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PanACEA-MAMS-TB-01 - Virology Education
Pharmacokinetics of high dose rifampicin, moxifloxacin and first-line TB drugs in the PanACEA-MAMS-TB-01 trial Rob Aarnoutse & Angela Colbers Radboudumc, Nijmegen, The Netherlands on behalf of the PanACEA consortium 17th September 2015 8th International Workshop on Clinical Pharmacology of TB drugs, San Diego, USA PanACEA: a consortium of consortia Focus: treatment shortening in drug sensitive TB Started in 2007 with 3 subconsortia: • REMox: bring moxifloxacin beyond phase III • HIGHRIF: bring high dose rifampicin beyond phase II • SQ109: bring SQ109 beyond phase II The three drugs brought together: PanACEA-MAMS-TB-01 PanACEA-MAMS-TB-01: African and European partner institutes Albert-SchweitzerHospital Medical Research Unit Makarere University Tuberculosis Unit NTLP KEMRI Kentya Medical Research Institute KCRI Kibong’oto National Tuberculosis Hospital Northern European partners: •Sponsor: University of Munich •CI: Radboudumc, Nijmegen •University College London •MRC CTU at UCL, UK •University of St. Andrews, UK IHI Bagamoyo branch of Ifakara Health Institute MMRP Mbeya Medical Research Programme UNZA University of Zambia Medical School US Partner: •Sequella, Inc., Washington DC WITS University of Witwatersrand AURUM Aurum Institute for Health Research UCT University of Cape Town SQ109 Stellenbosch Stellenbosch University/TASK Washington, 21/09/15 4 PanACEA-MAMS-TB-01: randomisation scheme All drugs at standard doses unless otherwise stated 8 weeks Control RHZQ Isoniazid Rifampicin 10mg/kg Pyrazinamide Ethambutol Isoniazid Rifampicin 10mg/kg Pyrazinamide SQ109 12 weeks Isoniazid Rifampicin 10mg/kg Isoniazid Rifampicin 10mg/kg R20ZQ Isoniazid Rifampicin 20mg/kg Pyrazinamide SQ109 Isoniazid Rifampicin 10mg/kg R20ZM Isoniazid Rifampicin 20mg/kg Pyrazinamide Moxifloxacin Isoniazid Rifampicin 10mg/kg R35ZHE Isoniazid Rifampicin 35mg/kg Pyrazinamide Ethambutol Isoniazid Rifampicin 10mg/kg 26 weeks Design of PanACEA-MAMS-TB-01 and PK substudy Overarching trial • • • • • Open label, randomized, controlled, phase II MAMS trial Primary endpoint: time to stable culture conversion to negative in liquid media up to 12 weeks Sample size: n=372, n=62 in each arm, n=124 in the control arm FDCs and loose drugs combined: WHO prequalified and approved Weight bands 30-37, 38-54, 55-70 and > 70 kgs PK substudy • • • • • • Overall aim: to substantiate dosing of individual drugs and in combination Objectives: describe PK, assess predictors of PK, PK-PD Intensive PK sampling in 20 patients in each arm in week 4 of treatment (n=100 PK curves) PK sampling in Mbeya and Moshi (Tanzania), Cape Town and Johannesburg (SA): 25 PK curves/site, first 5 patients in each arm are sampled Samples collected prior to and at 0.5, 1, 2, 3, 4, 6, 8, 12, 24 h after intake of TB drugs with a light meal, analyzed by validated UPLC methods Standard two-stage approach with non-compartmental PK methods Results - patient characteristics • 98 valid PK curves recorded Total N Gender (male) 98 70 Control HRZE 19 84 Age (year) 34 (18-56) 36 (25-51) 36 (20-44) 37 (18-56) 33 (20-56) 33 (18-50) Weight (kg) 54 (35-80) 53 (42-60) 54 (42-80) 55 (41-70) 53 (42-72) 52 (35-59) Race (black, mixed) Country Tz / SA HIV-infected 87 / 13 95 / 5 84 / 16 90 / 10 79 / 21 86 / 14 55 / 45 53/47 53 / 47 60 / 40 53 /47 57 / 43 2 / 98 0 / 19 1 / 19 0 / 20 0 / 19 1 / 21 4.9 9.8 26.3 18.0 4.9 9.8 26.1 4.8 19.1 25.5 4.7 18.8 25.1 4.8 32.7 25.6 17.6 Drug dose (mg/kg) Isoniazid Rifampicin Pyrazinamide Ethambutol Moxifloxacin SQ109 HRZQ HR20ZQ HR20ZM HR35ZE 19 74 20 75 19 63 21 57 7.4 (400 mg) Results - rifampicin Results - rifampicin Rifampicin (geom. means) AUCtau (h*mg/L) control HRZE HRZQ HR20ZQ HR20ZM HR35ZE 24.2 17.4 68 58 170 Cmax (mg/L) 5.8 3.4 11.7 11.3 26.7 Tmax (h) 3.1 4.0 4.0 3.1 4.0 CL/F (L/h) 21.3 29.5 15.5 17.5 9.7 Vd/F (L) 53.8 78.2 46.2 45.9 35.3 T1/2 (h) 1.8 1.8 2.1 1.8 2.5 Results - rifampicin Rifampicin (geom. means) AUCtau (h*mg/L) control HRZE HRZQ HR20ZQ HR20ZM HR35ZE 24.2 17.4 68 58 170 Cmax (mg/L) 5.8 3.4 11.7 11.3 26.7 Tmax (h) 3.1 4.0 4.0 3.1 4.0 CL/F (L/h) 0.41 0.59 0.29 0.35 0.21 Vd/F (L) 1.04 1.58 0.87 0.91 0.75 T1/2 (h) 1.8 1.8 2.1 1.8 2.5 Results - rifampicin Rifampicin (geom. means) AUCtau (h*mg/L) • • • • • Low exposures with rifampicin 10 mg/kg More than dose-proportional increase in average exposure (AUC, Cmax) with the dose One-way ANOVA: no difference in AUC0-24 at the same rifampicin dose levels Large interindividual variability in PK, eg min-max with 35 mg/kg is 103-266 h*mg/L, GCV is 37-66-37-51-26% Minimum exposure recorded in each group increased with the dose administered control HRZE HRZQ HR20ZQ HR20ZM HR35ZE 24.2 17.4 68 58 170 Cmax (mg/L) 5.8 3.4 11.7 11.3 26.7 Tmax (h) 3.1 4.0 4.0 3.1 4.0 CL/F (L/h) 21.3 29.5 15.5 17.5 9.7 Vd/F (L) 53.8 78.2 46.2 45.9 35.3 T1/2 (h) 1.8 1.8 2.1 1.8 2.5 Results - rifampicin Rifampicin (geom. means) Control HRZE HRZQ HIGH RIF1 HIGH RIF2 HR20ZM HIGH RIF1 HIGH RIF2 HR35ZE HIGH RIF1 AUCtau (h*mg/L) 24.2 17.4 26.3 23.9 58 113 73.8 170 235 5.8 3.4 7.4 5.3 11.3 21.6 13.6 26.7 35.2 Cmax (mg/L) • • Higher exposures in HIGHRIF1 (South African patients only, sampling at week 2 instead of week 4) at 20 mg/kg and 35 mg/kg compared to current study Effect of ethnicity or sampling time (auto-induction) ? Current study: Tanzanians lower rifampicin AUC0-24 only at 35 mg/kg (GM 145 vs 206 h*mg/L, n=11 vs n=9, p=0.001) Results - moxifloxacin Moxifloxacin AUCtau (h*mg/L) Cmax (mg/L) Tmax (h) CL/F (L/h) Vd/F (L) T1/2 (h) • GCV for AUC tau: 27% control HRZE HRZQ HR20ZQ HR20ZM HR35ZE 23.5 2.6 3.0 17.0 151 6,1 Results - moxifloxacin Comparison to historical PK data • • • • Moxifloxacin is metabolized only by phase II metabolism: glucuronidation and sulphation Rifampicin lowers exposure to moxifloxacin by about 30% (Nijland et al, Clin Infect Dis 2007 & Weiner et al, AAC 2007) Other PK data using the same analytical method are available (Magis et al, Int J Antimicrob Agents. 2014) Exposure to moxi in PanACEA-MAMS-TB-01 is low: Moxifloxacin Nijland et al, 2007 Magis et al, 2014 Weiner et al, 2007 HR20ZM Indonesian patients, n=19 moxi AUCtau (h*mg/L) Cmax (mg/L) • Mixed population n=5 and n=7 moxi + RIF moxi 48.2 33.3 4.7 3.2 moxi + RIF 38.1 28.1 Healthy volunteers, mixed population, n=16 moxi moxi+RIF Africans, n=19 moxi + RIF 38.7 28.4 23.5 3.7 3.5 2.6 Clinical relevance ? In-vitro studies and animal studies suggest higher dose of moxi for TB (Gumbo et al, JID 2004 & Almeida et al, AAC 2007) PK interaction involved in suboptimal effect moxi in REMOX study ? (Alffenaar, Gumbo, Aarnoutse, N Engl J Med 2015) Results - isoniazid Isoniazid AUCtau (h*mg/L) Cmax (mg/L) Tmax (h) CL/F (L/h) Vd/F (L) T1/2 (h) • • • One-way ANOVA: no difference in AUC0-24 between arms Metabolized by acetylation (NAT2), hydrolysis, oxidation (CYP2E1) and conjugation (GSTM1) No apparent strong effect of high dose rifampicin on exposure to INH control HRZE 11.1 2.4 3.0 23.2 106.9 3.2 HRZQ 11.3 1.9 3.9 22.7 124.4 3.8 HR20ZQ HR20ZM 8.4 1.6 3.2 31.6 143.3 3.1 10.3 1.8 3.3 24.5 133.1 3.8 HR35ZE 9.1 2.0 3.0 26.4 124.7 3.3 Results - pyrazinamide Pyrazinamide AUCtau (h*mg/L) Cmax (mg/L) Tmax (h) CL/F (L/h) Vd/F (L) T1/2 (h) • • • • One-way ANOVA: no difference in AUC024 between arms Metabolized to pyrazinoic acid and 5hydroxypyrazinoic acid No apparent strong effect of high dose rifampicin on exposure to PZA 2.0-2.7 fold difference in AUC0-24, GCV: 21-30% control HRZE 361 33.5 3.0 3.8 38.7 7.1 HRZQ 339 27.8 4.0 4.1 39.8 6.8 HR20ZQ HR20ZM HR35ZE 324 27.3 4.0 4.4 42.1 6.7 350 30.1 4.0 3.0 38.7 6.7 306 31.3 3.0 4.1 34.8 5.8 Results - ethambutol Ethambutol AUCtau (h*mg/L) • • • Control HRZE HRZQ HR20ZQ HR20ZM HR35ZE 19.1 17.9 Cmax (mg/L) 2.4 2.2 Tmax (h) 4.0 4.0 CL/F (L/h) 49.9 49.7 Vd/F (L) 657 681 T1/2 (h) 9.2 9.5 T-test: no difference in AUC0-24 between arms Cleared both hepatically and renally, pathways in hepatic clearance unknown No apparent strong effect of high dose rifampicin on exposure to ethambutol Results – predictors /determinants of PK • Gender: isoniazid: higher AUC0-24 in females versus men (GM 9.2 vs 12.2 h*mg/L, p=0.02) rifampicin, ethambutol, moxifloxacin: no differences in AUC0-24 • Acetylator status: fast/intermediate vs slow acetylator based on T1/2: 6.4 vs 11.0 h*mg/L, p<0.001 In multivariate analyses, both gender and acetylator status affect INH AUC0-24 • Age: no significant correlations with AUC and Cmax • Weight / BMI: pending • ‘Ethnicity’ (Tanzanians vs South Africans) rifampicin: Tanzanians lower rifampicin AUC0-24 only at 35 mg/kg (GM 145 vs 206 h*mg/L, n=11 vs n=9, p=0.001) pyrazinamide: Tanzanians lower pyrazinamide AUC0-24 (GM 317 vs 360 h*mg/L, n=53 vs n=41, p=0.02) • HIV status: numbers too small Results – predictors /determinants of PK Proportion of patients experiencing AEs *Hepatic AEs resulting in a change of treatment, pending final safety review. Time to stable culture conversion on MGIT liquid media over 12 weeks Control Included in 123 analysis Median 62 days time Adj. HR1 (95% CI) Q 20RQ 20RM 35R 58 56 63 63 63 days 66 days 55 days 48 days 0.82 0.73 1.42 1.75 (0.55 - 1.24) (0.48 - 1.13) (0.98 - 2.05) (1.21 - 2.55) p=0.35 p=0.16 p=0.07 p=0.003 Analysis has been adjusted for: HIV status; baseline GeneXpert CT; centre; baseline culture (using TTP). 1 Time to stable culture conversion on MGIT liquid media over 12 weeks Control Included in 123 analysis Median 62 days time Adj. HR1 (95% CI) Q 20RQ 20RM 35R 58 56 63 63 63 days 66 days 55 days 48 days 1.42 (0.98 - 2.05) 1.75 (1.21 - 2.55) p=0.07 p=0.003 0.82 0.73 (0.55 - 1.24) (0.48 - 1.13) p=0.35 p=0.16 Censoring data at 8 weeks (to mimic previous TB phase II trials) Adj. HR (95% CI)1 1.05 0.91 1.69 1.99 (0.60 - 1.83) (0.50 - 1.68) (1.02 - 2.80) (1.21 - 3.29) p=0.88 p=0.78 p=0.04 p=0.007 Analysis has been adjusted for: HIV status; baseline GeneXpert CT; centre; baseline culture (using TTP). 1 Time to stable culture conversion on MGIT liquid media Conclusions • • • • • • • • Increasing the dose of rifampicin increases average and minimum exposures effectively Large interindividual variability in exposure to rifampicin Relatively low exposure to moxifloxacin with co-administered (high dose) rifampicin: suggestion to increase the moxi dose to 600 mg or 800 mg QD No apparent effect of high dose rifampicin on exposure to isoniazid, pyrazinamide and ethambutol Lower exposure to high dose rifampicin in TZ vs SA patients high dose rifampicin to be evaluated in other populations High dose (35 mg/kg) rifampicin + concomitant drugs is reasonably well tolerated for 3 months in African TB patients High dose rifampicin (35 mg/kg ) and 20 mg/kg plus moxifloxacin resulted in an increased likelihood of, and shorter time to, culture conversion in liquid media, not in solid PK results for SQ109 and PK-PD analyses are pending Acknowledgements • • • • • • • South Africa – Aurum, Tembisa: Gavin Churchyard, Solome Charalambous, Robert Wallis – CHRU, University of Witwatersrand, Johannesburg: Ian Sanne, Karla Mellet – TASK, University of Stellenbosch: Andreas Diacon, Jeannine Du Bois, Armour Venter – The Lung Institute, University of Cape Town: Rod Dawson, Kim Narunsky – Triclinium Tanzania – IHI, Bagamoyo: Klaus Reither, Lilian Tina Minja – KCRI, Moshi: Gibson Kibiki, Hadija Semvua, Stellah Mpagama, Charles Mtabho – MMRC, Mbeya: Nyanda Ntinginya, Leonard Maboko United States – Sequella inc.: Carol Nacy, Lisa Beth Ferstenberg United Kingdom – University of St Andrews: Stephen Gillespie – University of London, MRC CTU: Sunita Rehal, Patrick Phillips, Andrew Nunn – University of London: Tim Mc Hugh Germany – Ludwig Maximilian University, Munich: Michael Hoelscher, Norbert Heinrich, Anka Mekota, Sonja Henne The Netherlands – Radboudumc, Nijmegen: Martin Boeree, Georgette Plemper van Balen, Marloes Weijers, technicians All other PanACEA site collaborators