Population Pharmacokinetics, Efficacy Exposure-response Analysis, and Model-based Meta-analysis of Fenebrutinib in Subjects with Rheumatoid Arthritis
Purpose Fenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data. Met...
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| Published in | Pharmaceutical research Vol. 37; no. 2; p. 25 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.02.2020
Springer Springer Nature B.V |
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| Online Access | Get full text |
| ISSN | 0724-8741 1573-904X |
| DOI | 10.1007/s11095-019-2752-y |
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| Abstract | Purpose
Fenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data.
Methods
Population pharmacokinetics (popPK) modeling, exposure-response (E-R) analysis, and model-based meta-analysis (MBMA) of fenebrutinib were performed based on the Phase 2 data.
Results
PopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an E
max
function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments.
Conclusions
Our multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. |
|---|---|
| AbstractList | Purpose Fenebrutinib (GDC-0853), a Bruton's tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data. Methods Population pharmacokinetics (popPK) modeling, exposure-response (E-R) analysis, and model-based meta-analysis (MBMA) of fenebrutinib were performed based on the Phase 2 data. Results PopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an E.sub.max function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments. Conclusions Our multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. PurposeFenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data.MethodsPopulation pharmacokinetics (popPK) modeling, exposure-response (E-R) analysis, and model-based meta-analysis (MBMA) of fenebrutinib were performed based on the Phase 2 data.ResultsPopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an Emax function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments.ConclusionsOur multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. Fenebrutinib (GDC-0853), a Bruton's tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data. Population pharmacokinetics (popPK) modeling, exposure-response (E-R) analysis, and model-based meta-analysis (MBMA) of fenebrutinib were performed based on the Phase 2 data. PopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an E function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments. Our multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. Fenebrutinib (GDC-0853), a Bruton's tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data. PopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an E.sub.max function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments. Our multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. Purpose Fenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA). Our aim was to apply a model-informed drug development (MIDD) approach to examine the totality of available clinical efficacy data. Methods Population pharmacokinetics (popPK) modeling, exposure-response (E-R) analysis, and model-based meta-analysis (MBMA) of fenebrutinib were performed based on the Phase 2 data. Results PopPK of fenebrutinib after oral administration was described using a 3-compartment model with linear elimination and a flexible absorption transit compartment model. Healthy subjects had a 52% higher apparent clearance than patients. E-R analyses based on longitudinal ACR20, ACR50, and ACR70 and DAS28 (CRP) data modeled fenebrutinib effect with an E max function, and an efficacy plateau was achieved within the exposure range obtained in the Phase 2 clinical trial. Based on literature data, a summary-level clinical efficacy database was constructed, and MBMA determined ACR20, ACR50, and ACR70 responder rates in the placebo and adalimumab arms of the Phase 2 clinical trial were found to be consistent with historical data for these treatments. Conclusions Our multi-pronged approach applied MIDD to maximize knowledge extraction of efficacy data and enabled robust interpretation from a Phase 2 clinical trial. |
| ArticleNumber | 25 |
| Audience | Academic |
| Author | Yu, Jiajie Hanley, William Tuckwell, Katie Huisman, Jan Quartino, Angelica Matzuka, Brett Chinn, Leslie Chan, Phyllis Prohn, Marita |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31907670$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1038_s41584_024_01179_5 crossref_primary_10_3390_pharmaceutics16121559 crossref_primary_10_1021_acs_jmedchem_1c00926 crossref_primary_10_1111_cts_13407 crossref_primary_10_1111_imm_13416 crossref_primary_10_1002_art_41275 crossref_primary_10_1016_j_bmcl_2022_128549 crossref_primary_10_4049_immunohorizons_2100063 crossref_primary_10_1007_s11095_022_03201_5 crossref_primary_10_1016_j_xphs_2024_01_009 crossref_primary_10_1021_acs_jmedchem_0c00702 crossref_primary_10_2147_JEP_S265284 |
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| Keywords | Bruton’s tyrosine kinase (BTK) inhibitor model-based meta-analysis rheumatoid arthritis exposure-response population pharmacokinetics |
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PDUFA Reauthorization performance goals and procedures Fiscal years 2018 through 2022 [Available from: https://www.fda.gov/media/99140/download]. EmeryPKeystoneETonyHPCantagrelAvan VollenhovenRSanchezAAlecockELeeJKremerJIL-6 receptor inhibition with tocilizumab improves treatment outcomes in patients with rheumatoid arthritis refractory to anti-tumour necrosis factor biologicals: results from a 24-week multicentre randomised placebo-controlled trialAnn Rheum Dis20086711151615231:CAS:528:DC%2BD1cXhtl2gsbbI18625622381114910.1136/ard.2008.092932 ByrdJCSmithSWagner-JohnstonNSharmanJChenAIAdvaniRAugustsonBMarltonPRenee CommerfordSOkrahKLiuLMurrayEPenuelEWardAFFlinnIWFirst-in-human phase 1 study of the BTK inhibitor GDC-0853 in relapsed or refractory B-cell NHL and CLLOncotarget.2018916130231303529560128584919210.18632/oncotarget.24310 KaldenJRSchulze-KoopsHImmunogenicity and loss of response to TNF inhibitors: implications for rheumatoid arthritis treatmentNat Rev Rheumatol201713127077181:CAS:528:DC%2BC2sXhvVeitbfL2915857410.1038/nrrheum.2017.187 GenoveseMCFleischmannRCombeBHallSRubbert-RothAZhangYZhouYMohamedMFMeerweinSPanganALSafety and efficacy of upadacitinib in patients with active rheumatoid arthritis refractory to biologic disease-modifying anti-rheumatic drugs (SELECT-BEYOND): a double-blind, randomised controlled phase 3 trialLancet.201839110139251325241:CAS:528:DC%2BC1cXhtFCmsb3E2990867010.1016/S0140-6736(18)31116-4 HermanAEChinnLWKotwalSGMurrayERZhaoRFloreroMLinAMoeinAWangRBremerMKokubuSSeroneAPHanzeELVibergAMorimotoAMWinterHRKatsumotoTRSafety, pharmacokinetics, and pharmacodynamics in healthy volunteers treated with GDC-0853, a selective reversible Bruton's tyrosine kinase inhibitorClin Pharmacol Ther20181036102010281:CAS:528:DC%2BC1cXhtVOqsrrK2948463810.1002/cpt.1056 BergstrandMHookerACWallinJEKarlssonMOPrediction-corrected visual predictive checks for diagnosing nonlinear mixed-effects modelsAAPS J201113214315121302010308571210.1208/s12248-011-9255-z van VollenhovenRFFleischmannRCohenSLeeEBGarcia MeijideJAWagnerSTofacitinib or adalimumab versus placebo in rheumatoid arthritisN Engl J Med2012367650851910.1056/NEJMoa1112072 SoLFrumanDAPI3K signalling in B- and T-lymphocytes: new developments and therapeutic advancesBiochem J201244234654811:CAS:528:DC%2BC38XivV2itbs%3D22364281353973610.1042/BJ20112092 BrunnerCMullerBWirthTBruton's tyrosine kinase is involved in innate and adaptive immunityHistol Histopathol20052039459551:CAS:528:DC%2BD2MXpsFKjtL4%3D15944945 KatewaAWangYHackneyJAHuangTSutoERamamoorthiNAustinCDBremerMChenJZCrawfordJJCurrieKSBlomgrenPDeVossJDiPaoloJHauJJohnsonALeschJDeForgeLLinZLiimattaMLubachJWMcVaySModrusanZNguyenAPoonCWangJLiuLLeeWPWongHYoungWBTownsendMJReifKBtk-specific inhibition blocks pathogenic plasma cell signatures and myeloid cell-associated damage in IFNalpha-driven lupus nephritisJCI Insight201727e9011128405610537407110.1172/jci.insight.90111 SatterthwaiteABLiZWitteONBtk function in B cell development and responseSemin Immunol19981043093161:CAS:528:DyaK1cXltlCiuro%3D969518710.1006/smim.1998.0123 YanoYBealSLSheinerLBEvaluating pharmacokinetic/pharmacodynamic models using the posterior predictive checkJ Pharmacokinet Pharmacodyn20012821711921:STN:280:DC%2BD38%2FhtV2htg%3D%3D1138156910.1023/A:1011555016423 WangYZhuRXiaoJDavisJCJrMandemaJWJinJYShort-term efficacy reliably predicts long-term clinical benefit in rheumatoid arthritis clinical trials as demonstrated by model-based meta-analysisJ Clin Pharmacol20165678358441:CAS:528:DC%2BC28XpvV2hu7s%3D2651775210.1002/jcph.668 DeminIHamrenBLuttringerOPillaiGJungTLongitudinal model-based meta-analysis in rheumatoid arthritis: an application toward model-based drug developmentClin Pharmacol Ther20129233523591:CAS:528:DC%2BC38Xht1GisrbJ2276000210.1038/clpt.2012.69 GabayCMsihidJZilbersteinMPaccardCLinYGrahamNMHBoyapatiAIdentification of sarilumab pharmacodynamic and predictive markers in patients with inadequate response to TNF inhibition: a biomarker substudy of the phase 3 TARGET studyRMD Open20184129556418585691710.1136/rmdopen-2017-000607 WangWZhouHLiuLSide effects of methotrexate therapy for rheumatoid arthritis: a systematic reviewEur J Med Chem20181585025161:CAS:528:DC%2BC1cXhslOjsr7K3024315410.1016/j.ejmech.2018.09.027 CrawfordJJJohnsonARMisnerDLBelmontLDCastanedoGChoyRDiscovery of GDC-0853: a potent, selective, and noncovalent Bruton's tyrosine kinase inhibitor in early clinical developmentJ Med Chem2018616222722451:CAS:528:DC%2BC1cXivFCnt7c%3D2945798210.1021/acs.jmedchem.7b01712 SavicRMJonkerDMKerbuschTKarlssonMOImplementation of a transit compartment model for describing drug absorption in pharmacokinetic studiesJ Pharmacokinet Pharmacodyn20073457117261:CAS:528:DC%2BD2sXhtVOitr%2FI1765383610.1007/s10928-007-9066-0 FDA. 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SatterthwaiteABWitteONThe role of Bruton's tyrosine kinase in B-cell development and function: a genetic perspectiveImmunol Rev20001751201271:CAS:528:DC%2BD3cXls12gs7g%3D1093359710.1111/j.1600-065X.2000.imr017504.x PikeRMSulkinSECoggeshallHCSerological reactions in rheumatoid arthritis; factors affecting the agglutination of sensitized sheep erythrocytes in rheumatid-arthritis serumJ Immunol19496344414461:STN:280:DyaG3c%2FgslOmtg%3D%3D15398122 MouldDRModel-based meta-analysis: an important tool for making quantitative decisions during drug developmentClin Pharmacol Ther20129232832861:CAS:528:DC%2BC38Xht1GisrfN2291048510.1038/clpt.2012.122 UpretiVVVenkatakrishnanKModel-based meta-analysis: optimizing research, development, and utilization of therapeutics using the totality of evidenceClin Pharmacol Ther201910659819923099367910.1002/cpt.1462 CohenSTuckwellKKatsumotoTRZhaoRLeeCBermanAOP0025 Fenebrutinib compared to placebo and adalimumab in patients with inadequate response to either methotrexate therapy or prior TNF therapy: phase 2 studyAnn Rheum Dis201978Suppl 28081 VanhoutteFMazurMVoloshynOStanislavchukMVan der AaANamourFEfficacy, safety, pharmacokinetics, and pharmacodynamics of Filgotinib, a selective JAK-1 inhibitor, after short-term treatment of rheumatoid arthritis: results of two randomized phase IIa trialsArthritis Rheumatol20176910194919591:CAS:528:DC%2BC2sXhsFyrurjP28622463565681310.1002/art.40186 BurmesterGRKremerJMVan den BoschFKivitzABessetteLLiYSafety and efficacy of upadacitinib in patients with rheumatoid arthritis and inadequate response to conventional synthetic disease-modifying anti-rheumatic drugs (SELECT-NEXT): a randomised, double-blind, placebo-controlled phase 3 trialLancet.201839110139250325121:CAS:528:DC%2BC1cXhtFCmsb3P2990866910.1016/S0140-6736(18)31115-2 ScottDLWolfeFHuizingaTWRheumatoid arthritisLancet.20103769746109411082087010010.1016/S0140-6736(10)60826-4 SchmidtUBoucheronNUngerBEllmeierWThe role of Tec family kinases in myeloid cellsInt Arch Allergy Immunol2004134165781:CAS:528:DC%2BD2cXktFKlsr8%3D1513330310.1159/000078339 LacroixBDKarlssonMOFribergLESimultaneous exposure-response modeling of ACR20, ACR50, and ACR70 improvement scores in rheumatoid arthritis patients treated with Certolizumab PegolCPT Pharmacometrics Syst Pharmacol20143e1431:CAS:528:DC%2BC2cXhvVemsrjN25353186447416510.1038/psp.2014.41 MaringwaJKagedalMHamrenUWMartinPCoxEHamrenBPharmacokinetic-pharmacodynamic modeling of fostamatinib efficacy on ACR20 to support dose selection in patients with rheumatoid arthritis (RA)J Clin Pharmacol20155533283351:CAS:528:DC%2BC2MXivVejtro%3D2528008510.1002/jcph.406 PuriKDDi PaoloJAGoldMRB-cell receptor signaling inhibitors for treatment of autoimmune inflammatory diseases and B-cell malignanciesInt Rev Immunol20133243974271:CAS:528:DC%2BC3sXhtFygsrrO2388634210.3109/08830185.2013.818140 LambaMHutmacherMMFurstDEDikranianADowtyMEConradoDStockTNduakaCCookJKrishnaswamiSModel-informed development and registration of a once-daily regimen of extended-release TofacitinibClin Pharmacol Ther201710167457531:CAS:528:DC%2BC2sXnslKju78%3D27859030548572010.1002/cpt.576 P Emery (2752_CR10) 2008; 67 GR Burmester (2752_CR7) 2018; 391 MC Genovese (2752_CR6) 2018; 391 PC Taylor (2752_CR9) 2017; 376 C Gabay (2752_CR11) 2018; 4 W Wang (2752_CR4) 2018; 158 2752_CR1 JA Di Paolo (2752_CR16) 2011; 7 DR Mould (2752_CR2) 2012; 92 Y Yano (2752_CR30) 2001; 28 VV Upreti (2752_CR36) 2019; 106 A Morimoto (2752_CR25) 2019; 78 AB Satterthwaite (2752_CR17) 2000; 175 M Lamba (2752_CR34) 2017; 101 RF van Vollenhoven (2752_CR8) 2012; 367 C Brunner (2752_CR15) 2005; 20 JJ Crawford (2752_CR21) 2018; 61 Y Wang (2752_CR37) 2016; 56 F Vanhoutte (2752_CR12) 2017; 69 L So (2752_CR18) 2012; 442 AE Herman (2752_CR22) 2018; 103 BD Lacroix (2752_CR29) 2014; 3 AB Satterthwaite (2752_CR13) 1998; 10 2752_CR28 RM Pike (2752_CR35) 1949; 63 M Bergstrand (2752_CR26) 2011; 13 I Demin (2752_CR31) 2012; 92 U Schmidt (2752_CR14) 2004; 134 S Cohen (2752_CR24) 2019; 78 J Anderson (2752_CR27) 2012; 64 A Katewa (2752_CR20) 2017; 2 JC Byrd (2752_CR23) 2018; 9 RM Savic (2752_CR32) 2007; 34 KD Puri (2752_CR19) 2013; 32 JR Kalden (2752_CR5) 2017; 13 J Maringwa (2752_CR33) 2015; 55 DL Scott (2752_CR3) 2010; 376 31980965 - Pharm Res. 2020 Jan 24;37(3):41 |
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Fenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis... Fenebrutinib (GDC-0853), a Bruton's tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis (RA).... Purpose Fenebrutinib (GDC-0853), a Bruton's tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis... PurposeFenebrutinib (GDC-0853), a Bruton’s tyrosine kinase (BTK) inhibitor was investigated in a Phase 2 clinical trial in patients with rheumatoid arthritis... |
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| SubjectTerms | Adalimumab Arthritis B cells Biochemistry Biomedical and Life Sciences Biomedical Engineering and Bioengineering Biomedicine Bruton's tyrosine kinase Clinical trials Dose-response effects Drug development Enzyme inhibitors Medical Law Medical research Medicine, Experimental Meta-analysis Monoclonal antibodies Oral administration Pharmacokinetics Pharmacology/Toxicology Pharmacy Protein-tyrosine kinase Research Paper Rheumatoid arthritis Rheumatoid factor Tyrosine |
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| Title | Population Pharmacokinetics, Efficacy Exposure-response Analysis, and Model-based Meta-analysis of Fenebrutinib in Subjects with Rheumatoid Arthritis |
| URI | https://link.springer.com/article/10.1007/s11095-019-2752-y https://www.ncbi.nlm.nih.gov/pubmed/31907670 https://www.proquest.com/docview/2333833192 https://pubmed.ncbi.nlm.nih.gov/PMC6944649 |
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