Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays: A Consensus Statement from the Forum HIV Prevention Trial Design Project

for the Forum for Collaborative Research Recency Assay Working Group

doi:10.1002/cpt.2830

Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays: A Consensus Statement from the Forum HIV Prevention Trial Design Project

for the Forum for Collaborative Research Recency Assay Working Group

Mailman School of Public Health

Résultat de recherche › examen par les pairs

10 Citations (Scopus)

Résumé

Standard-of-care HIV pre-exposure prophylaxis (PrEP) is highly efficacious, but uptake of and persistence on a daily oral pill is low in many settings. Evaluation of alternate PrEP products will require innovation to avoid the unpractically large sample sizes in noninferiority trials. We propose estimating HIV incidence in people not on PrEP as an external counterfactual to which on-PrEP incidence in trial subjects can be compared. HIV recent infection testing algorithms (RITAs), such as the limiting antigen avidity assay plus viral load used on specimens from untreated HIV positive people identified during screening, is one possible approach. Its feasibility is partly dependent on the sample size needed to ensure adequate power, which is impacted by RITA performance, the number of recent infections identified, the expected efficacy of the intervention, and other factors. Screening sample sizes to support detection of an 80% reduction in incidence for 3 key populations are more modest, and comparable to the number of participants in recent phase III PrEP trials. Sample sizes would be significantly larger in populations with lower incidence, where the false recency rate is higher or if PrEP efficacy is expected to be lower. Our proposed counterfactual approach appears to be feasible, offers high statistical power, and is nearly contemporaneous with the on-PrEP population. It will be important to monitor the performance of this approach during new product development for HIV prevention. If successful, it could be a model for preventive HIV vaccines and prevention of other infectious diseases.

Langue d'origine	English
Pages (de-à)	29-40
Nombre de pages	12
Journal	Clinical Pharmacology and Therapeutics
Volume	114
Numéro de publication	1
DOI	https://doi.org/10.1002/cpt.2830
Statut de publication	Published - juill. 2023

Financement

E.G. has received consulting income and research support from Sedia Biosciences Corporation and consulting income from Gilead Sciences. A.C. is an employee and stockholder, ViiV Healthcare. M.D. is an employee and stockholder, Gilead Sciences. A.D. has received research support from Gilead Sciences and Seagen. D.G. has consulted for Gilead Sciences and has served on an Advisory Board for Merck & Co., Inc. M.R. is an employee and stockholder, Merck & Co., Inc. All other authors declare no competing interests for this work. The Forum for Collaborative Research received project funding from the Bill and Melinda Gates Foundation (award number: INV-010392/OPP1199945), and is also supported by AbbVie, Gilead, Merck, Janssen, Monogram Biosciences, ViiV Healthcare, Abbott Diagnostics, and Quest Diagnostics. Deborah Donnell, Fei Gao, and James Hughes received funding support from National Institutes of Health grant number UM1AI068635. The authors thank Charu Mullick and Thamban Valappil from the US Food and Drug Administration for their insightful comments and review of this manuscript. We thank Tamar Tchelidze (Forum for Collaborative Research) for organizational support of the Recency Assay Working Group. The Forum for Collaborative Research HIV Prevention Trial Design Project members include: The Forum for Collaborative Research Recency Assay Working Group has the following members in addition to all co-authors: Yen Pottinger (Columbia University); Regine Lehnert (Federal Institute for Drugs and Medical Device); Timothy D. Mastro (FHI360); Beatriz Grinsztejn (FIOCRUZ); Tamar Tchelidze (Forum for Collaborative Research); Jared Baeten, Christoph Carter, Stephanie Cox, Ramin Ebrahimi, Alex Kintu, James Rooney, and Yongwu Shao (Gilead Sciences); Jessica E. Justman (ICAP at Columbia; Mailman School of Public Health); Zeda Rosenberg (International Partnership for Microbicides); Oliver Laeyendecker and Susan H. Eshelman (Johns Hopkins School of Medicine); Frances Cowan (Liverpool School of Tropical Medicine); Brian Rice (London School of Hygiene & Tropical Medicine); Joe Ma (Maxim Biomedical); Elizabeth Russell and Kathleen Squires (Merck); Ronald Mink (Sedia Biosciences); Alex Welte (Stellenbosch University); Kimberly Struble and Wen Zeng (US Food and Drug Administration); David Dunn (University College London); Peter J. Dailey and Sandra McCoy (University of California; Berkeley); George Rutherford and Susie Welty (University of California; San Francisco); Bharat Parekh and Dawn K. Smith (US Centers for Disease Control); Lusine Ghazaryan (USAID); Vani Vannappagari (ViiV Healthcare); Michael P. Busch (Vitalant Research Institute); Sally Hodder (West Virginia Clinical and Translational Science Institute). Placebo-controlled trials are no longer ethical.8 Traditional active comparator superiority designs are becoming more difficult with each generation of new products as the SOC PrEP options achieve high degrees of efficacy.8,18,20 Noninferiority designs rely on the constancy in treatment effect over time, requiring solid data demonstrating superiority of the standard-of-care versus placebo for the population under study to allow establishing appropriate non-inferiority margins.

Bailleurs de fonds	Numéro du bailleur de fonds
AbbVie
Beatriz Grinsztejn
Bill and Melinda Gates Foundation	INV-010392/OPP1199945
FIOCRUZ
George Rutherford and Susie Welty
Gilead
Johns Hopkins School of Medicine
Lusine Ghazaryan
Merck
Michael P. Busch
National Institutes of Health	UM1AI068635
Oliver Laeyendecker and Susan H. Eshelman
Quest Diagnostics
Recency Assay Working Group	FHI360
Sedia Biosciences Corporation
US Food and Drug Administration
USAID
University of California
National Institute of Allergy and Infectious Diseases	R01AI143357
Gilead Sciences

ASJC Scopus Subject Areas

Pharmacology
Pharmacology (medical)

ODD de l’ONU

Cette action contribue à la réalisation des objectifs de développement durable suivants

Accès au document

10.1002/cpt.2830

Autres fichiers et liens

Empreinte numérique

Plonger dans les sujets de recherche 'Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays: A Consensus Statement from the Forum HIV Prevention Trial Design Project'. Ensemble, ils forment une empreinte numérique unique.

Citer

Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays: A Consensus Statement from the Forum HIV Prevention Trial Design Project. / for the Forum for Collaborative Research Recency Assay Working Group.
Dans: Clinical Pharmacology and Therapeutics, Vol. 114, N° 1, 07.2023, p. 29-40.

Résultat de recherche › examen par les pairs

@article{e4e12c81ea99401b9ac229995462479e,

title = "Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays: A Consensus Statement from the Forum HIV Prevention Trial Design Project",

abstract = "Standard-of-care HIV pre-exposure prophylaxis (PrEP) is highly efficacious, but uptake of and persistence on a daily oral pill is low in many settings. Evaluation of alternate PrEP products will require innovation to avoid the unpractically large sample sizes in noninferiority trials. We propose estimating HIV incidence in people not on PrEP as an external counterfactual to which on-PrEP incidence in trial subjects can be compared. HIV recent infection testing algorithms (RITAs), such as the limiting antigen avidity assay plus viral load used on specimens from untreated HIV positive people identified during screening, is one possible approach. Its feasibility is partly dependent on the sample size needed to ensure adequate power, which is impacted by RITA performance, the number of recent infections identified, the expected efficacy of the intervention, and other factors. Screening sample sizes to support detection of an 80% reduction in incidence for 3 key populations are more modest, and comparable to the number of participants in recent phase III PrEP trials. Sample sizes would be significantly larger in populations with lower incidence, where the false recency rate is higher or if PrEP efficacy is expected to be lower. Our proposed counterfactual approach appears to be feasible, offers high statistical power, and is nearly contemporaneous with the on-PrEP population. It will be important to monitor the performance of this approach during new product development for HIV prevention. If successful, it could be a model for preventive HIV vaccines and prevention of other infectious diseases.",

author = "{for the Forum for Collaborative Research Recency Assay Working Group} and Neil Parkin and Fei Gao and Eduard Grebe and Amy Cutrell and Moupali Das and Deborah Donnell and Ann Duerr and Glidden, {David V.} and Hughes, {James P.} and Jeffrey Murray and Robertson, {Michael N.} and Joerg Zinserling and Joseph Lau and Veronica Miller and Yen Pottinger and Regine Lehnert and Mastro, {Timothy D.} and Beatriz Grinsztejn and Tamar Tchelidze and Jared Baeten and Christoph Carter and Stephanie Cox and Ramin Ebrahimi and Alex Kintu and James Rooney and Yongwu Shao and Justman, {Jessica E.} and Zeda Rosenberg and Oliver Laeyendecker and Eshelman, {Susan H.} and Frances Cowan and Brian Rice and Joe Ma and Elizabeth Russell and Kathleen Squires and Ronald Mink and Alex Welte and Kimberly Struble and Wen Zeng and David Dunn and Dailey, {Peter J.} and Sandra McCoy and George Rutherford and Susie Welty and Bharat Parekh and Smith, {Dawn K.} and Lusine Ghazaryan and Vani Vannappagari and Busch, {Michael P.} and Sally Hodder",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Clinical Pharmacology & Therapeutics published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.",

year = "2023",

month = jul,

doi = "10.1002/cpt.2830",

language = "English",

volume = "114",

pages = "29--40",

journal = "Clinical Pharmacology and Therapeutics",

issn = "0009-9236",

publisher = "Nature Publishing Group",

number = "1",

}

TY - JOUR

T1 - Facilitating Next-Generation Pre-Exposure Prophylaxis Clinical Trials Using HIV Recent Infection Assays

T2 - A Consensus Statement from the Forum HIV Prevention Trial Design Project

AU - for the Forum for Collaborative Research Recency Assay Working Group

AU - Parkin, Neil

AU - Gao, Fei

AU - Grebe, Eduard

AU - Cutrell, Amy

AU - Das, Moupali

AU - Donnell, Deborah

AU - Duerr, Ann

AU - Glidden, David V.

AU - Hughes, James P.

AU - Murray, Jeffrey

AU - Robertson, Michael N.

AU - Zinserling, Joerg

AU - Lau, Joseph

AU - Miller, Veronica

AU - Pottinger, Yen

AU - Lehnert, Regine

AU - Mastro, Timothy D.

AU - Grinsztejn, Beatriz

AU - Tchelidze, Tamar

AU - Baeten, Jared

AU - Carter, Christoph

AU - Cox, Stephanie

AU - Ebrahimi, Ramin

AU - Kintu, Alex

AU - Rooney, James

AU - Shao, Yongwu

AU - Justman, Jessica E.

AU - Rosenberg, Zeda

AU - Laeyendecker, Oliver

AU - Eshelman, Susan H.

AU - Cowan, Frances

AU - Rice, Brian

AU - Ma, Joe

AU - Russell, Elizabeth

AU - Squires, Kathleen

AU - Mink, Ronald

AU - Welte, Alex

AU - Struble, Kimberly

AU - Zeng, Wen

AU - Dunn, David

AU - Dailey, Peter J.

AU - McCoy, Sandra

AU - Rutherford, George

AU - Welty, Susie

AU - Parekh, Bharat

AU - Smith, Dawn K.

AU - Ghazaryan, Lusine

AU - Vannappagari, Vani

AU - Busch, Michael P.

AU - Hodder, Sally

PY - 2023/7

Y1 - 2023/7

N2 - Standard-of-care HIV pre-exposure prophylaxis (PrEP) is highly efficacious, but uptake of and persistence on a daily oral pill is low in many settings. Evaluation of alternate PrEP products will require innovation to avoid the unpractically large sample sizes in noninferiority trials. We propose estimating HIV incidence in people not on PrEP as an external counterfactual to which on-PrEP incidence in trial subjects can be compared. HIV recent infection testing algorithms (RITAs), such as the limiting antigen avidity assay plus viral load used on specimens from untreated HIV positive people identified during screening, is one possible approach. Its feasibility is partly dependent on the sample size needed to ensure adequate power, which is impacted by RITA performance, the number of recent infections identified, the expected efficacy of the intervention, and other factors. Screening sample sizes to support detection of an 80% reduction in incidence for 3 key populations are more modest, and comparable to the number of participants in recent phase III PrEP trials. Sample sizes would be significantly larger in populations with lower incidence, where the false recency rate is higher or if PrEP efficacy is expected to be lower. Our proposed counterfactual approach appears to be feasible, offers high statistical power, and is nearly contemporaneous with the on-PrEP population. It will be important to monitor the performance of this approach during new product development for HIV prevention. If successful, it could be a model for preventive HIV vaccines and prevention of other infectious diseases.

AB - Standard-of-care HIV pre-exposure prophylaxis (PrEP) is highly efficacious, but uptake of and persistence on a daily oral pill is low in many settings. Evaluation of alternate PrEP products will require innovation to avoid the unpractically large sample sizes in noninferiority trials. We propose estimating HIV incidence in people not on PrEP as an external counterfactual to which on-PrEP incidence in trial subjects can be compared. HIV recent infection testing algorithms (RITAs), such as the limiting antigen avidity assay plus viral load used on specimens from untreated HIV positive people identified during screening, is one possible approach. Its feasibility is partly dependent on the sample size needed to ensure adequate power, which is impacted by RITA performance, the number of recent infections identified, the expected efficacy of the intervention, and other factors. Screening sample sizes to support detection of an 80% reduction in incidence for 3 key populations are more modest, and comparable to the number of participants in recent phase III PrEP trials. Sample sizes would be significantly larger in populations with lower incidence, where the false recency rate is higher or if PrEP efficacy is expected to be lower. Our proposed counterfactual approach appears to be feasible, offers high statistical power, and is nearly contemporaneous with the on-PrEP population. It will be important to monitor the performance of this approach during new product development for HIV prevention. If successful, it could be a model for preventive HIV vaccines and prevention of other infectious diseases.

UR - http://www.scopus.com/inward/record.url?scp=85145904459&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85145904459&partnerID=8YFLogxK

U2 - 10.1002/cpt.2830

DO - 10.1002/cpt.2830

M3 - Article

C2 - 36550769

AN - SCOPUS:85145904459

SN - 0009-9236

VL - 114

SP - 29

EP - 40

JO - Clinical Pharmacology and Therapeutics

JF - Clinical Pharmacology and Therapeutics

IS - 1

ER -