Switch to single-tablet bictegravir-lenacapavir from a complex HIV regimen (ARTISTRY-1): a randomised, open-label, phase 3 clinical trial.
Summary
Switch to single-tablet bictegravir–lenacapavir from a complex HIV regimen (ARTISTRY-1): a randomised, open-label, phase 3 clinical trial The Lancet 2026 Articles Switch to single-tablet bictegravir–lenacapavir from a complex HIV regimen (ARTISTRY-1): a randomised, open-label, phase 3 clinical trial Chloe Orkin, Peter J Ruane, Malcolm Hedgcock, Cyril Gaultier, Marcelo H Losso, Benoit Trottier, Thomas Lutz, Mark O’Reilly, Mark Bloch, Jihad Slim, Moti Ramgopal, Simiso Sokhela, Karam Mounzer, Hung-
Content
# Switch to single-tablet bictegravir–lenacapavir from a complex HIV regimen (ARTISTRY-1): a randomised, open-label, phase 3 clinical trial
*The Lancet 2026*
Articles
Switch to single-tablet bictegravir–lenacapavir from a
complex HIV regimen (ARTISTRY-1): a randomised,
open-label, phase 3 clinical trial
Chloe Orkin, Peter J Ruane, Malcolm Hedgcock, Cyril Gaultier, Marcelo H Losso, Benoit Trottier, Thomas Lutz, Mark O’Reilly, Mark Bloch, Jihad Slim,
Moti Ramgopal, Simiso Sokhela, Karam Mounzer, Hung-Chin Tsai, Jorge Santana Bagur, Xu Zhang, Keith Aizen, Kwanza Price, Nicolas Margot,
Jairo M Montezuma-Rusca, Peter Sklar, Martin Rhee, Pedro Cahn, on behalf of the ARTISTRY-1 Study Group
Summary
Background Single-tablet regimens (STRs) revolutionised HIV-1 treatment, improving adherence and clinical Lancet 2026; 407: 1249–58
outcomes; however, many people cannot take these due to resistance, contraindications, or drug–drug interactions, Published Online
instead relying on complex multi-tablet regimens. Novel STRs are therefore needed. We aimed to evaluate the ecacy February 25, 2026
and safety of a novel STR, bictegravir–lenacapavir, in people with HIV-1. https://doi.org/10.1016/
S0140-6736(26)00307-7
See Comment page 1211
Methods ARTISTRY-1 was a randomised, open-label, active-controlled, non-inferiority phase 3 trial conducted at
SHARE Collaborative, Blizard
hospitals and clinics across 15 countries that enrolled people with HIV-1 with virological suppression on complex
Institute, Faculty of Medicine
regimens. Participants were randomly assigned (using interactive technology, 2:1, stratified by geographical region) to
and Dentistry, Queen Mary
switch to once-daily oral bictegravir–lenacapavir 75 mg/50 mg STR or continued complex regimen. The primary University of London, London,
outcome was the proportion of participants with an HIV-1 RNA viral load of 50 copies per mL or higher at week 48 (US UK (Prof C Orkin MD); Ruane
Clinical Research Group,
Food and Drug Administration Snapshot algorithm), assessed in all randomly assigned participants who received any
Los Angeles, CA, USA
dose of assigned treatment. This trial (active; enrolment complete) was registered with ClinicalTrials.gov (NCT05502341).
(P J Ruane MD); Spectrum
Health, Vancouver, BC, Canada
Findings Between Jan 29 and Sept 26, 2024, 729 participants were screened; 557 were randomly assigned and treated (M Hedgcock MD); BIOS Clinical
Research, Palm Springs, CA,
(bictegravir–lenacapavir n=371; complex regimen n=186). At baseline, median age was 60 years (range 22–84), HIV
USA (C Gaultier MD); Emerging
treatment duration was 28 years (IQR 22–32); participants were taking a median of three antiretroviral pills per day Diseases Research Unit,
(range 2–11). At week 48, an HIV-1 RNA viral load of 50 copies per mL or higher was observed in three (1%) participants Hospital General de Agudos
receiving bictegravir–lenacapavir and two (1%) receiving a complex regimen (dierence −0·3%; José María Ramos Mejía,
Buenos Aires, Argentina
95·002% CI −2·3 to 1·8), meeting the non-inferiority margin of 4%. No resistance emerged. Adverse event rates
(Prof M H Losso MD); Fundación
were similar between groups. Six (2%) participants discontinued bictegravir–lenacapavir and one (1%) discontinued IBIS/CICAL, Buenos Aires,
their complex regimen due to adverse events. There were five deaths in the bictegravir–lenacapavir group, none of Argentina (Prof M H Losso);
which were deemed related to study drug. Participants reported increased treatment satisfaction after switching to Clinique de Médecine Urbaine
du Quartier Latin, Montreal,
bictegravir–lenacapavir.
QC, Canada (B Trottier MD);
Infektiologikum, Frankfurt,
Interpretation Bictegravir–lenacapavir STR demonstrated non-inferior ecacy to complex regimens, with a similar Germany (T Lutz MD); East
safety profile and increased treatment satisfaction. Bictegravir–lenacapavir oers new opportunities for HIV-1 Sydney Doctors, Darlinghurst,
NSW, Australia
treatment optimisation for people taking complex regimens.
(M O’Reilly BMED); Taylor
Square Private Clinic,
Funding Gilead Sciences. Surry Hills, NSW, Australia
(M O’Reilly); Holdsworth House
Medical Practice, Darlinghurst,
Copyright © 2026 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY-NC-ND
NSW, Australia
4.0 license. (M Bloch MMed); Kirby
Institute, University of
Introduction Single-tablet regimens (STRs) have been standard of New South Wales, Kensington,
Sydney, NSW, Australia
People with HIV taking complex multi-tablet care for people with HIV-12,4 for almost two decades,5
(M Bloch); New York Medical
antiretroviral therapy regimens face a substantial unmet oering simplicity, reduced pill burden, improved College, Valhalla, New York, NY,
treatment need, often experiencing significant pill adherence, and better clinical outcomes compared with USA (J Slim MD); Saint
Michael’s Medical Center,
burden, adherence challenges, and diculties with complex multi-tablet regimens.6–8 A novel STR combining
Newark, NJ, USA (J Slim);
long-term HIV management.1 These individuals—often bictegravir, a global guideline-recommended integrase
Midway Immunology and
older adults diagnosed early during the HIV-1 epidemic strand-transfer inhibitor (INSTI) with a high resistance Research Center, Fort Pierce, FL,
or people born with HIV-1, with decades of antiretroviral barrier,2,4,9–11 and lenacapavir, a first-in-class capsid USA (Prof M Ramgopal MD);
Ezintsha, Faculty of Health
therapy experience and a higher likelihood of inhibitor with no documented de novo resistance in the
Sciences, University of the
resistance—continue to rely on regimens consisting of absence of previous exposure,12–14 oers a promising
Witwatersrand, Johannesburg,
multiple pills and/or doses per day.2 These regimens treatment optimisation option for people with HIV-1 with South Africa (S Sokhela MBChB);
usually require the use of pharmacological boosting virological suppression on a complex regimen who are Philadelphia FIGHT Community
Health Centers, Philadelphia,
agents and can result in higher drug concentrations.3 unable to use currently available STRs. The phase 2/3
Articles
PA, USA (K Mounzer MD);
Research in context
School of Medicine, College of
Medicine, National Yang Ming
Evidence before this study enrolled in a registrational programme for HIV treatment to
Chiao Tung University,
Taipei City, Taiwan We searched PubMed on Feb 12, 2026, using the terms date, with a median participant age of 60 years. At baseline,
(H-C Tsai MD); Division of “bictegravir AND lenacapavir” without language or date most participants had at least one comorbidity (54% had
Infectious Diseases,
restrictions. 16 articles were identified. None of these studies two or more select comorbidities) and 61% were taking
Department of Medicine,
compared a single-tablet regimen of bictegravir–lenacapavir two or more select concomitant medications. Median
Kaohsiung Veterans General
Hospital, Kaohsiung City, with complex regimens for treatment of HIV-1, with the duration of HIV treatment was 28 years, and a large
Taiwan (H-C Tsai); School of exception of the phase 2 portion of the current trial. There is a percentage of participants (81%) were on a complex regimen
Medicine, University of
need for additional treatment options for people with HIV-1 due to antiretroviral resistance, demonstrating the treatment
Puerto Rico, San Juan,
who are unable to benefit from available single-tablet regimens challenges faced by this underserved population.
Puerto Rico
(Prof J Santana Bagur MD); due to resistance, intolerance, contraindications, or drug–drug Once-daily oral bictegravir–lenacapavir single-tablet regimen
Gilead Sciences, Foster City, CA, interactions. Instead, these individuals—often older adults with demonstrated non-inferior efficacy to complex regimens, with
USA (X Zhang PhD,
multiple comorbidities, decades of antiretroviral therapy an HIV-1 RNA viral load of 50 copies per mL or higher in 1% of
K Aizen MBChB, K Price MPH,
N Margot MA, experience, and a higher likelihood of resistance—rely on participants receiving bictegravir–lenacapavir and 1% of
J M Montezuma-Rusca MD, complex antiretroviral regimens, and frequently experience participants receiving a complex regimen at week 48
P Sklar MD, M Rhee MD); significant pill burden, adherence challenges, and difficulties (difference −0·3%; 95·002% CI −2·3% to 1·8%). No resistance
Fundación Huésped,
with long-term HIV management. A novel single-tablet emerged. There were similar rates of adverse events in both
Buenos Aires, Argentina
(P Cahn PhD) regimen of bictegravir and lenacapavir could offer a new treatment groups despite the open-label trial design, and
treatment option for this population. The open-label, participants who switched to bictegravir–lenacapavir reported
Correspondence to:
Prof Chloe Orkin, Blizard randomised phase 2/3 ARTISTRY-1 trial evaluated the efficacy greater treatment satisfaction than those continuing a
Institute, Faculty of Medicine and safety of switching to bictegravir–lenacapavir in people complex regimen.
and Dentistry, Queen Mary
with HIV-1 with virological suppression on a complex regimen.
University of London, Implications of all the available evidence
London E1 2AT, UK Two previously published phase 2 articles reported that These findings support the use of bictegravir–lenacapavir as a
c.m.orkin@qmul.ac.uk bictegravir and lenacapavir maintained virological suppression
new, optimised treatment option to maintain virological
through 48 weeks and were well tolerated, including in people
suppression in people with HIV-1 on complex regimens who
with a history of antiretroviral resistance. Here we report
have not benefitted from available single-tablet regimens due
phase 3 data from ARTISTRY-1.
to antiretroviral resistance or other reasons. In particular,
Added value of this study bictegravir–lenacapavir could offer a more suitable long-term
Phase 3 ARTISTRY-1 is the first randomised trial to investigate treatment option for an ageing population with comorbidities
the novel single-tablet regimen of bictegravir–lenacapavir for and a greater risk of polypharmacy.
treatment of HIV-1. It included the oldest study population
ARTISTRY-1 trial evaluated the ecacy and safety of trial site (trial investigators and ethics approvals are listed
See Online for appendix switching to bictegravir–lenacapavir STR in people with in the appendix [pp 3–5]). The protocol and statistical
HIV-1 with virological suppression on complex regimens. analysis plan are provided in the appendix (p 25). A
In phase 2, bictegravir and lenacapavir were well tolerated summary of important protocol amendments is also
and maintained virological suppression through 48 weeks provided in the appendix (pp 6–7). The trial is active and
in participants, most of whom had a history of closed to new participants.
antiretroviral resistance.15 Here, we aimed to evaluate the
48-week ecacy and safety of bictegravir–lenacapavir Participants
STR in people with HIV who switched from complex Eligible participants were aged 18 years or older, with
regimens in the phase 3 study. plasma HIV-1 RNA concentrations below 50 copies
per mL for at least 6 months before and at screening,
Methods and on a complex regimen for at least 6 months due
Study design to previous antiretroviral resistance, intolerance, or
ARTISTRY-1 was a randomised, open-label, active- contraindication to existing STRs, with no resistance to
controlled, non-inferiority phase 3 trial (GS-US-621-6289; bictegravir or previous exposure to lenacapavir. A complex
ClinicalTrials.gov number NCT05502341), conducted at regimen was defined as (1) containing a boosted protease
90 hospitals and clinics across 15 countries or territories inhibitor (PI) or non-nucleoside reverse transcriptase
(Australia, Argentina, Canada, Dominican Republic, inhibitor (NNRTI) plus one or more other third agent
France, Germany, Italy, Japan, Puerto Rico, South Africa, from a class other than nucleos(t)ide reverse transcriptase
South Korea, Spain, Taiwan, UK, and USA). The trial was inhibitor (NRTI), or (2) requiring two or more pills
conducted in accordance with the Declaration of per day or one drug requiring more than once-daily
Helsinki, and the protocol was approved by an dosing, or (3) containing a parenteral agent(s) as well as
institutional review board or ethics committee at each oral agents (excluding a complete long-acting injectable
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regimen). Participants were required to have an estimated at week 48, as determined by the US Food and Drug
glomerular filtration rate (eGFR) by Cockroft–Gault Administration (FDA) Snapshot algorithm.16 Secondary
equation of at least 15 mL/min and not be on renal endpoints included the proportion of participants with an
replacement therapy. Those with chronic hepatitis B virus
(HBV) infection, decompensated liver cirrhosis, or active
tuberculosis infection were excluded. A complete list of A
eligibility criteria is provided in the appendix (pp 8–9). Adults aged ≥18 years on a Week 0 Primary End of
People with HIV were screened and recruited by complex multi-tablet endpoint randomised
regimen* at week 48 treatment
clinical investigators at hospitals and clinics. All Optional phase 3
• HIV-1 RNA <50 copies
extension‡
participants provided written consent. Demographic data per mL on a stable complex Bictegravir–lenacapavir
on sex at birth (male or female), gender (cisgender, multi-tablet regimen for STR once daily†
≥6 months before Bictegravir–
transgender, non-binary or third gender, other, not screening Randomisation lenacapavir
2:1
disclosed), race (American Indian or Alaska Native, • No previous exposure to STR
lenacapavir or resistance to Continued complex once daily
Asian, Black, Native Hawaiian or Pacific Islander, White, bictegravir multi-tablet regimen
Other, not permitted), and ethnicity (Hispanic or Latine, • No history of chronic HBV
infection
not Hispanic or Latine, not permitted) were collected
• eGFR ≥15 mL/min; not on
through self-reporting by study participants. renal replacement therapy
Randomisation and masking B
Following confirmation of eligibility, the investigator or
729 people with HIV and virological
an appropriately trained designee randomly assigned
suppression on a complex
each participant to a treatment group using an interactive multi-tablet regimen screened
response system (IXRS) in a 2:1 ratio stratified by for eligibility
geographical region (appendix p 10). The randomisation
sequence was obtained using block number and 149 screened but ineligible
treatment allocation provided at each trial site by the 19 met eligibility criteria but were
not randomly assigned
interactive response system. There was no blinding of
treatment allocation in this trial.
561 randomly assigned
Procedures
Eligible participants were randomly assigned in a 2:1 ratio
either to switch to oral bictegravir–lenacapavir
373 assigned to bictegravir–lenacapavir 188 assigned to continue complex
75 mg/50 mg STR once daily, regardless of food intake, or
75 mg/50 mg STR multi-tablet regimen
continue their complex regimen (figure 1A). Participants
in the bictegravir–lenacapavir group received an oral
2 randomly assigned but not treated 2 randomly assigned but not treated
pharmacokinetic loading dose of 600 mg lenacapavir on
days 1 and 2 in addition to bictegravir–lenacapavir.
Blood samples drawn for laboratory analyses, HIV-1 371 received bictegravir–lenacapavir and 186 continued to receive complex
RNA, CD4 cell counts, and adverse event assessments were included in the FAS and SAS multi-tablet regimen and were
included in the FAS and SAS
were performed at day 1, weeks 4 and 12, and every
12 weeks thereafter.
Resistance analysis was performed in confirmed cases of 17 discontinued bictegravir– 10 discontinued complex
virological rebound (HIV-1 RNA ≥50 copies per mL at any lenacapavir multi-tablet regimen
6 adverse event 5 investigator’s discretion
visit after day 1 followed by HIV-1 RNA ≥200 copies per mL
5 death 2 participant’s decision
at the subsequent scheduled or unscheduled visit) or when 5 participant’s decision 2 loss to follow-up
1 investigator’s discretion 1 adverse event
a participant had an HIV-1 RNA viral load of 200 copies per
mL or higher at the last on-treatment visit through week 48
(including early discontinuation or loss to follow-up). 354 continued bictegravir–lenacapavir§ 176 continued complex multi-tablet
Treatment satisfaction was assessed using HIV regimen¶
Treatment Satisfaction Questionnaire status version
(HIVTSQs; at day 1 and weeks 4, 12, 24, and 48) and Figure 1: Study design and trial profile
eGFR=estimated glomerular filtration rate. FAS=full analysis set. HBV=hepatitis B virus. SAS=safety analysis set.
change version (HIVTSQc; at week 48; see appendix
STR=single-tablet regimen. *Due to antiretroviral resistance, intolerance, drug–drug interactions, or
pp 11–14 for copies of the questionnaires). contraindication to existing STRs. †Participants received an oral loading dose of lenacapavir 600 mg on days 1
and 2 of treatment. ‡Participants who switch from a complex regimen in the extension phase will take the oral
Outcomes loading doses of lenacapavir. §Study was ongoing in 358 participants in the bictegravir–lenacapavir group;
13 participants discontinued the study (due to adverse event [n=6], death [n=5], or consent withdrawal [n=2]).
The primary endpoint was the proportion of participants
¶Study was ongoing in 177 participants in the complex regimen group; nine participants discontinued the study
with an HIV-1 RNA viral load of 50 copies per mL or higher (due to consent withdrawal [n=3], investigator’s discretion [n=3], loss to follow-up [n=2], or adverse event [n=1]).
Articles
HIV-1 RNA viral load of less than 50 copies per mL (US
Bictegravir– Complex regimen Total (N=557) FDA Snapshot algorithm)16 at week 48, change from
lenacapavir (n=371) (n=186)
baseline in CD4 cell count at week 48, and the proportion
Age, median (range), years 60 (22–84) 60 (24–75) 60 (22–84) of participants experiencing treatment-emergent adverse
Age ≥55 years 288 (78%) 139 (75%) 427 (77%) events (TEAEs) through week 48. Vital signs (including
Sex assigned at birth bodyweight) and laboratory analyses (including fasting
Male 307 (83%) 150 (81%) 457 (82%) lipid concentrations) were performed throughout the
Female 64 (17%) 36 (19%) 100 (18%) study. Adverse events were coded according to the Medical
Gender identity Dictionary for Regulatory Activities. Adverse events and
Cisgender 361 (97%) 179 (96%) 540 (97%) laboratory abnormalities were graded using the Division of
Transgender 3 (1%) 1 (1%) 4 (1%) AIDS Toxicity Grading Scale, version 2.1. Patient-reported
Non-binary or third gender 1 (<1%) 0 1 (<1%) treatment satisfaction was an exploratory endpoint.
Other 2 (1%) 1 (1%) 3 (1%)
Not disclosed 4 (1%) 5 (3%) 9 (2%) Statistical analysis
Race* The week-48 primary analysis was conducted after all
Asian 16 (4%) 9 (5%) 25 (4%) participants either completed their week-48 visit or
prematurely discontinued study treatment. For the
Black 64 (17%) 33 (18%) 97 (17%)
primary endpoint, a sample size of 546 participants
White 260 (70%) 124 (67%) 384 (69%)
(randomly assigned in a 2:1 ratio to the bictegravir–
Other† 12 (3%) 3 (2%) 15 (3%)
lenacapavir or complex regimen group) was estimated to
Ethnicity‡
provide at least 90% power to detect non-inferiority,
Hispanic or Latine 80 (22%) 42 (23%) 122 (22%)
assuming that 2% of participants in both treatment
Not Hispanic or Latine 270 (73%) 128 (69%) 398 (71%)
groups had an HIV-1 RNA viral load of 50 copies per mL
HIV-1 RNA ≥50 copies per mL§ 13 (4%) 7 (4%) 20 (4%)
or higher at week 48, a non-inferiority margin of 4% for
CD4 count, median (IQR), cells per µL 626 (457–836); 579 (450–747); 612 (456–809);
n=366 n=185 n=551 a 0·025 one-sided significance level. To account for
multiplicity (two interim analyses for the primary
CD4 count <200 cells per µL 12 (3%) 5 (3%) 17 (3%)
endpoint were performed before this analysis), the
History of AIDS 43 (12%) 24 (13%) 67 (12%)
primary ecacy endpoint analysis alpha level was
Duration of HIV treatment, median 28·3 (21·6–32·3); 28·3 (21·4–31·8); 28·3 (21·6–32·1);
(IQR), years n=358 n=183 n=541 adjusted to 0·04998 (95·002% CI). If the upper bound of
Historical resistance mutations¶|| the two-sided 95·002% CI of the treatment dierence in
NRTI 247 (67%) 128 (69%) 375 (67%) proportion of participants with an HIV-1 RNA viral load
NNRTI 203 (55%) 104 (56%) 307 (55%) of 50 copies per mL or higher at week 48 was less
PI 151 (41%) 77 (41%) 228 (41%) than 4%, non-inferiority of bictegravir–lenacapavir to
INSTI 1 (<1%) 2 (1%) 3 (1%) complex regimens was established. The proportion of
Reasons for receiving complex regimen¶ participants with an HIV-1 RNA viral load of 50 copies
per mL or higher at week 48 was summarised by
History of antiretroviral resistance 297 (80%) 153 (82%) 450 (81%)
treatment group and by visit using missing=failure and
Intolerance to components of STRs 89 (24%) 39 (21%) 128 (23%)
missing=excluded approaches, as detailed in the
Contraindication to STRs 23 (6%) 10 (5%) 33 (6%)
appendix (p 15). Safety data were reported descriptively.
Number of antiretroviral pills per day, 3·0 (2·0–11·0) 3·0 (2·0–9·0) 3·0 (2·0–11·0)
median (range) Ecacy outcomes were analysed in the full analysis
Number of antiretroviral pills per day set, which included all randomly assigned participants
2 152 (41%) 74 (40%) 226 (41%) who received any dose of assigned treatment;
3 96 (26%) 48 (26%) 144 (26%) participants were grouped according to the treatment
4 40 (11%) 23 (12%) 63 (11%) they were assigned to. Safety outcomes were analysed in
≥5 83 (22%) 41 (22%) 124 (22%) the safety analysis set, which included all randomly
assigned participants who received any dose of assigned
Number of antiretrovirals in complex 2·0 (2·0–5·0) 3·0 (2·0–6·0) 3·0 (2·0–6·0)
regimen, median (range)** treatment; participants were grouped according to the
Highest dosing frequency treatment they received. Adverse events were reported
Daily 219 (59%) 120 (65%) 339 (61%) throughout the study period non-systematically and
Twice daily 152 (41%) 66 (35%) 218 (39%) were reviewed by an Independent Safety Monitoring
Select comorbidities¶†† Committee. TEAEs were summarised by the number
Dyslipidaemia 244 (66%) 133 (72%) 377 (68%) and percentage of participants who experienced at least
Hypertension 190 (51%) 90 (48%) 280 (50%) one TEAE. No statistical comparisons were performed
Hyperglycaemia or diabetes 91 (25%) 42 (23%) 133 (24%) for safety.
Analyses were conducted using SAS, version 9.4.
Chronic kidney disease 49 (13%) 29 (16%) 78 (14%)
Details of statistical analyses, including handling of
(Table 1 continues on next page)
missing data, are included in the appendix (pp 15–16).
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Role of the funding source
Bictegravir– Complex regimen Total (N=557)
The study sponsor, Gilead Sciences (Foster City, CA,
lenacapavir (n=371) (n=186)
USA), played a role in the study design; data collection,
(Continued from previous page)
analysis, and interpretation; decision to publish; and
Number of select comorbidities
preparation of the manuscript.
1 95 (26%) 53 (28%) 148 (27%)
Results ≥2 202 (54%) 96 (52%) 298 (54%)
Select concomitant medications‡‡
Between Jan 29 and Sept 26, 2024, 729 participants were
Antidiabetic agents 84 (23%) 44 (24%) 128 (23%)
screened (figure 1B); 557 were randomly assigned and
received at least one dose of study treatment: 371 switched Antihypertensive agents 203 (55%) 101 (54%) 304 (55%)
to bictegravir–lenacapavir and 186 continued their Lipid-lowering agents 262 (71%) 134 (72%) 396 (71%)
complex regimen and were included in the full analysis Antidiabetic and antihypertensive 58 (16%) 36 (19%) 94 (17%)
agents
set and safety analysis set. Two participants in each study
Antidiabetic, antihypertensive, and 50 (13%) 32 (17%) 82 (15%)
group were randomly assigned but not treated and were
lipid-lowering agents
excluded from the analysis. Baseline characteristics were
Number of select concomitant medications
balanced between groups (table 1). At baseline, median
1 62 (17%) 50 (27%) 112 (20%)
age was 60 years (range 22–84), 100 (18%) of 557 participants
≥2 237 (64%) 102 (55%) 339 (61%)
were assigned female at birth, 97 (17%) were Black, and
Creatinine clearance, median (IQR), 82·9 (66·4–103·2) 82·4 (65·4–100·2) 82·8 (66·0–102·6)
122 (22%) were Hispanic or Latine; 377 (68%) had
mL/min
dyslipidaemia, 280 (50%) hypertension, 133 (24%) hyper-
>15 to ≤30 3 (1%) 3 (2%) 6 (1%)
glycaemia or diabetes, and 78 (14%) chronic kidney
>30 to <60 56 (15%) 26 (14%) 82 (15%)
disease; 298 (54%) had two or more of these comorbidities
≥60 312 (84%) 157 (84%) 469 (84%)
and 339 (61%) were taking two or more concomitant
Data are n (%) unless otherwise specified. ATC=Anatomical Therapeutic Chemical Medical Class Level. INSTI=integrase
medications. Median duration of HIV treatment was
strand-transfer inhibitor. NNRTI=non-nucleoside reverse transcriptase inhibitor. NRTI=nucleos(t)ide reverse
28 years (IQR 22–32). Baseline complex regimen transcriptase inhibitor. PI=protease inhibitor. STR=single-tablet regimen. *Local regulators did not allow the collection
consisted of a median of three antiretroviral pills per day of race information for 36 participants (19 in the bictegravir–lenacapavir group and 17 in the complex regimen group).
†Category includes American Indian or Alaska Native, Native Hawaiian, Pacific Islander, and other. ‡Local regulators did
(range 2–11), and 218 (39%) participants were taking
not allow the collection of ethnicity information for 37 participants (21 in the bictegravir–lenacapavir group and 16 in
antiretroviral pills twice daily. The most common reason
the complex regimen group). §Participants had screening HIV-1 RNA <50 copies per mL, but baseline HIV-1 RNA
for receiving a complex regimen was a history of ≥50 copies per mL. ¶Categories are not mutually exclusive. ||Investigators were asked to document previous resistance
resistance (450 [81%] participants), followed by data from available historical HIV-1 genotype and/or phenotype reports. No resistance testing was performed at
baseline; NRTI, NNRTI, PI, and INSTI data were not available for 75, 79, 78, and 197 participants in the bictegravir–
intolerance to components of currently available STRs
lenacapavir group, and 44, 46, 50, and 100 participants in the complex regimen group, respectively. **Multiple
(128 [23%]) and contraindications to STRs (33 [6%]). The reported antiretroviral therapies were counted only once per participant for each drug name and each drug class.
proportion of participants randomly assigned by country ††Grouped terms on standardised Medical Dictionary for Regulatory Activities query narrow search. ‡‡Antidiabetic
agents included drugs with WHO ATC2 “drugs used in diabetes”; antihypertensive agents included drugs with WHO
was balanced between treatment groups according to the
ATC2 “agents acting on the renin–angiotensin system”, “antihypertensives” (excluding ATC3 “other
stratification by geographical region (appendix p 18). antihypertensives”), “beta-blocking agents”, “calcium channel blockers”, or “diuretics”; lipid-lowering agents included
Participants were receiving a broad range of complex drugs with WHO ATC2 “drugs used in diabetes”.
regimens at baseline (figure 2); 427 (77%) of 557 were
Table 1: Demographic and clinical characteristics of participants at baseline (safety analysis set)
taking a regimen that included a PI. The most common
regimen was PI plus INSTI, either alone (166 [30%]) or
with an NRTI (135 [24%]). contributed to this category; neither were deemed related
At week 48, three (1%) participants in the bictegravir– to study drug; the one discontinuation in the complex
lenacapavir group and two (1%) in the complex regimen regimen group in this category was due to an adverse
group had an HIV-1 RNA viral load of 50 copies per mL event); five (1%) participants in the bictegravir–
or higher (dierence −0·3% [95·002% CI −2·3 to 1·8]; lenacapavir group and eight (4%) participants in the
table 2). These results met the prespecified non- complex regimen group also discontinued due to other
inferiority criteria for the primary endpoint. At week 48, reasons but with last available HIV-1 RNA viral load
356 (96%) participants in the bictegravir–lenacapavir below 50 copies per mL; one participant in the complex
group and 174 (94%) in the complex regimen group had regimen group had missing data during the analysis
an HIV-1 RNA viral load of less than 50 copies per mL. window but was still on study drug. Results were
Data were not available in the week-48 analysis window consistent when using missing=excluded and
for a total of 12 (3%) participants in the bictegravir– missing=failure analyses (table 2). CD4 cell count
lenacapavir group and ten (5%) participants in the remained stable in both groups; median change in CD4
complex regimen group. Of these, seven (2%) count from baseline to week 48 was +18 cells per µL
participants in the bictegravir–lenacapavir group and (IQR −72 to 98) in the bictegravir–lenacapavir group
one (1%) participant in the complex regimen group and −12 (−82 to 93) in the complex regimen group
discontinued study drug due to adverse events or death (dierence in change +19·0 [95% CI −11·6 to 49·5];
(two deaths in the bictegravir–lenacapavir group p=0·22; appendix p 19).
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30% 24% 13% 12%
(n=166) (n=135) (n=70) (n=69)
INSTI + NNRTI (± NRTI) PI + INSTI + NNRTI (± NRTI)
(eg, bictegravir + doravirine + emtricitabine + (eg, darunavir + etravirine + raltegravir +
tenofovir alafenamide) ritonavir)
7% 4% 3%
(n=41) (n=23) (n=17)
PI+ INSTI+ EI (± NRTI) PI + NNRTI (± NRTI)
(eg, darunavir + dolutegravir + (eg, darunavir +
maraviroc + ritonavir) etravirine + ritonavir)
4% 3%
(n=20) (n=16)
INSTI + EI (±N RTI)
(eg, lamivudine +
PI + INSTI + NRTI Other* INSTI+ EI+ NNRTI (± NRTI) abacavir +
PI +I NSTI (eg, cobicistat+ darunavir + dolutegravir + (eg, darunavir + etravirine + (eg, etravirine + maraviroc + dolutegravir +
(eg, cobicistat + darunavir +d olutegravir) emtricitabine + tenofovir alafenamide) maraviroc +r itonavir) raltegravir) maraviroc)
Figure 2: Diversity of complex regimens at baseline (safety analysis set)
Most commonly used regimen is noted in parentheses. EI=entry inhibitor. INSTI=integrase strand-transfer inhibitor. NNRTI=non-nucleoside reverse transcriptase
inhibitor. NRTI=nucleos(t)ide reverse transcriptase inhibitor. PI=protease inhibitor. *List of regimens comprising “Other” category is provided in the appendix (p 17).
Bictegravir– Complex regimen Difference for Difference for
lenacapavir (n=371) (n=186) bictegravir–lenacapavir bictegravir–lenacapavir
vs complex regimen vs complex regimen
(95·002% CI) (95% CI)
US Food and Drug Administration Snapshot algorithm (full analysis set)*
HIV-1 RNA ≥50 copies per mL 3 (1%) 2 (1%) −0·3% (−2·3 to 1·8) ··
HIV-1 RNA <50 copies per mL 356 (96%) 174 (94%) 2·4% (−1·8 to 6·6) ··
No virological data 12 (3%) 10 (5%) ·· ··
Discontinued due to adverse event or death 7 (2%)† 1 (1%)‡ ·· ··
Discontinued study due to other reasons§ and last 5 (1%) 8 (4%) ·· ··
available HIV-1 RNA was <50 copies per mL
Had missing data during the analysis window but was 0 1 (1%) ·· ··
still on study drug
Missing=excluded analysis (full analysis set with non-missing HIV-1 RNA value at week-48 visit, while on treatment)*
HIV-1 RNA <50 copies per mL 356/359 (99%) 174/176 (99%) ·· 0·3% (−1·9 to 2·5)
HIV-1 RNA ≥50 copies per mL 3/359 (1%) 2/176 (1%) ·· ··
50 to <200 copies per mL 2/359 (1%) 1/176 (1%) ·· ··
200 to <1000 copies per mL 1/359 (<1%) 1/176 (1%) ·· ··
Missing=failure analysis (full analysis set, while on treatment)*
HIV-1 RNA <50 copies per mL 356/371 (96%) 174/186 (94%) ·· 2·4% (−1·8 to 6·6)
HIV-1 RNA ≥50 copies per mL 3/371 (1%) 2/186 (1%) ·· ··
50 to <200 copies per mL 2/371 (1%) 1/186 (1%) ·· ··
200 to <1000 copies per mL 1/371 (<1%) 1/186 (1%) ·· ··
Missing data 12/371 (3%) 10/186 (5%) ·· ··
Data are n (%) or n/N (%) unless otherwise specified. *Differences in percentages of participants between treatment groups (bictegravir–lenacapavir minus complex regimen)
and two-sided CIs were constructed based on Mantel–Haenszel stratum weights and Koch variance estimator and adjusted by geographical region (USA vs non-USA).
†Category included two deaths (neither were related to study drug) and five adverse events. ‡Categoryi ncluded one adverse event. §Other reasons included discontinuation
of study drug due to investigator’s discretion, participant’s decision, loss to follow-up, non-compliance with study drug, protocol violation, pregnancy, and study termination
by sponsor.
Table 2: Efficacy outcomes at week 48
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Of the three participants in the bictegravir–lenacapavir
Bictegravir– Complex regimen
group and two in the complex regimen group with a
lenacapavir (n=371) (n=186)
confirmed HIV-1 RNA viral load of 50 copies per mL or
Adverse event—any grade 305 (82%) 157 (84%)
higher by week 48, two had a viral load below 200 copies
Grade ≥3 adverse event 51 (14%) 26 (14%)
per mL and did not qualify for resistance testing.
DRAE—any grade 53 (14%) 3 (2%)
Three met the criteria for protocol-defined confirmed
Grade ≥3 DRAE 2 (1%)* 0
virological rebound (two in the bictegravir–lenacapavir
Serious adverse event 52 (14%) 22 (12%)
group and one in the complex regimen group) and
Serious DRAE 1 (<1%)† 0
qualified for resistance testing. No treatment-emergent
resistance mutations to study drugs were detected in Adverse event leading to discontinuation of study drug 6 (2%)‡ 1 (1%)§
either treatment group. Adverse event occurring in ≥5% of participants in either group
Treatment satisfaction at baseline was similar between Upper respiratory tract infection 34 (9%) 24 (13%)
groups (mean HIVTSQs total score at baseline was 55 Nasopharyngitis 26 (7%) 17 (9%)
[SD 10·4] in the bictegravir–lenacapavir group Diarrhoea 22 (6%) 11 (6%)
and 55 [9·4] in the complex regimen group; available Headache 28 (8%) 4 (2%)
range 0 to 66; appendix p 20). At week 48, participants in Cough 18 (5%) 11 (6%)
the bictegravir–lenacapavir group reported improvement Arthralgia 19 (5%) 8 (4%)
from baseline in treatment satisfaction (mean change in Hypertension 21 (6%) 6 (3%)
HIVTSQs total score, +7 [SD 10·6]), while those in the COVID-19 20 (5%) 6 (3%)
complex regimen group reported no change (0 [9·6]; Death¶ 5 (1%)|| 0
appendix p 20). After switching to bictegravir–lenacapavir,
Data are n (%). Median duration of exposure was 65·9 weeks (IQR 56·6–74·0) for the bictegravir–lenacapavir group and
mean HIVTSQc total score at week 48 was +27 (SD 9·1; 65·9 weeks (55·6–73·9) for the complex regimen group. Includes all randomly assigned participants who received any
available range −33 to 33). dose of assigned treatment grouped according to the treatment they received. DRAE=drug-related adverse event.
HBV=hepatitis B virus. *Diabetes and maculopapular rash. †Newly diagnosed diabetes on day 76 in a participant with a
Overall, the incidence of adverse events was similar in
high baseline fasting glucose concentration (100 mg/dL); resolved on day 173 after switching back to baseline regimen
both groups (bictegravir–lenacapavir: 305 [82%] of 371; of efavirenz plus ritonavir-boosted darunavir on day 103. ‡One participant experienced nausea, dizziness, headache,
complex regimen: 157 [84%] of 186), with the majority alopecia, and worsening fatigue; one participant experienced headache and hypoaesthesia; one participant
experienced erectile dysfunction and worsening hypertension; and one participant experienced each of the following:
being mild or moderate in severity (grade 1 or 2; table 3).
cerebrovascular accident, diabetes, and HBV viraemia; all but hypoaesthesia, HBV viraemia, and cerebrovascular
51 (14%) participants in the bictegravir–lenacapavir
accident were deemed related to study drug. §Due to pulmonary embolism; this was not deemed related to study drug.
group and 26 (14%) in the complex regimen group ¶Includes any that occurred during the study. ||Due to unknown cause (n=2; one participant had a history of arterial
experienced a grade 3 or worse adverse event. Drug- hypertension and one a history of hypercholesterolaemia; no autopsy was performed on these participants), cardiac
arrest (n=1), metastatic neoplasm (n=1), and respiratory failure (n=1); no deaths were deemed related to study drug.
related adverse events (DRAEs) were reported by
53 (14%) participants in the bictegravir–lenacapavir Table 3: Safety (safety analysis set)
group and three (2%) participants in the complex
regimen group (table 3 and appendix p 21). Of these,
two (1%) and zero participants, respectively, reported occurred during the study in the bictegravir–lenacapavir
grade 3 or worse DRAEs. One participant in the group (one due to each of the following: liver failure
bictegravir–lenacapavir group with high fasting secondary to metastatic cancer, sudden cardiac arrest,
concentrations of glucose and lipase, and grade 1 and oropharyngeal cell carcinoma; two due to unknown
triglyceride concentration, at baseline, experienced a cause); none were deemed related to bictegravir–
serious DRAE of newly diagnosed diabetes. This lenacapavir. No dierence in the overall safety profile was
participant had switched from efavirenz plus ritonavir- observed for participants by level of renal function, and
boosted darunavir; the event resolved after switching renal-related adverse events were infrequent (appendix
back to original treatment regimen. Six (2%) participants p 22).
discontinued bictegravir–lenacapavir due to adverse Laboratory abnormalities occurred in 341 (92%) of
events; one participant experienced nausea, 371 participants in the bictegravir–lenacapavir group and
dizziness, headache, alopecia, and worsening fatigue; 178 (96%) of 186 participants in the complex regimen
one experienced headache and hypoaesthesia; group (appendix p 23); most were grade 1 or 2 in severity.
one experienced erectile dysfunction and worsening The most common grade 3 or worse abnormalities in
hypertension; and one experienced each of the following: both groups were decreased creatinine clearance and
cerebrovascular accident, diabetes (same participant as increased direct bilirubin concentration, which were
above), and HBV viraemia; all except the cerebrovascular mostly transient and not clinically relevant. Vital signs
accident, HBV viraemia, and hypoaesthesia were deemed were unchanged through 48 weeks.
related to study drug. One (1%) participant discontinued At week 48, fasting total cholesterol, triglyceride, and
their complex regimen due to an adverse event of LDL cholesterol concentrations, and total cholesterol:HDL
pulmonary embolism (due to interaction of boosted PI cholesterol ratio improved from baseline in the
component of regimen with anticoagulants); this was not bictegravir–lenacapavir versus the complex regimen
deemed related to the complex regimen. Five deaths group. Median changes from baseline to week 48 in the
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bictegravir–lenacapavir versus complex regimen groups interactions and requiring active management.
were: total cholesterol, −15 mg/dL versus +2 mg/dL Additionally, the lenient eGFR cuto of 15 mL/min
(nominal p<0·0001); LDL cholesterol, −9 mg/dL versus (six [1%] had eGFR ≤30 mL/min and 88 [16%] had eGFR
+2 mg/dL (nominal p<0·0001); triglycerides, −15 mg/dL <60 mL/min) provides confidence in bictegravir–
versus +4 mg/dL (nominal p=0·0008); total lenacapavir for those with chronic kidney disease.
cholesterol:HDL cholesterol ratio, −0·3 mg/dL versus Bictegravir–lenacapavir was well tolerated, and similar
0 mg/dL (nominal p<0·0001). HDL cholesterol remained numbers of adverse events and serious adverse events
stable in both groups (appendix p 24). Reductions in were reported in both groups. Although the frequency of
total cholesterol, LDL cholesterol, and triglyceride DRAEs was higher in the bictegravir–lenacapavir group
concentrations, and total cholesterol:HDL cholesterol than in the complex regimen group, this is consistent
ratio, with bictegravir–lenacapavir compared with with an open-label trial design involving switching away
complex regimens were observed from the first from a long-standing familiar regimen.19,22,23 Moreover,
assessment at week 12 onwards. Bodyweight remained only one serious adverse event was considered related to
stable in both treatment groups through 48 weeks bictegravir–lenacapavir, a newly diagnosed case of diabetes
(median change from baseline +0·6 kg [IQR −1·1 to 2·6] in a participant with hyperglycaemia at baseline. Only
and 0·0 kg [−2·0 to 2·4] in the bictegravir–lenacapavir two DRAEs in the bictegravir–lenacapavir group were
and complex regimens groups, respectively). grade 3 or worse; rates of discontinuation due to adverse
events were low overall. Switching to bictegravir–
Discussion lenacapavir improved fasting lipid concentrations in a
Treatment optimisation is widely recognised as the best population in whom approximately 70% had a diagnosis
way to ensure adherence and treatment success when of dyslipidaemia at baseline and over half of participants
managing chronic conditions such as HIV. For had two or more comorbidities associated with increased
two decades, this has remained an unmet need for people cardiovascular risk. These observations might indicate a
not suitable for currently available STRs due to potential beneficial eect of bictegravir–lenacapavir in
antiretroviral resistance. Here, we show that once-daily people with HIV and metabolic or cardiovascular risk
oral bictegravir–lenacapavir was non-inferior to complex factors.
regimens in maintaining virological suppression Participants who switched to bictegravir–lenacapavir
through 48 weeks, with similarly high suppression rates, from a complex regimen reported greater treatment
similar adverse event rates in both groups, and increased satisfaction than those continuing a complex regimen.
treatment satisfaction through 48 weeks. Hence, the This confirms that participants found multi-tablet
novel STR of bictegravir–lenacapavir oers an alternative treatment regimens more challenging. These challenges
treatment option for people on complex regimens. could over time jeopardise adherence (enhanced
With a median participant age of 60 years, this is the adherence has been reported with STRs)2,6–8 and retention
oldest study population ever enrolled in a registrational in care, which are both necessary to maintain virological
programme for HIV treatment.17–20 This is particularly suppression and avoid emergent resistance. Switching
relevant given that advances in antiretroviral therapy to bictegravir–lenacapavir STR reduced the pill burden
have allowed people with HIV to have near-normal life (a third of participants were taking four or more
expectancies; consequently, most people with HIV in antiretroviral pills per day, with a maximum of 11 pills
high-resource countries are aged 50 years or older.2,21 The per day) and thereby the risk of drug–drug interactions.
median treatment duration of 28 years, high level of Taken together, this highlights the importance of
historical antiretroviral resistance (67% with NRTI continuing to optimise treatment in the face of previous
resistance), and high proportion of participants on a resistance, comorbidities, and preferences.
complex regimen because of antiretroviral resistance This trial had limitations. This was an open-label trial,
(81%) is consistent with their extensive HIV-1 treatment but, given the wide range of antiretrovirals included in
experience and underscores why optimisation to the complex regimens and the importance of patient
currently available STRs has not been possible thus far. satisfaction for regimen optimisation, a blinded design
In addition, the study population was generally was impractical. A separate blinded phase 3 trial
representative of people with HIV receiving complex (NCT06333808) comparing outcomes after switching
regimens in routine care, reflecting the diverse race and from bictegravir–emtricitabine–tenofovir alafenamide to
ethnicity of the participating countries. bictegravir–lenacapavir is ongoing. Longer-term ecacy
Most participants had at least one comorbidity at and safety outcomes of bictegravir–lenacapavir will be
baseline (14% had chronic kidney disease and 50% had assessed through continued follow-up. However,
hypertension), 81% were taking concomitant medications bictegravir has an established safety profile in both
for these comorbidities, three-quarters were on a complex clinical and real-world studies with bictegravir–
regimen that included a PI, and a third were taking emtricitabine–tenofovir alafenamide10,24–27 and lenacapavir
four or more antiretroviral tablets per day, all contributing has been studied extensively in individuals receiving pre-
to an increased risk of clinically significant drug–drug exposure prophylaxis.28,29 Of note, participants with
1256
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previous or chronic HBV infection were excluded; MB received payment or honoraria for lectures, presentations, speakers’
vaccination and routine surveillance should be conducted bureaus, manuscript writing, or educational events from Gilead
according to current guidelines for individuals without Sciences, GSK, and ViiV Healthcare; received support for attending
meetings and/or travel from Gilead Sciences and ViiV Healthcare; and
HBV immunity.2,4,11 Future work might be required to
participated on data safety monitoring or advisory boards for Gilead
study how dierent approaches to delivery of clinical care Sciences, GSK, and ViiV Healthcare. JS received payment or honoraria
(eg, across dierent health-care systems) have impacted for lectures, presentations, speakers’ bureaus, manuscript writing,
or educational events from Gilead Sciences, Merck, Thera, and ViiV
these findings.
Healthcare. MRa received consulting fees from Gilead Sciences,
In this phase 3 trial, once-daily oral bictegravir–
Shionogi, and ViiV Healthcare; and received payment or honoraria for
lenacapavir was non-inferior to complex regimens in lectures, presentations, speakers’ bureaus, manuscript writing, or
maintaining HIV-1 suppression. Bictegravir–lenacapavir educational events from AbbVie, Gilead Sciences, and ViiV Healthcare.
SS received research grants and support for clinical trials (paid to her
was generally well tolerated, led to improvement in the
institution) from Janssen, Merck, and the South African Medical
lipid profile, and provided greater treatment satisfaction
Research Council; received payment or honoraria for lectures,
among participants who switched from a complex presentations, speakers’ bureaus, manuscript writing, or educational
regimen. This STR could present the first opportunity to events from ViiV Healthcare; received support for attending meetings
and/or travel from Merck; received a drug donation to her institution
optimise treatment while maintaining virological
from ViiV Healthcare; and participated on an advisory board for AbbVie.
suppression in people taking complex regimens who KM received payment or honoraria for lectures, presentations, speakers’
have not benefitted from available STRs due to bureaus, manuscript writing, or educational events from, and served on
antiretroviral resistance or other reasons. In particular, an advisory board for, Epividian, Gilead Sciences, Janssen, Merck, and
ViiV Healthcare. H-CT received honoraria for a lecture at an
bictegravir–lenacapavir could oer a more suitable
international congress, and travel and registration support for attending
long-term treatment option for an ageing population an international meeting, from Gilead Sciences. JSB received research
with cardiometabolic comorbidities, declining GFR, and grants or contracts from Chem Bio Diagnostics, Gilead Sciences, and
a greater risk of polypharmacy. Moderna; and consulting fees and payment or honoraria for lectures,
presentations, speakers’ bureaus, manuscript writing, or educational
Contributors events from AbbVie. XZ, KA, KP, NM, JMM-R, PS, and MRh are
CO, PJR, MH, CG, MHL, BT, TL, MO, MB, JS, MRa, SS, KM, H-CT, JSB, employees of Gilead Sciences and own employee stock grants.
and PC contributed to data collection. JMM-R and PS contributed to PC received research grants and payment or honoraria for lectures,
study design and data analysis or interpretation. CO, XZ, KA, KP, NM, presentations, speakers’ bureaus, manuscript writing, or educational
and MRh contributed to data analysis or interpretation. All authors events from ViiV Healthcare; and consulting fees from Gilead Sciences,
contributed to drafting or revising of the manuscript, approved the final Merck, and ViiV Healthcare.
version for submission, and agree to be accountable for all aspects of the
Data sharing
work. CO, XZ, KA, JMM-R, and PS directly accessed and verified the
study data. All authors had full access to the study data and shared final Gilead Sciences shares anonymised individual patient data upon request
or as required by law or regulation with qualified external researchers
responsibility for the decision to submit the manuscript for publication.
based on submitted curriculum vitae and reflecting non-conflict of
Declaration of interests interest. The request proposal must also include a statistician. Approval
CO received grants (paid to her institution) from Gilead Sciences, of such requests is at Gilead Sciences’ discretion and is dependent on
MSD, and ViiV Healthcare; received consulting fees for advisory boards the nature of the request, the merit of the research proposed, the
and payment or honoraria for lectures, presentations, speakers’ bureaus, availability of the data, and the intended use of the data. Data requests
manuscript writing, or educational events from Bavarian Nordic, Gilead should be sent to DataSharing@gilead.com. The clinical study protocol
Sciences, GSK, MSD, and ViiV Healthcare; received support for and statistical analysis plan are provided in the appendix available with
attending meetings and/or travel from Bavarian Nordic, Gilead Sciences, the online version of the article.
and ViiV Healthcare; and is a governing council member of the
Acknowledgments
International AIDS Society (unpaid). PJR received payment or honoraria
This study was funded by Gilead Sciences (Foster City, CA, USA).
for lectures, presentations, speakers’ bureaus, manuscript writing,
We thank all participants and their families, participating sites,
or educational events from Gilead Sciences and ViiV Healthcare.
investigators, and trial sta. We also thank Jared Baeten (Gilead
MH received payment or honoraria for lectures, presentations, speakers’
Sciences, Foster City, CA, USA) for his critical review of the manuscript.
bureaus, manuscript writing, or educational events, and support for
Medical writing support, including development of a draft outline and
attending meetings and/or travel from, and participated on advisory
subsequent drafts in consultation with the authors, collating author
boards for, Gilead Sciences, Merck, and ViiV Healthcare. CG received
consulting fees from Gilead Sciences, Merck, and ViiV Healthcare; and comments, copyediting, fact checking, and referencing, was provided by
Joanna Nikitorowicz-Buniak and Anna Chapman-Barnes of Aspire
received payment or honoraria for lectures, presentations, speaker’s
Scientific (Manchester, UK). Funding for medical writing support for
bureaus, manuscript writing, or educational events from Gilead Sciences
this article was provided by Gilead Sciences (Foster City, CA, USA).
and ViiV Healthcare. MHL received research grants (paid to his
institution) from Gilead Sciences, and participated on advisory boards Editorial note: The Lancet Group takes a neutral position with respect to
for Gilead Sciences and ViiV Healthcare. BT received consulting fees, territorial claims in published text and institutional aliations.
payment or honoraria for lectures, presentations, speakers’ bureaus,
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DOI: 10.1016/S0140-6736(26)00307-7