TY - JOUR
T1 - Population Pharmacokinetic Modeling and Simulation of Rifapentine Supports Concomitant Antiretroviral Therapy with Efavirenz and Non-Weight Based Dosing
AU - Pham, Michelle M.
AU - Podany, Anthony T.
AU - Mwelase, Noluthando
AU - Supparatpinyo, Khuanchai
AU - Mohapi, Lerato
AU - Gupta, Amita
AU - Samaneka, Wadzanai
AU - Omoz-Oarhe, Ayotunde
AU - Langat, Deborah
AU - Benson, Constance A.
AU - Chaisson, Richard E.
AU - Swindells, Susan
AU - Fletcher, Courtney V.
N1 - Funding Information:
Address correspondence to Courtney V. Fletcher, cfletcher@unmc.edu. The authors declare a conflict of interest. Susan Swindells reports research grants from ViiV Healthcare. Constance A. Benson reports research grants to her institution from Gilead Sciences. Received 20 December 2021 Returned for modification 26 January 2022 Accepted 20 July 2022 Published 9 August 2022
Funding Information:
We thank the BRIEF-TB study participants who agreed to participate in this PK substudy of rifapentine. We thank Sanofi for generous supply of rifapentine and isoniazid for the BRIEF-TB study. We also thank members of the Antiviral Pharmacology Laboratory at the University of Nebraska Medical Center who performed the analysis of the rifapentine and 25-desacetyl rifapentine plasma concentrations. We are indebted to Richard C. Brundage at the University of Minnesota for his guidance and suggestions on the approach to population pharmacokinetic modeling. We thank the other members of the AIDS Clinical Trials Group A5279 Team as follows: Peter Kim, Daniel Johnson, Laura Moran, Jorge Leon-Cruz, Janet Andersen, Yajing Bao, Shirley Wu, Christina Blanchard-Horan, Ann Walawander, Katherine Shin, Ruth Ebiasah, David Holland, Marc Antoine Jean Juste, Eric Nuermberger, Sandy Pillay, Ian Sanne, Janet Nicotera, David Shugarts, Amina Shali, Jimi Tutko, Brigitte Demers, Marilyn Maroni, Andrew Hockey, Jorge L. Sanchez, David Iglesias, Javier Lama, Mitch Matoga, Guilherme do Amaral Calvet, Ronald Kibet Tonui, Taolo Modise, Margaret Kasaro, Kogieleum Naidoo, Deelip Kadam and William Burman. We acknowledge the participant recruitment efforts of Cecilia Kanyama and the Malawi CRS, Lilongwe, Malawi. Finally, we are grateful for the contributions to A5279 and this work of James G. Hakim. The following sites enrolled participants in this pharmacokinetic study: Harbor University of California Los Angeles Center CRS. University of Miami AIDS Clinical Research Unit (ACRU) CRS, University of Southern California CRS, University of Washington AIDS CRS, Chapel Hill CRS, Univ. of Sao Paulo Brazil NICHD CRS, Hosp. Geral De Nova Iguacu Brazil NICHD CRS, University of Colorado Hospital CRS, Soweto IMPAACT CRS, University of the Witwatersrand Helen Joseph (WITS HJH) CRS, Barranco CRS, San Miguel CRS, Malawi CRS, Kenya Medical Research Institute/Walter Reed Project Clinical Research Center (KEMRI/WRP) CRS, Moi University Clinical Research Center (MUCRC) CRS, Gaborone CRS, Molepolole CRS, Milton Park CRS, Columbia Physicians & Surgeons (P&S) CRS, Trinity Health and Wellness Center CRS, and Denver Public Health CRS. Research reported in this publication was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health under Award Numbers UM1 AI068634, UM1 AI068636, UM1 AI106701, UM1AI069465 and 1K23-AI134307 (to A.T.P.). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Sanofi donated rifapentine for this study. S.S. reports research grants from ViiV Healthcare. C.A.B. reports research grants to her institution from Gilead Sciences. No other author reports a conflict of interest.
Publisher Copyright:
© 2022 American Society for Microbiology. All Rights Reserved.
PY - 2022/9
Y1 - 2022/9
N2 - The Brief Rifapentine–Isoniazid Efficacy for TB Prevention/A5279 trial demonstrated a 1-month daily regimen of rifapentine and isoniazid was noninferior to 9 months of isoniazid alone for preventing TB in persons living with HIV (PLWH). Our objective was to evaluate rifapentine pharmacokinetics in trial participants receiving antiretroviral therapy (ART) and perform simulations to compare weight-based rifapentine dosing with a standard, fixed dose. Nonlinear mixed effect modeling was used to estimate rifapentine and 25-desacetyl rifapentine population pharmacokinetic characteristics. The pharmacokinetic model was validated using a nonparametric bootstrap and visual predictive checks. Monte Carlo simulations were performed to compare weight-based and fixed dose regimens. Rifapentine and 25-desacetyl rifapentine concentrations (347 of each; 185 participants) were each described with a one-compartment model with one-way conversion between rifapentine and 25-desacetyl rifapentine. The absorption rate was nearly doubled in fed versus fasting states. Rifapentine clearance was increased 31% in those receiving efavirenz (EFV)-based versus nevirapine-based ART. Metabolite clearance was allometrically scaled with fat-free mass. Simulations showed lower rifapentine exposures with weight-based compared with fixed dosing. With 10 mg/kg weight-based regimens, 26% and 62% of simulated exposures in,35 kg and 35-45 kg weight classes were above target (AUC0 to 24 h of 257 mg*hr/L); 85% of simulated exposures across all weight classes with fixed dosing were above target. These data support fixed dosing with rifapentine 600 mg daily for TB prevention regardless of weight for PLWH 13 years or older receiving the 4-week regimen and no need for dose adjustment when given with EFV-based ART. Clinical Trials Registration. NCT01404312.
AB - The Brief Rifapentine–Isoniazid Efficacy for TB Prevention/A5279 trial demonstrated a 1-month daily regimen of rifapentine and isoniazid was noninferior to 9 months of isoniazid alone for preventing TB in persons living with HIV (PLWH). Our objective was to evaluate rifapentine pharmacokinetics in trial participants receiving antiretroviral therapy (ART) and perform simulations to compare weight-based rifapentine dosing with a standard, fixed dose. Nonlinear mixed effect modeling was used to estimate rifapentine and 25-desacetyl rifapentine population pharmacokinetic characteristics. The pharmacokinetic model was validated using a nonparametric bootstrap and visual predictive checks. Monte Carlo simulations were performed to compare weight-based and fixed dose regimens. Rifapentine and 25-desacetyl rifapentine concentrations (347 of each; 185 participants) were each described with a one-compartment model with one-way conversion between rifapentine and 25-desacetyl rifapentine. The absorption rate was nearly doubled in fed versus fasting states. Rifapentine clearance was increased 31% in those receiving efavirenz (EFV)-based versus nevirapine-based ART. Metabolite clearance was allometrically scaled with fat-free mass. Simulations showed lower rifapentine exposures with weight-based compared with fixed dosing. With 10 mg/kg weight-based regimens, 26% and 62% of simulated exposures in,35 kg and 35-45 kg weight classes were above target (AUC0 to 24 h of 257 mg*hr/L); 85% of simulated exposures across all weight classes with fixed dosing were above target. These data support fixed dosing with rifapentine 600 mg daily for TB prevention regardless of weight for PLWH 13 years or older receiving the 4-week regimen and no need for dose adjustment when given with EFV-based ART. Clinical Trials Registration. NCT01404312.
KW - HIV/AIDS
KW - Mycobacterium tuberculosis
KW - antiretroviral therapy
KW - population pharmacokinetics
KW - rifapentine
KW - tuberculosis
UR - http://www.scopus.com/inward/record.url?scp=85138459461&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85138459461&partnerID=8YFLogxK
U2 - 10.1128/aac.02385-21
DO - 10.1128/aac.02385-21
M3 - Article
C2 - 35943252
AN - SCOPUS:85138459461
VL - 66
JO - Antimicrobial Agents and Chemotherapy
JF - Antimicrobial Agents and Chemotherapy
SN - 0066-4804
IS - 9
ER -