pharmacokinetic; PP, postpartum; PTD, preterm delivery; PW, pregnant women; SGA, small for gestational age; TAF, tenofovir alafenamide; TDF, tenofovir disoproxil fumarate; TFV-DP, tenofovir diphosphate; TM, trimester; VL, viral load
Tuberculosis
Further PK studies to look at dosing of DTG and TAF with RIF are ongoing in people with HIV and TB.
Study | Design | Purpose | Status |
---|---|---|---|
DTG 50 mg/RIF
UCT (Wellcome) |
Phase 2
Standard vs double dose DTG + RIF in HIV/TB coinfected participants Viral load endpoints + PK |
Establish whether standard 50 mg dose DTG can be used with RIF | Recruiting |
EpiTAF
UCT/ Ezintsha, Wits RHI (Unitaid) |
30 HIV/TB-coinfected participants | TAF/RIF PK in HIV/TB coinfection | Recruiting |
Key: ART, antiretroviral treatment; DTG, dolutegravir; EFV, efavirenz; INH, isoniazid; PK, pharmacokinetics; RIF, rifampicin: RPT, rifapentine; UCT, University of Cape Town; VL, viral load; Wits RHI, The Wits Reproductive Health and HIV Institute
Second-line
For people failing EFV-based first-line treatment – and this population is expected to grow with greater access to viral load testing – there have been discussions about DTG and DRV/r second-line regimens.
The DAWNING study compared DTG + 2 NRTIs to the current standard second-line of LPV/r + 2 NRTIs. [104, 105]
Participants were genotyped at screening and only those with at least one predicted active NRTI were included. The LPV/r arm of the study was stopped early, at 24 weeks, after the DTG arm showed greater viral suppression rates than the LPV/r arm. Week 48 data, where these are available, were shown at AIDS 2018 with similar results. [106]
Whether the results from DAWNING can be duplicated in settings without genotyping, questions about the role and dose of DRV/r, and whether NRTIs can be recycled, drive second-line ART optimisation studies.
These discussions are also important for people currently on EFV-based first-line who will be switched to TDF/3TC/DTG in the absence of viral load monitoring.
Indirect evidence suggests that recycling the TDF/3TC backbone from first- to second-line could be achieved without resistance mutations to DTG.
The ARTIST study [107] – ongoing in Cape Town – is a randomised, open-label, controlled trial to determine the virological suppression in participants failing first-line TDF/XTC/EFV who are switched to a DTG based second-line with a recycled TDF/3TC backbone.
It is in two stages: stage 1 with a supplemental dose of DTG for 14 days to compensate for the enzyme-inducing effect of the discontinued EFV; and stage 2 compares TDF/3TC/DTG (50 mg) to the WHO-recommended second-line regimen (AZT/3TC/DTG).
VISEND – ongoing in Zambia and Zimbabwe – is comparing short- (24 and 48 weeks) and long-term (72, 96 and 144 weeks) virological outcomes in ART-treated adults switched from TDF/XTC/EFV or NVP-containing regimens to TDF or TAF/XTC/DTG-containing regimens with and without virologic suppression at time of switch. [108]
Importantly this study will also provide some real-life African data on TAF, including in a regimen with DTG.
ACTG 5381 is an observational cohort, also recruiting, that will assess efficacy and emergence of resistance following the initiation of TDF/3TC/DTG first- or second-line or with RIF-containing TB treatment. [109] The study is multinational with sites in: Haiti, Kenya, Malawi, South Africa, Uganda, and Zimbabwe.
The D2EFT study is investigating DRV/r 800/100 mg + DTG (which would have no overlapping resistance with EFV + 2 NRTI) vs DTG + 2 predetermined NRTIs vs DRV/r 800/100 mg + 2 NRTIs. [110]
The NADIA study is investigating DTG vs DRV/r once daily with a second factorial with TDF/XTC vs AZT/3TC. [111]
PK data to guide the use of DRV/r with TB treatment are missing and the DARifi PK study compared 1600/200 mg once daily with RIF and DRV/r 800/100 mg 12 hourly with RIF to DRV/r 800/100 mg without RIF. First data was shown at CROI 2019, where the study was stopped for hepatoxicity, and this remains complicated. [112]
And it might be possible to lower the overall dose of DRV (and potentially RTV) needed to achieve therapeutic steady state blood concentrations, using nanoparticles to improve drug absorption – and this work is also ongoing.
The best option for second-line after a DTG-based first-line regimen will be key in the future and the work on DRV/r might also be important here.
Study | Design | Purpose | Status |
---|---|---|---|
D2EFT
Kirby Institute (Unitaid, NIAID, National Health and Medical Research Council, Australia) |
Phase 3b/4
1,010 participants who failed first-line regimen randomised to DRV/r 800/100 mg + DTG vs DTG + 2 predetermined NRTIs vs DRV/r 800/100 mg + 2 NRTIs 96 weeks Multicountry: Argentina, Brazil, Chile, Colombia, Mexico, Guinea, Mali, Nigeria, South Africa, Zimbabwe, India, Malaysia, Thailand, Indonesia |
To compare two DTG-based second-line regimens with standard of care and with each other
Primary endpoint VL <50 at 48 weeks Secondary endpoints include differences in VL using different thresholds, time to VL <50 copies, changes in baseline CD4 count |
Recruiting
Primary completion December 2020 |
NADIA
Coordinated by MU |
Phase 3
Approx 420 participants 12 years and above with virological failure on EFV-based 1st line randomised to DTG vs DRV/r once daily + (second factorial) TDF/XTC vs AZT/3TC 96 weeks Uganda + multicountry |
Compare DTG and DRV/r-based regimens
Compare TDF/XTC vs AZT/backbone without genotype Primary endpoint: VL <200 copies at 96 weeks Interim analysis at 48 weeks |
Recruiting
Primary completion December 2020 |
ARTIST
UCT (MSF/Wellcome Trust) |
Phase 4
195 participants >18 years failing EFV-based 1st line Randomised, open-label, controlled trial Stage 1: TDF/3TC/DTG with an extra 50 mg DTG for 14 days (n=65) Stage 2: TDF/3TC/DTG (50 mg) vs AZT/3TC/DTG (n=130/65 per arm) 48 weeks Cape Town |
VS in participants failing 1st-line TDF/XTC/EFV switched to a DTG based 2nd-line with recycled TDF/3TC
Primary endpoint: Stage 1 VL <50 copies at 24 weeks Stage 2 VL <50 copies at 24 weeks |
Recruiting
Primary completion 31 December 2020 |
VISEND
University Teaching Hospital, Lusaka/ Parirenyatwa Hospital, Harare (Mylan) |
Phase 3
1254 participants >18 years switching from EFV- or NVP-based 1st line Randomised control trial Arm A1: TDF/3TC/DTG, BL VL <1000 copies/mL (n=209) Arm A2: TAF/3TC/DTG, BL VL <1000 copies/mL (n=209) Arm B1a: TDF/3TC/DTG, BL VL >1000 copies/mL (n=209) Experimental Arm B1b: TAF/3TC/DTG, BL VL >1000 copies/mL (n=209) Experimental Arm B2a: AZT/3TC/LPV/r, BL VL >1000 copies/mL (n=209) Arm B2b: AZT/3TC/ATV/r, BL VL >1000 copies/mL (n=209) 144 weeks Zambia and Zimbabwe |
Compare short- (24 and 48 weeks) and long-term (72, 96 and 144 weeks) virologic outcomes in adults switched from TDF/XTC/EFV or NVP-containing ART to TDF or TAF/XTC/DTG-containing regimens with and without virologic suppression at time of switch
Primary endpoint: >1,000 copies/mL at week 144 |
Recruiting |
ACTG 5381
NIAID/PEPFAR |
Observational cohort 1350
participants >10 years starting TDF/3TC/DTG: Group 1. Switch from NNRTI-based 1st line (n=540): 1a VL >1000 copies/mL; 1b VL< copies/mL Group 2 (n=540). Switch from PI-based 2nd-line: 2a VL >1000); 2b <1000 copies/mL Group 3 (n=90). With RIF-containing TB co-treatment + additional 50mg DTG. Group 4. ART-naive 10% adolescents 10-19 years Haiti, Kenya, Malawi, South Africa, Uganda, and Zimbabwe 36 months |
Assess efficacy and emergence of resistance after starting TDF/3TC/DTG 1st- or 2nd-line ART or with RIF-containing TB treatment | Recruiting |
Key: ACTG, AIDS Clinical Trials Group; ART, antiretroviral treatment; ATV/r, atazanavir/ritonavir; AZT, zidovudine; DTG, dolutegravir; DRV/r, darunavir/ritonavir; EFV, efavirenz; FTC, emtricitabine; IDMC, Independent Data Monitoring Committee; LPV/r, lopinavir/ritonavir; MCC SA, Medicines Control Council South Africa; MSF, Médecins Sans Frontières; MU, Makerere University; NIAID, National Institute of Allergy and Infectious Diseases; NNRTI, non-nucleoside reverse transcriptase inhibitor; NRTI, nucleos/tide reverse transcriptase inhibitor; NVP, nevirapine; PEPFAR, United States President’s Emergency Plan for AIDS Relief; SAHPRA, South African Health Products Regulatory Authority; TAF, tenofovir alafenamide; TDF, tenofovir disoproxil fumarate; UCT, University of Cape Town; VL, viral load; VS, virological suppression; XTC, lamivudine or emtricitabine; 3TC, lamivudine
What to watch out for at CROI 2020 and next steps
Results from key ART optimisation studies to look out for at CROI 2020:
- First safety and efficacy data from the VESTED trial (oral late breaker presentation) [113]
- Risks of metabolic syndrome, diabetes and cardiovascular disease in the ADVANCE trial (oral presentation) [114]
- Postpartum weight changes in women starting DTG vs EFV in pregnancy: DolPHIN2 trial (poster presentation) [115]
- Risk of treatment-emergent resistance and the effect of pretreatment resistance in the ADVANCE trial (poster presentations) [116, 117]
The conference will also show a wealth of related data on currently recommended drugs, regimens and strategies across populations as well as new componds in the pipeline (see below).
The upcoming CADO 4 meeting will examine what we know, the evidence gaps and potential roles for new drugs and strategies in LMICs. The meeting will produce a list of research recommendations and priority drugs and regimens.
We will include recommendations from CADO 4 in the next edition of Fit for Purpose.
References
Key: CHAI, Clinton Health Access Initiative; CROI, Conference on Retroviruses and Opportunistic Infections; IAS, International AIDS Society; PEPFAR, Presidents Emergency Programme on AIDS Research; US FDA, US Food and Drug Administration; WHO, World Health Organization
- Update of recommendations on first- and second-line antiretroviral regimens. World Health Organization 2019.
https://apps.who.int/iris/bitstream/handle/10665/325892/WHO-CDS-HIV-19.15-eng.pdf - Venter F et al. The ADVANCE trial: Phase 3, randomised comparison of TAF/FTC/DTG, TDF/FTC/DTG or TDF/FTC/EFV for first-line treatment of HIV-1 infection.10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Oral abstract WEAB0405LB.
http://programme.ias2019.org/Abstract/Abstract/4770 - Venter WDF et al. Dolutegravir plus two different prodrugs of tenofovir to treat HIV. New England Journal of Medicine. N Engl J Med 2019; 381:803-815.
https://www.nejm.org/doi/pdf/10.1056/NEJMoa1902824 - Cournil A et al. Dolutegravir- versus an efavirenz 400 mg-based regimen for the initial treatment of HIV-infected patients in Cameroon: 48-week efficacy results of the NAMSAL ANRS 12313 trial. HIV Glasgow. 28-31 October 2018. Glasgow, UK. Oral abstract O342.
https://vimeo.com/298577120 (webcast) - ANRS/Unitaid press release. Dolutegravir, an alternative first-line HIV treatment for low and middle-income countries. 31 October 2018.
https://unitaid.org/news-blog/dolutegravir-an-alternative-first-line-hiv-treatment-for-low-and-middle-income-countries/#en - The NAMSAL ANRS 12313 Study Group. Dolutegravir-Based or Low-Dose Efavirenz-Based Regimen for the Treatment of HIV-1. N Engl J Med 2019; 381:816-826.
https://www.nejm.org/doi/full/10.1056/NEJMoa1904340 - WHO statement on DTG. 18 May 2018.
http://www.who.int/medicines/publications/drugalerts/Statement_on_DTG_18May_2018final.pdf (PDF) - Zash R et al. Dolutegravir/tenofovir/emtricitabine (DTG/TDF/FTC) started in pregnancy is as safe as efavirenz/tenofovir/emtricitabine (EFV/TDF/FTC) in nationwide birth outcomes surveillance in Botswana. IAS 2017. 23-26 July 2017. Paris. Oral abstract MOAX0202LB.
http://programme.ias2017.org/Abstract/Abstract/5532 - Clayden P. Preliminary results on dolutegravir use in pregnancy are reassuring. HTB. 10 August 2017.
https://i-base.info/htb/32182 - Zash, R et al. Comparative safety of dolutegravir-based or efavirenz-based antiretroviral treatment started during pregnancy in Botswana: an observational study. Lancet Glob Health. Published online 4 June 2018.
https://www.thelancet.com/journals/langlo/article/PIIS2214-109X(18)30218-3/fulltext - PEPFAR statement on potential safety issue affecting women living with HIV using dolutegravir at the time of conception.
https://www.pepfar.gov/press/releases/282221.htm - US FDA. FDA Drug Safety Communication: FDA to evaluate potential risk of neural tube birth defects with HIV medicine dolutegravir (Juluca, Tivicay, Triumeq). 18 May 2018.
https://www.fda.gov/Drugs/DrugSafety/ucm608112.htm - EMA press release. New study suggests risk of birth defects in babies born to women on HIV medicine dolutegravir. 18 May 2018.
http://www.ema.europa.eu/ema/index.jsp?curl=pages/news_and_events/news/2018/05/news_detail_002956.jsp&mid=WC0b01ac058004d5c1 - GSK Dear Doctor letter. Tivicay (dolutegravir), Triumeq (dolutegravir, abacavir, lamivudine), Juluca (dolutegravir, rilpivirine): neural tube defects reported in infants born to women exposed to dolutegravir at the time of conception. Ref: IE/DLG/0001/18. (22 May 2018).
http://www.hpra.ie/docs/default-source/default-document-library/important-safety-information—tivicay-(dolutegravir)-triumeq-(dolutegravir-abacavir-lamivudine)-juluca-(dolutegravir-rilpivirine).pdf?sfvrsn=0 - Zash R et al. Neural tube defects by antiretroviral and HIV exposure in the Tsepamo Study, Botswana. 10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Oral abstract MOAX0105LB.
http://programme.ias2019.org/Abstract/Abstract/4822 - Zash R et al. Neural-Tube Defects and Antiretroviral Treatment Regimens in Botswana. N Engl J Med 2019; 381:827-840. https://www.nejm.org/doi/full/10.1056/NEJMoa1905230
- Clayden P. No additional neural tube defects with preconception dolutegravir: data from three birth outcome cohorts. HTB. 13 November 2018.
https://i-base.info/htb/35301 - Clayden P. Integrase inhibitors and neural tube defects: more data still needed. HTB. 28 March 2019.
https://i-base.info/htb/35952 - Hill A et al. Safety and pharmacokinetics of dolutegravir in HIV-positive pregnant women: a systematic review. J Virus Erad. 2018 Apr; 4(2): 66-71.
- World Health Organization Transition to new antiretrovirals in HIV programmes; 2017.
http://apps.who.int/iris/bitstream/handle/10665/255888/WHO-HIV-2017.20-eng.pdf
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5892677/ - Vitoria M et al. When could new antiretrovirals be recommended for national treatment programmes in low-income and middle-income countries: results of a WHO think tank. Curr Opin HIV AIDS 2017; 12: 414- 422.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5459586/toxic - Mofensen L. In utero ART exposure and the need for pharmacovigilance. Lancet Glob Health. Published online 4 June 2018.
https://www.thelancet.com/journals/langlo/article/PIIS2214-109X(18)30272-9/fulltext - Clayden P. Brazil to start using dolutegravir first-line in its national programme. HTB. 1 October 2016.
https://i-base.info/htb/30673 - Fernandes Fonseca et al. No occurrences of neural tube defects among 382 women on dolutegravir at pregnancy conception in Brazil. 10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Oral abstract MOAX0104LB.
http://programme.ias2019.org/Abstract/Abstract/4991 - Antiretroviral Pregnancy Registry Steering Committee. Antiretroviral Pregnancy Registry Interim Report for 1 January 1989 through 31 January 2019. Wilmington, NC: Registry Coordinating Center; 2019.
http://www.apregistry.com/forms/interim_report.pdf - Vannappagari Vet al. – Dolutegravir (DTG) use during pregnancy and birth outcomes: data from the Antiretroviral Pregnancy Registry (APR). 17th European AIDS Conference (EACS). Basel, Switzerland. 6-9 November, 2019. Oral abstract PS1/2.
http://europeanaidsconference.eacs.cyim.com/mediatheque/media.aspx?mediaId=78029&channel=28172 (webcast) - Thorne C et al. Pregnancy and neonatal outcomes following prenatal exposure to dolutegravir. IAS 2017. 23-26 July 2017. Paris. Poster abstract MOPEC0609.
http://programme.ias2017.org/Abstract/Abstract/4549 - Thorne C et al. Pregnancy and neonatal outcomes following prenatal exposure to dolutegravir. 9th International Workshop on HIV Pediatrics 2017. 21-22 July 2017. Paris. Oral abstract 10.
http://regist2.virology-education.com/2017/9HIVped/26_Thorne.pdf - Vannappagari V et al. Pregnancy and neonatal outcomes following prenatal exposure to dolutegravir. J Acquir Immune Defic Syndr. 2019 Aug 1;81(4):371-378.
https://journals.lww.com/jaids/Fulltext/2019/08010/Pregnancy_and_Neonatal_Outcomes_Following_Prenatal.2.aspx - Money D et al. An analysis of congenital anomalies in pregnant women living with HIV in Canada: no signal for neural tube defects in women exposed to dolutegravir. HIV Glasgow. 28-31 October 2018. Glasgow, UK. Poster abstract P001.
- Weisman D et al. Use of integrase inhibitors in HIV-positive pregnant women: data from the Frankfurt HIV Cohort . HIV Glasgow. 28-31 October 2018. Glasgow, UK. Poster abstract P002.
- Kowalska J et al. Exposure to dolutegravir in pregnant HIV-positive women in Central and Eastern Europe and neighbouring countries: data from the ECEE Network Group. HIV Glasgow. 28-31 October 2018. Glasgow, UK. Poster abstract P004.
- FDAable
http://www.fdable.com/basic_query/aers - Hill A et al. Reports of neural tube defects for 8 arts, in FDA, WHO, EMA, and UK safety databases. CROI 2019. Seattle. 4-7 March. Oral abstract 40 LB. Poster abstract 746.
- Hill A et al. Safety and pharmacokinetics of dolutegravir in HIV-positive pregnant women: a systematic review. J Virus Erad. 2018 Apr; 4(2): 66-71.
- Waitt C et al. DolPHIN-1: dolutegravir vs efavirenz when initiating treatment in late pregnancy. 25th CROI. Boston. 4-7 March 2018. Poster abstract 807.
http://www.croiconference.org/sessions/dolphin-1-dolutegravir-vs-efavirenz-when-initiating-treatment-late-pregnancy (abstract and poster) - Orrell C et al. DolPHIN-1: Randomised controlled trial of dolutegravir (DTG)- versus efavirenz (EFV)-based therapy in mothers initiating antiretroviral treatment in late pregnancy. AIDS 2018. 23-27 July 2018. Oral abstract THAB0307LB.
http://programme.aids2018.org/Abstract/Abstract/13144 - Kintu K et al. RCT of dolutegravir vs efavirenz-based therapy initiated in late pregnancy: DolPHIN-2. CROI 2019. Seattle. 4-7 March 2019. Oral abstract 40LB.
http://www.croiconference.org/sessions/rct-dolutegravir-vs-efavirenz-based-therapy-initiated-late-pregnancy-dolphin-2 (abstract) - IAS Forum on the risks of periconceptional dolutegravir exposure FAQs.
https://www.iasociety.org/Portals/0/Files/DTG_FAQ.pdf - Dooley K et al. Safety and efficacy of dolutegravir-based art in TB/HIV coinfected adults at week 24. 25th CROI. Boston. 4-7 March 2018. Oral abstract 33.
http://www.croiconference.org/sessions/safety-and-efficacy-dolutegravir-based-art-tbhiv-coinfected-adults-week-24 (abstract)
http://www.croiwebcasts.org/console/player/37073 (webcast) - Dooley K et al. Safety and efficacy of dolutegravir-based ART in TB/HIV co-infected adults at week 48. AIDS 2018. Amsterdam. 23-27 July 2018. Oral abstract TUAB0206.
http://programme.aids2018.org/Abstract/Abstract/6122 (abstract)
https://www.youtube.com/watch?v=7XQjSgZKyyY (webcast) - Le M et al. Pharmacokinetic and efficacy of dolutegravir (50 mg BID) containing regimen in association with rifampin in HIV-infected patients using Dried Blood Spot: ANRS-12313 NAMSAL sub-study in Cameroon. 19th International Workshop on Clinical Pharmacology. Baltimore. 22-24 May 2018. Oral abstract 7.
http://regist2.virology-education.com/presentations/2018/Antiviralpk/23_le.pdf (PDF) - FDA. TIVICAY (dolutegravir) tablets for oral use initial US approval: 2013.
https://www.accessdata.fda.gov/drugsatfda_docs/label/2013/204790lbl.pdf - Dooley K et al. Safety, tolerability, and pharmacokinetics of the HIV integrase inhibitor dolutegravir given twice daily with rifampin or once daily with rifabutin: results of a phase 1 study among healthy subjects. J Acquir Immune Defic Syndr. 2013 Jan 1;62(1):21-7.
https://journals.lww.com/jaids/Abstract/2013/01010/Safety,_Tolerability,_and_Pharmacokinetics_of_the.4.aspx - Wang X et al. Pharmacokinetics of dolutegravir 100 mg once-daily with rifampicin. 19th International Workshop on Clinical Pharmacology. Baltimore. 22-24 May 2018. Oral abstract 11.
http://regist2.virology-education.com/presentations/2018/Antiviralpk/22_boffito.pdf (PDF) - Dooley KE et al. Safety & PK of weekly rifapentine/isoniazid (3HP) in adults with HIV on dolutegravir. CROI 2019. Seattle. 4-7 March 2019. Oral abstract 80LB.
http://www.croiconference.org/sessions/safety-pk-weekly-rifapentineisoniazid-3hp-adults-hiv-dolutegravir (abstract)
http://www.croiwebcasts.org/console/player/41177 (webcast) - WHO technical update. Transition to new antiretroviral drugs in HIV programmes: clinical and programmatic considerations. July 2017.
http://apps.who.int/iris/bitstream/10665/255887/1/WHO-HIV-2017.23-eng.pdf - Hill AM et al. Risks of cardiovascular or central nervous system adverse events and immune reconstitution inflammatory syndrome, for dolutegravir versus other antiretrovirals: meta-analysis of randomised trials. Curr Opin HIV AIDS. 13 (2) March 2018.
https://journals.lww.com/co-hivandaids/Abstract/2018/03000/Risks_of_cardiovascular_or_central_nervous_system.3.aspx - Elliot E et al. Relationship between dolutegravir plasma exposure, quality of sleep and its functional outcome in patients living with HIV over the age of 60 years. 18th International Workshop on Clinical Pharmacology of Antiviral Therapy, 14- 16 June 2017, Chicago. Oral abstract O8.
http://regist2.virology-education.com/2017/18AntiviralPK/11_Boffito.pdf (PDF) - Hill A et al. Are new antiretroviral treatments increasing the risks of clinical obesity? Journal of Virus Eradication 2019;5: e45-e47.
http://viruseradication.com/journal-details/Are_new_antiretroviral_treatments_increasing_the_risks_of_clinical_obesity^ - Clayden P. INSTI and weight gain: reports from CROI 2019. HTB. 20 May 2019.
https://i-base.info/htb/36101 - Hill A et al. Progressive rises in weight and clinical obesity for TAF/FTC/DTG and TDF/FTC/DTG versus TDF/FTC/EFV: ADVANCE and NAMSAL trials. 10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Oral abstract MOAX0102LB.
http://programme.ias2019.org/Abstract/Abstract/4772 - McCann K et al. The ADVANCE clinical trial: changes from baseline to week 96 in DXA-assessed body composition in TAF/FTC+DTG compared to TDF/FTC+DTG, and TDF/FTC/EFV. 17th European AIDS Conference (EACS). Basel, Switzerland. 6-9 November, 2019. Oral abstract PS3/3.
http://resourcelibrary.eacs.cyim.com/mediatheque/media.aspx?mediaId=78033&channel=28172 (webcast) - Lamorde M et al. Dolutegravir-associated hyperglycaemia in patients with HIV. Lancet HIV 2020. Published online 24 February 2020.
https://www.thelancet.com/journals/lanhiv/article/PIIS2352-3018(20)30042-4/fulltext - ENCORE1 Study Group. Efficacy of 400 mg efavirenz versus standard 600 mg dose in HIV-infected, antiretroviral-naive adults (ENCORE1): a randomised, double-blind, placebo-controlled, non-inferiority trial. Lancet. April 2014. 383(9927):1474-82.
- Boffito M et al. Pharmacokinetics, pharmacodynamics and pharmacogenomics of efavirenz 400mg once-daily during pregnancy and postpartum. IAS 2017. 23-26 July 2017. Paris. Poster abstract TUPDB0203LB.
http://programme.ias2017.org/Abstract/Abstract/5612 - Schalkwijk S et al. Pharmacokinetics of efavirenz 600 mg QD during pregnancy and postpartum. CROI 2016. 22-25 February. Boston. Poster abstract 433.
http://www.croiconference.org/sites/default/files/posters-2016/433.pdf (PDF) - Puls R et al. Efficacy of 400 mg efavirenz versus standard 600 mg dose in HIV-infected, antiretroviral-naive adults (ENCORE1): a randomised, double-blind, placebo-controlled, non-inferiority trial. Lancet. 2014 Apr 26;383(9927):1474-82.
https://www.ncbi.nlm.nih.gov/pubmed/24522178 - Mulenga L et al. Low dose efavirenz (efavirenz 400 mg) combined with tenofovir 300 mg and lamivudine 300 mg shows excellent viral suppression among HIV pregnant women receiving routine HIV care in Zambia. 10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Poster abstract LBPEB15.
http://programme.ias2019.org/Abstract/Abstract/5043 - Cerrone M et al. Pharmacokinetics of efavirenz 400mg with isoniazid/rifampicin in people with HIV. 25th CROI. Boston. 4-7 March 2018. Poster abstract 457.
http://www.croiconference.org/sites/default/files/posters-2018/1430_Cerrone_457.pdf (PDF) - FDA tentative approval letter dolutegravir, emtricitabine, and tenofovir alafenamide. 9 February 2018.
https://www.accessdata.fda.gov/drugsatfda_docs/appletter/2018/210237Orig1s000TAltr.pdf - Clayden P. FDA grants tentative approval to first DTG/FTC/TAF FDC. HTB. 21 February 2018.
https://i-base.info/htb/33537 - HIV Market Report: The state of HIV treatment, testing, and prevention in low- and middle-income countries. 10th edition. September 2019.
https://clintonhealthaccess.org/the-state-of-the-hiv-market-in-low-and-middle-income-countries-2/ - WHO Model List of Essential Medicines. 21st edition. 2019.
https://apps.who.int/iris/bitstream/handle/10665/325771/WHO-MVP-EMP-IAU-2019.06-eng.pdf - Vitoria et al. The transition to dolutegravir and other new antiretrovirals in low- and middle- income countries – what are the issues? AIDS, Publish ahead of print 9 May 2018. DOI: 10.1097/QAD.0000000000001845.
https://journals.lww.com/aidsonline/Abstract/publishahead/The_transition_to_dolutegravir_and_other_new.97225.aspx - WHO. Third conference on antiretroviral drug optimisation (CADO 3): summary meeting report, 29 November to 1 December 2017, Rosebank Crowne Plaza, Johannesburg, South Africa.
http://apps.who.int/iris/bitstream/handle/10665/272291/WHO-CDS-HIV-18.6-eng.pdf - Hill A et al. Tenofovir alafenamide versus tenofovir disoproxil fumarate: is there a true difference in efficacy and safety? Fourth Joint Conference of BHIVA/BASHH. Edinburgh. 17-20 April 2018. Poster abstract P27.
- Hill A et al. Tenofovir alafenamide versus tenofovir disoproxil fumarate: is there a true difference in efficacy and safety. Journal of Virus Eradication 4: 73-80, 2018.
http://viruseradication.com/journal-details/Tenofovir_alafenamide_versus_tenofovir_disoproxil_fumarate:_is_there_a_true_difference_in_efficacy_and_safety%5E/ - Custodio JM et al. Twice daily administration of tenofovir alafenamide in combination with rifampin: potential for tenofovir alafenamide use in HIV-TB coinfection. 16th European AIDS Conference (EACS). October 25-27 2017. Milan. Oral abstract PS13/4.
- Clayden P. Once-daily tenofovir alafenamide appears sufficient when dosed with rifampicin. HTB. 14 March 2018.
https://i-base.info/htb/33633 - Cerrone M et al. Rifampin effect on tenofovir alafenamide (TAF) plasma/ intracellular pharmacokinetics. 25th CROI. Boston. 4-7 March 2018. Oral abstract 28LB.
- Clayden P. Twice-daily tenofovir alafenamide dose might overcome interaction with rifampicin. HTB. 28 November 2017.
https://i-base.info/htb/32909 - National Institutes of Health. RIFT: Effect of rifampicin on plasma PK of FTC, TAF and intracellular TFV-DP and FTC-TP.
https://clinicaltrials.gov/ct2/show/NCT03186482 - Momper JD et al. Tenofovir alafenamide pharmacokinetics with and without cobicistat in pregnancy. AIDS 2018. Amsterdam. 23-27 July 2018. Oral abstract THAB0302.
http://programme.aids2018.org/Abstract/Abstract/5960 (abstract)
https://www.youtube.com/watch?v=djY2rjG_F-c (webcast) - Brooks K et al. Pharmacokinetics of tenofovir alafenamide 25 mg with PK boosters during pregnancy and postpartum. 20th International Workshop on Clinical Pharmacology of HIV, Hepatitis, and Other Antiviral Drugs. Noordwijk, the Netherlands. 14-16 May 2019. Oral abstract 12.
http://regist2.virology-education.com/presentations/2019/20AntiviralPK/29_Brooks.pdf (PDF) - Antiretroviral Pregnancy Registry Steering Committee. Antiretroviral Pregnancy Registry Interim Report for 1 January 1989 through 31 July 2019. Wilmington, NC: Registry Coordinating Center; 2019.
http://www.apregistry.com/forms/interim_report.pdf - Molto J et al. Reduced darunavir dose is as effective in maintaining HIV suppression as the standard dose in virologically suppressed HIV-infected patients: a randomised clinical trial. J Antimicrob Chemother. 2015 Apr;70(4):1139-45
- Lanzafame M et al. Efficacy of a reduced dose of darunavir/ritonavir in a cohort of antiretroviral naive and experienced HIV-infected patients: a medium-term follow-up. J. Antimicrob. Chemother. 2015 Feb;70(2):627-30.
- Kakuda TN et al. Pharmacokinetics of darunavir in fixed dose combination with cobicistat compared with coadministration of darunavir and ritonavir as single agents in healthy volunteers. J Clin Pharmacol. 2014 Aug;54(8):949-57.
- Molina JM et al. Efficacy and safety of 400 mg darunavir/100 mg ritonavir with TDF/FTC or ABC/3TC in virologically suppressed HIV-1 infected adults: an open-label study – ANRS-165 Darulight. IAS 2017. 23-26 July 2017. Paris. Poster abstract MOPEB0313.
http://programme.ias2017.org/Abstract/Abstract/1075 - Lê MP et al. Pharmacokinetic modelling of darunavir/ritonavir dose reduction (800/100 mg to 400/100mg once daily) containing regimen in virologically suppressed HIV-infected patients as maintenance treatment: ANRS-165 DARULIGHT sub-study. Poster abstract MOPEB0329.
http://programme.ias2017.org/Abstract/Abstract/1586 - Venter F et al. Non-inferior efficacy for darunavir/ritonavir 400/100 mg once daily versus lopinavir/ritonavir, for patients with HIV RNA below 50 copies/mL in South Africa: The 48-week WRHI 052 study. IAS 2018. 23-27 July 2018. Oral abstract TUAB0107LB.
http://programme.aids2018.org/Abstract/Abstract/13192 - Khoo S et al. Pharmacokinetics and Safety of darunavir/Ritonavir in HIV-Infected Pregnant Women. AIDS Rev 2017 Jan-Mar;19(1):16-23.
- Slogrove AL et al. Toward a universal antiretroviral regimen: special considerations of pregnancy and breast feeding. Current Opinion in HIV & AIDS. 12(4):359-368, July 2017.
http://journals.lww.com/co-hivandaids/Fulltext/2017/07000/Toward_a_universal_antiretroviral_regimen__.10.aspx - Ebrahim I et al. Pharmacokinetics and safety of adjusted darunavir/ritonavir with rifampin in PLWH. CROI 2019. Seattle. 4-7 March 2019. Oral abstract 81LB.
http://www.croiconference.org/sessions/pharmacokinetics-and-safety-adjusted-darunavirritonavir-rifampin-plwh (abstract) - US National Institutes of Health. ADVANCE Study of DTG + TAF + FTC vs DTG + TDF + FTC and EFV + TDF+FTC in first-line antiretroviral therapy (ADVANCE)
https://clinicaltrials.gov/ct2/show/NCT03122262 - Venter WDF et al. The ADVANCE study: a ground-breaking trial to evaluate a candidate universal antiretroviral regimen. Current Opinion in HIV & AIDS. 12(4):351-354, July 2017.
http://journals.lww.com/co-hivandaids/Fulltext/2017/07000/The_ADVANCE_study___a_groundbreaking_trial_to.8.aspx - US National Institutes of Health. Efficacy and safety of a dolutegravir-based regimen for the initial management of HIV infected adults in resource-limited settings (NAMSAL)
https://clinicaltrials.gov/ct2/show/NCT02777229 - Cournil A et al. Dolutegravir- versus an efavirenz 400 mg-based regimen for the initial treatment of HIV-infected patients in Cameroon: 48-week efficacy results of the NAMSAL ANRS 12313 trial. HIV Glasgow. 28-31 October 2018. Glasgow, UK. Oral abstract O342.
- Venter F et al. The ADVANCE trial: Phase 3, randomised comparison of TAF/FTC/DTG, TDF/FTC/DTG or TDF/FTC/EFV for first-line treatment of HIV-1 infection.10th IAS Conference on HIV Science. Mexico City, Mexico. 21-24 July 2019. Oral abstract WEAB0405LB.
http://programme.ias2019.org/Abstract/Abstract/4770 - VESTED/IMPAACT 2010 protocol. Final version 1.0. 1 December 2016.
http://www.impaactnetwork.org/DocFiles/IMPAACT2010/IMPAACT2010_FINALv1.0_01DEC2016.pdf - US National Institutes of Health. Evaluating the efficacy and safety of dolutegravir-containing versus efavirenz-containing antiretroviral therapy regimens in HIV-1-infected pregnant women and their infants. (VESTED)
https://clinicaltrials.gov/ct2/show/NCT03048422 - Chinula L et al. Safety and efficacy of DTG vs EFV and TDF vs TAF in pregnancy: IMPAACT 2010 TRIAL. CROI 2020. Boston. 8-11 March 2020. Oral abstract 130 LB.
- US National Institutes of Health. Dolutegravir in pregnant HIV mothers and their neonates (DolPHIN-2).
https://clinicaltrials.gov/ct2/show/NCT03249181 - DolPHIN 2 website.
https://www.dolphin2.org - Kintu K et al. RCT of dolutegravir vs efavirenz-based therapy initiated in late pregnancy: DolPHIN-2. CROI 2019. Seattle. 4-7 March. Oral abstract 40 LB.
http://www.croiconference.org/sessions/rct-dolutegravir-vs-efavirenz-based-therapy-initiated-late-pregnancy-dolphin-2 (abstract) - US National Institutes of Health. Pharmacokinetic study of antiretroviral drugs and related drugs during and after pregnancy.
https://clinicaltrials.gov/ct2/show/NCT00042289 - Mulligan N et al. Dolutegravir pharmacokinetics in HIV-infected pregnant and postpartum women. Conference on Retroviruses and Opportunistic Infections (CROI) 2016. 22-25 February 2016. Boston, Massachusetts. Poster abstract 438.
http://www.croiconference.org/sessions/dolutegravir-pharmacokinetics-hiv-infected-pregnant-and-postpartum-women-0 - US National Institutes of Health. Pharmacokinetics of antiretroviral agents in HIV-infected pregnant women. (PANNA).
https://clinicaltrials.gov/ct2/show/NCT00825929 - Bollen P et al. A comparison of the pharmacokinetics of dolutegravir in pregnancy and postpartum. 18th International Workshop on Clinical Pharmacology of Antiviral Therapy. 14-16 June 2017. Chicago. Oral abstract 0_7.
http://regist2.virology-education.com/2017/18AntiviralPK/10_Bollen.pdf - US National Institutes of Health. A study to determine safety and efficacy of dolutegravir/abacavir/lamivudine (DTG/ABC/3TC) in human immunodeficiency virus (HIV)-1 infected antiretroviral therapy (ART) naive women (ARIA).
https://clinicaltrials.gov/ct2/show/NCT01910402 - Clayden P. Dolutegravir is superior to boosted atazanavir in women in the ARIA study. HTB. 1 August 2016.
https://i-base.info/htb/30376 - IMPAACT 2026. Pharmacokinetic properties of antiretroviral and anti-tuberculosis drugs during pregnancy and postpartum. Final version 1.0. 22 January 2020.
https://www.impaactnetwork.org/DocFiles/IMPAACT2026/IMPAACT_2026_FINAL_V1.0_22JAN2020.pdf - US National Institutes of Health. Comparative efficacy and safety study of dolutegravir and lopinavir/ritonavir in second-line treatment.
https://clinicaltrials.gov/ct2/show/NCT02227238 - Aboud M et al. Superior efficacy of dolutegravir (DTG) plus 2 nucleoside reverse transcriptase inhibitors (NRTIs) compared with lopinavir/ritonavir (LPV/RTV) plus 2 NRTIs in second-line treatment: interim data from the DAWNING study. IAS 2017. 23-26 July 2017. Paris. Oral abstract TUAB0105LB.
- Aboud M et al. Superior efficacy of dolutegravir (DTG) plus 2 nucleoside reverse transcriptase inhibitors (NRTIs) compared with lopinavir/ritonavir (LPV/r) plus 2 NRTIs in second-line treatment – 48-week data from the DAWNING Study. AIDS 2018. 23-27 July 2018. Poster abstract THAB0302.
http://programme.aids2018.org/Abstract/Abstract/5633 - National Institutes of Health. Tenofovir/lamivudine/dolutegravir combination as second line ART: a randomised controlled trial (ARTIST).
https://clinicaltrials.gov/ct2/show/NCT03991013 - Pan African Clinical Trials Registry. VISEND. Virological Impact of Switching from Efavirenz and Nevirapine-based First-Line ART Regimens to Dolutegravir.
PACTR201904781300573
https://pactr.samrc.ac.za/TrialDisplay.aspx?TrialID=6050 - US National Institutes of Health. Assess Therapeutic Efficacy and Emergence of HIV Drug Resistance Following Initiation of TLD.
https://clinicaltrials.gov/ct2/show/NCT04050449 - US National Institutes of Health. A phase IIIB/IV randomised open-label trial comparing dolutegravir with pharmaco-enhanced darunavir versus dolutegravir with predetermined nucleosides versus recommended standard of care ART regimens in patients with HIV-1 infection failing first line.
https://clinicaltrials.gov/ct2/show/NCT03017872 - US National Institutes of Health. Nucleosides And Darunavir/Dolutegravir In Africa (NADIA).
https://clinicaltrials.gov/ct2/show/NCT03988452 - Ebrahim I et al. Pharmacokinetics and safety of adjusted darunavir/ritonavir with rifampin in PLWH. CROI 2019. Seattle. 4-7 March. Oral abstract 80 LB. 81 LB.
- Chinula L et al. Safety and efficacy of DTG vs EFV and TDF vs TAF in pregnancy: IMPAACT 2010 TRIAL. CROI 2020. Boston. 8-11 March 2020. Oral abstract 130 LB.
- Hill A et al. Risks of metabolic syndrome, diabetes, and cardiovascular disease in ADVANCE trial. CROI 2020. Boston. 8-11 March 2020. Oral abstract 81.
- Malaba TR et al. Postpartum weight changes in women initiating DTG vs EFV in pregnancy: DOLPHIN-2. CROI 2020. Boston. 8-11 March 2020. Poster abstract 771.
- Venter WD et al. ADVANCE trial: higher risk of treatment-emergent resistance on first-line TDF/FTC/EFV. CROI 2020. Boston. 8-11 March 2020. Poster abstract 514.
- Siedner MJ et al. Pretreatment HIV drug resistance and 48-week virologic outcomes in the ADVANCE trial. CROI 2020. Boston. 8-11 March 2020. Poster abstract 518.