Skip to main content
Hauptrubriken
CME Facharzt-Training Webinare Zeitschriften Bücher e.Medpedia Podcast
Service
Jobbörse Info & Hilfe
Fachgebiete
Anästhesiologie Allgemeinmedizin Arbeitsmedizin Augenheilkunde Chirurgie Dermatologie Gynäkologie und Geburtshilfe HNO Innere Medizin Kardiologie Neurologie Onkologie und Hämatologie Orthopädie und Unfallchirurgie Pädiatrie Pathologie Psychiatrie Radiologie Rechtsmedizin Urologie Zahnmedizin
Themen
Klimawandel und Gesundheit Neues aus dem Markt COVID-19 Praxis und Beruf Seltene Erkrankungen GOÄ & EBM Panorama
Sammlungen
Kasuistiken Algorithmen & Infografiken Blickdiagnosen Arthropedia FlapFinder (für Dermatochirurgen) Videos Kongressberichterstattung Medizin für Apothekerinnen und Apotheker Für Ärztinnen und Ärzte in Weiterbildung Für Medizinstudierende

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Konkret geht es um den Diabetes-Patienten mit kardiovaskulären Erkrankungen oder Risiken, die Herzinsuffizienz sowie die kardiovaskuläre Primär- und Sekundärprävention. Sind Sie hier schon auf dem neuesten Stand? Unsere Experten beleuchten, wo und warum das bisherige Procedere geändert werden soll und was in der Praxis sinnvoll ist. Holen Sie sich Ihr Update und 2 CME-Punkte beim MMW-Webinar am 24. April von 17.30 bis 19 Uhr
Erweiterte Suche
Anmelden
nach oben
Clinical Pharmacokinetics
Erschienen in: Clinical Pharmacokinetics 2/2018

01.02.2018 | Original Research Article

Exploiting Pharmacokinetic Models of Tamoxifen and Endoxifen to Identify Factors Causing Subtherapeutic Concentrations in Breast Cancer Patients

verfasst von: Lena Klopp-Schulze, Markus Joerger, Sebastian G. Wicha, Rob ter Heine, Chantal Csajka, Zinnia P. Parra-Guillen, Charlotte Kloft

Erschienen in: Clinical Pharmacokinetics | Ausgabe 2/2018

Einloggen, um Zugang zu erhalten

Abstract

Background and Objectives

A better understanding of the highly variable pharmacokinetics (PK) of tamoxifen and its active metabolite endoxifen in breast cancer patients is crucial to support individualised treatment. This study used a modelling and simulation approach to quantitatively assess the influence of cytochrome P450 (CYP) 2D6 activity and other relevant factors on tamoxifen and endoxifen PK to identify subgroups at risk for subtherapeutic endoxifen concentrations.

Methods

Simulations were performed using two previously published PK models jointly describing tamoxifen and endoxifen with CYP2D6 and CYP3A4/5 enzyme activities implemented as covariates. Steady-state predictions were compared between models and with the literature values. Factors potentially causing between-model discrepancies were explored. A previously published threshold (6 ng/mL) was used to identify patients with subtherapeutic endoxifen concentrations and to perform a dose adaptation study.

Results

Steady-state predictions of tamoxifen and endoxifen were considerably different between the models. The factors, differences in sampling time, adherence and bioavailability, were not able to fully capture between-model variability. Endoxifen steady-state fluctuations within a dosing interval were minimal (<6%). Poor (97%) and intermediate (54%) CYP2D6 metabolisers failed to achieve therapeutic endoxifen concentrations, suggesting adapted doses of tamoxifen 80 and 40 mg, respectively, achieving therapeutic endoxifen concentrations in 89.7% of patients (standard dosing 45.2%). However, interindividual variability remained.

Conclusions

To achieve therapeutic endoxifen concentrations early in treatment, it is advisable to initiate treatment by CYP2D6 genotype/phenotype-guided dosing, followed by therapeutic drug monitoring at steady-state. We strongly advocate to adequately measure, report and prospectively investigate influential factors (i.e. adherence, bioavailability, time to PK steady-state) in clinical trials.
Anhänge
Nur mit Berechtigung zugänglich
Literatur
1.
Jordan VC. Tamoxifen: a most unlikely pioneering medicine. Nat Rev Drug Discov. 2003;2:205–13.CrossRefPubMed
2.
Ferlay J, Soerjomataram I, Ervik M, Dikshit R, Eser S, Mathers C, et al. GLOBOCAN 2012 v1.0, Cancer incidence and mortality worldwide: IARC CancerBase No. 11. Lyon. International Agency for Research on Cancer. 2013. http://​globocan.​iarc.​fr. Accessed 17 Jan 2017.
3.
4.
Mürdter TE, Schroth W, Bacchus-Gerybadze L, et al. Activity levels of tamoxifen metabolites at the estrogen receptor and the impact of genetic polymorphisms of phase I and II enzymes on their concentration levels in plasma. Clin Pharmacol Ther. 2011;89:708–17.CrossRefPubMed
5.
Maximov PY, Fernandes DJ, McDaniel RE, Myers CB, Curpan RF, Jordan VC. Influence of the length and positioning of the antiestrogenic side chain of endoxifen and 4-hydroxytamoxifen on gene activation and growth of estrogen receptor positive cancer cells. J Med Chem. 2014;57:4569–83.CrossRefPubMedPubMedCentral
6.
Desta Z, Ward BA, Soukhova NV, Flockhart DA. Comprehensive evaluation of tamoxifen sequential biotransformation by the human cytochrome P450 system in vitro: prominent roles for CYP3A and CYP2D6. J Pharmacol Exp Ther. 2004;310:1062–75.CrossRefPubMed
7.
8.
Madlensky L, Natarajan L, Tchu S, et al. Tamoxifen metabolite concentrations, CYP2D6 genotype, and breast cancer outcomes. Clin Pharmacol Ther. 2011;89:718–25.CrossRefPubMedPubMedCentral
9.
Brauch H, Schroth W, Goetz MP, et al. Tamoxifen use in postmenopausal breast cancer: CYP2D6 matters. J Clin Oncol. 2013;31:176–80.CrossRefPubMed
10.
Binkhorst L, Mathijssen RHJ, Jager A, van Gelder T. Individualization of tamoxifen therapy: much more than just CYP2D6 genotyping. Cancer Treat Rev. 2015;41:289–99.CrossRefPubMed
11.
Kloft C, Trame MN, Ritter CA. Systems pharmacology in drug development and therapeutic use: a forthcoming paradigm shift. Eur J Pharm Sci. 2016;94:1–3.CrossRefPubMed
12.
Holford N, Ma SC, Ploeger BA. Clinical trial simulation: a review. Clin Pharmacol Ther. 2010;88:166–82.CrossRefPubMed
13.
Ette EI, Williams PJ, Kim YH, Lane JR, Liu M-J, Capparelli EV. Model appropriateness and population pharmacokinetic modeling. J Clin Pharmacol. 2003;43:610–23.CrossRefPubMed
14.
15.
16.
Ter Heine R, Binkhorst L, de Graan AJM, et al. Population pharmacokinetic modelling to assess the impact of CYP2D6 and CYP3A metabolic phenotypes on the pharmacokinetics of tamoxifen and endoxifen. Br J Clin Pharmacol. 2014;78:572–86.CrossRefPubMedPubMedCentral
17.
De Graan A-JM, Teunissen SF, de Vos FYFL, et al. Dextromethorphan as a phenotyping test to predict endoxifen exposure in patients on tamoxifen treatment. J Clin Oncol. 2011;29:3240–6.CrossRefPubMed
18.
Sabaté E, World Health Organization. Adherence to long-term therapies: evidence for action. Geneva: World Health Organization; 2003.
19.
20.
Krause A, Lowe PJ. Visualization and communication of pharmacometric models with Berkeley Madonna. CPT Pharmacomet Syst Pharmacol. 2014;3:e116.CrossRef
21.
Keizer RJ, Karlsson MO, Hooker A. Modeling and simulation workbench for NONMEM: Tutorial on Pirana, PsN, and Xpose. CPT Pharmacomet Syst Pharmacol. 2013;2:e50.CrossRef
22.
Core R. Team: a language and environment for statistical computing. Vienna: R Foundation for Statistical Computing; 2016.
23.
Hutson PR, Love RR, Havighurst TC, Rogers E, Cleary JF. Effect of exemestane on tamoxifen pharmacokinetics in postmenopausal women treated for breast cancer. Clin Cancer Res. 2005;11:8722–7.CrossRefPubMed
24.
25.
Dickschen K, Willmann S, Thelen K, Lippert J, Hempel G, Eissing T. Physiologically based pharmacokinetic modeling of tamoxifen and its metabolites in women of different CYP2D6 phenotypes provides new insight into the tamoxifen mass balance. Front Pharmacol. 2012;3:92.CrossRefPubMedPubMedCentral
26.
Ahmad A, Ali SM, Ahmad MU, Sheikh S, Ahmad I. Orally administered endoxifen is a new therapeutic agent for breast cancer. Breast Cancer Res Treat. 2010;122:579–84.CrossRefPubMed
27.
Borges S, Desta Z, Li L, et al. Quantitative effect of CYP2D6 genotype and inhibitors on tamoxifen metabolism: implication for optimization of breast cancer treatment. Clin Pharmacol Ther. 2006;80:61–74.CrossRefPubMed
28.
Antunes MV, Timm TADF, de Oliveira V, et al. Influence of CYP2D6 and CYP3A4 phenotypes, drug interactions and vitamin D status on tamoxifen biotransformation. Ther Drug Monit. 2015;37:733–44.CrossRefPubMed
29.
Barginear MF, Jaremko M, Peter I, et al. Increasing tamoxifen dose in breast cancer patients based on CYP2D6 genotypes and endoxifen levels: effect on active metabolite isomers and the antiestrogenic activity score. Clin Pharmacol Ther. 2011;90:605–11.CrossRefPubMed
30.
Jager NGL, Rosing H, Linn SC, Schellens JHM, Beijnen JH. Importance of highly selective LC-MS/MS analysis for the accurate quantification of tamoxifen and its metabolites: focus on endoxifen and 4-hydroxytamoxifen. Breast Cancer Res Treat. 2012;133:793–8.CrossRefPubMedPubMedCentral
31.
Hershman DL, Kushi LH, Shao T, et al. Early discontinuation and nonadherence to adjuvant hormonal therapy in a cohort of 8769 early-stage breast cancer patients. J Clin Oncol. 2010;28:4120–8.CrossRefPubMedPubMedCentral
32.
Binkhorst L, van Gelder T, Loos WJ, et al. Effects of CYP induction by rifampicin on tamoxifen exposure. Clin Pharmacol Ther. 2012;92:62–7.CrossRefPubMed
33.
Binkhorst L, Kloth JSL, de Wit AS, et al. Circadian variation in tamoxifen pharmacokinetics in mice and breast cancer patients. Breast Cancer Res Treat. 2015;152:119–28.CrossRefPubMedPubMedCentral
34.
35.
Kisanga ER, Mellgren G, Lien E. Excretion of hydroxylated metabolites of tamoxifen in human bile and urine. Anticancer Res. 2005;25:4487–92.PubMed
36.
Jordan VC. The development of tamoxifen for breast cancer therapy: a tribute to the late Arthur L. Walpole. Breast Cancer Res Treat. 1988;11:197–209.CrossRefPubMed
37.
Jin Y, Desta Z, Stearns V, et al. CYP2D6 genotype, antidepressant use, and tamoxifen metabolism during adjuvant breast cancer treatment. J Natl Cancer Inst. 2005;97:30–9.CrossRefPubMed
38.
Irvin WJ, Walko CM, Weck KE, et al. Genotype-guided tamoxifen dosing increases active metabolite exposure in women with reduced cyp2d6 metabolism: a multicenter study. J Clin Oncol. 2011;29:3232–9.CrossRefPubMedPubMedCentral
39.
Saladores P, Mürdter T, Eccles D, et al. Tamoxifen metabolism predicts drug concentrations and outcome in premenopausal patients with early breast cancer. Pharmacogenom J. 2014;15:84–94.CrossRef
40.
Gong IY, Teft WA, Ly J, et al. Determination of clinically therapeutic endoxifen concentrations based on efficacy from human MCF7 breast cancer xenografts. Breast Cancer Res Treat. 2013;139:61–9.CrossRefPubMed
41.
Wicha SG, Kees MG, Solms A, Minichmayr IK, Kratzer A, Kloft C. TDMx: a novel web-based open-access support tool for optimising antimicrobial dosing regimens in clinical routine. Int J Antimicrob Agents. 2015;45:442–4.CrossRefPubMed
42.
Darwich AS, Ogungbenro K, Vinks AA, et al. Why has model-informed precision dosing not yet become common clinical reality? Lessons from the past and a roadmap for the future. Clin Pharmacol Ther. 2017;101(5):646–56.CrossRefPubMed
43.
Ruddy KJ, Desantis SD, Gelman RS, et al. Personalized medicine in breast cancer: tamoxifen, endoxifen, and CYP2D6 in clinical practice. Breast Cancer Res Treat. 2013;141:421–7.CrossRefPubMed
44.
Dezentjé VO, Opdam FL, Gelderblom H, et al. CYP2D6 genotype- and endoxifen-guided tamoxifen dose escalation increases endoxifen serum concentrations without increasing side effects. Breast Cancer Res Treat. 2015;153:583–90.CrossRefPubMedPubMedCentral
45.
Fox P, Balleine R, Lee C, et al. Dose escalation of tamoxifen in patients with low endoxifen level: evidence for therapeutic drug monitoring: The TADE Study. Clin Cancer Res. 2016;22:3164–71.CrossRefPubMed
46.
Dickschen K, Eissing T, Mürdter T, Schwab M, Willmann S, Hempel G. Concomitant use of tamoxifen and endoxifen in postmenopausal early breast cancer: prediction of plasma levels by physiologically-based pharmacokinetic modeling. SpringerPlus. 2014;3:285.CrossRefPubMedPubMedCentral
47.
Regan MM, Leyland-Jones B, Bouzyk M, et al. CYP2D6 genotype and tamoxifen response in postmenopausal women with endocrine-responsive breast cancer: the breast international group 1-98 trial. J Natl Cancer Inst. 2012;104:441–51.CrossRefPubMedPubMedCentral
48.
Rae JM, Drury S, Hayes DF, et al. CYP2D6 and UGT2B7 genotype and risk of recurrence in tamoxifen-treated breast cancer patients. J Natl Cancer Inst. 2012;104:452–60.CrossRefPubMedPubMedCentral
49.
Schroth W, Goetz MP, Hamann U, et al. Association between CYP2D6 polymorphisms and outcomes among women with early stage breast cancer treated with tamoxifen. JAMA. 2009;302:1429–36.CrossRefPubMedPubMedCentral
50.
Brauch H, Schwab M. Prediction of tamoxifen outcome by genetic variation of CYP2D6 in post-menopausal women with early breast cancer. Br J Clin Pharmacol. 2014;77:695–703.CrossRefPubMedPubMedCentral
51.
Ratain MJ, Nakamura Y, Cox NJ. CYP2D6 genotype and tamoxifen activity: understanding interstudy variability in methodological quality. Clin Pharmacol Ther. 2013;94:185–7.CrossRefPubMedPubMedCentral
52.
Gaedigk A, Sangkuhl K, Whirl-Carrillo M, Klein T, Leeder JS. Prediction of CYP2D6 phenotype from genotype across world populations. Genet Med. 2017;19:69–76.CrossRefPubMed
53.
Klopp-Schulze L, Joerger M, Wicha S, Parra-Guillen ZP, Kloft C. Making use of modeling and simulations: Towards individualized tamoxifen therapy in breast cancer. Int J Clin Pharmacol Ther. Epub 19 Sep 2016.
Metadaten
Titel
Exploiting Pharmacokinetic Models of Tamoxifen and Endoxifen to Identify Factors Causing Subtherapeutic Concentrations in Breast Cancer Patients
verfasst von
Lena Klopp-Schulze
Markus Joerger
Sebastian G. Wicha
Rob ter Heine
Chantal Csajka
Zinnia P. Parra-Guillen
Charlotte Kloft
Publikationsdatum
01.02.2018
Verlag
Springer International Publishing
Erschienen in
Clinical Pharmacokinetics / Ausgabe 2/2018
Print ISSN: 0312-5963
Elektronische ISSN: 1179-1926
DOI
https://doi.org/10.1007/s40262-017-0555-z

Weitere Artikel der Ausgabe 2/2018

Clinical Pharmacokinetics 2/2018 Zur Ausgabe

Review Article

Review of the Clinical Pharmacokinetics and Pharmacodynamics of Alemtuzumab and Its Use in Kidney Transplantation

Original Research Article

An Open-Label Crossover Study of the Pharmacokinetics of the 60-mg Edoxaban Tablet Crushed and Administered Either by a Nasogastric Tube or in Apple Puree in Healthy Adults

Original Research Article

In Silico Dose Prediction for Long-Acting Rilpivirine and Cabotegravir Administration to Children and Adolescents

Review Article

Intracellular Pharmacokinetics of Antibacterials and Their Clinical Implications

Review Article

Clinical Pharmacokinetics of Systemically Administered Antileishmanial Drugs

Original Research Article

Safety and Tolerability of Intravenous Valproic Acid in Healthy Subjects: A Phase I Dose-Escalation Trial