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Open Access 01-11-2020 | Pharmacokinetics | Original Research Article

Pipamperone Population Pharmacokinetics Related to Effectiveness and Side Effects in Children and Adolescents

Authors: Sanne M. Kloosterboer, Karin M. Egberts, Brenda C. M. de Winter, Teun van Gelder, Manfred Gerlach, Manon H. J. Hillegers, Gwen C. Dieleman, Soma Bahmany, Catrien G. Reichart, Emma van Daalen, Mirjam E. J. Kouijzer, Bram Dierckx, Birgit C. P. Koch

Published in: Clinical Pharmacokinetics | Issue 11/2020

Abstract

Background

Pipamperone is a frequently prescribed antipsychotic in children and adolescents in the Netherlands, Belgium, and Germany. However, pediatric pharmacokinetics and the relationship with side effects and efficacy are unknown. Currently, divergent pediatric dosing recommendations exist.

Objectives

The objective of this study was to describe the population pharmacokinetics of pipamperone in children and adolescents; to correlate measured and predicted pipamperone trough concentrations and predicted 24-h area under the curves with effectiveness, extrapyramidal symptoms, and sedation; and to propose dose recommendations based on simulations.

Methods

Pipamperone concentrations were collected from Dutch pediatric patients in a prospective naturalistic trial (n = 8), and German pediatric patients in a therapeutic drug monitoring service (n = 22). A total of 70 pipamperone concentrations were used to develop a population pharmacokinetic model with non-linear mixed-effects modeling (NONMEM^®). Additionally, an additional random sample of 21 German patients with 33 pipamperone concentrations from the same therapeutic drug monitoring service was used for external validation. Pharmacokinetic parameters were related to clinical improvement, sedation, and extrapyramidal symptoms. Simulations were performed to determine optimal dosages.

Results

In a one-compartment model, the apparent volume of distribution was 416 L/70 kg and the apparent clearance was 22.1 L/h/70 kg. Allometric scaling was used to correct for differences in bodyweight. The model was successfully externally validated. The median [25th–75th percentile] measured pipamperone trough concentrations were numerically higher in responders (98.0 µg/L [56.0–180.5 µg/L]) than in non-responders (58.0 µg/L [14.9–105.5 µg/L]), although non-significant (p = 0.14). A twice-daily 0.6-mg/kg dosage was better than a fixed dosage to attain the concentration range observed in responders.

Conclusions

Our findings suggest that pipamperone therapeutic reference ranges may be lower for children with behavioral problems than recommended for adults with psychotic symptoms (100–400 µg/L). When dosing pipamperone in children and adolescents, bodyweight should be taken into account.

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Kloosterboer SM, Schuiling-Veninga CCM, Bos JHJ, Kalverdijk LJ, Koch BCP, Dieleman GC, et al. Antipsychotics in Dutch youth: prevalence, dosages, and duration of use from 2005 to 2015. J Child Adolesc Psychopharmacol. 2018. https://doi.org/10.1089/cap.2017.0155.CrossRefPubMed

Schroder C, Dorks M, Kollhorst B, Blenk T, Dittmann RW, Garbe E, et al. Outpatient antipsychotic drug use in children and adolescents in Germany between 2004 and 2011. Eur Child Adolesc Psychiatry. 2017;26(4):413–20.CrossRef

Deboosere E, Steyaert J, Danckaerts M. Trends in antipsychotics use by Belgian children and adolescents between 2005 and 2014 [in Dutch]. Tijdschr Psychiatr. 2017;59(6):329–38.PubMed

Eumedica NV. Summary of Product Characteristics in the Netherlands. 2018. Accessible via the Medicines Information Bank of the CBG medicines information board of the Netherlands. Version 031. https://www.geneesmiddeleninformatiebank.nl/smpc/h00183_smpc.pdf. Accessed 10 Apr 2019.

Moleman P. Praktische psychofarmacologie. 5th ed. Houten: Prelum; 2009.

Purkayastha S, Raven PB. The functional role of the alpha-1 adrenergic receptors in cerebral blood flow regulation. Indian J Pharmacol. 2011;43(5):502–6.CrossRef

Nuyts A. The treatment of chronic psychoses with dipiperon-R 3345. Acta Neurol Psychiatr Belg. 1963;63:326–32.PubMed

Ansoms C, Backer-Dierick GD, Vereecken JL. Sleep disorders in patients with severe mental depression: double-blind placebo-controlled evaluation of the value of pipamperone (Dipiperon). Acta Psychiatr Scand. 1977;55(2):116–22.CrossRef

Mehler-Wex CRM, Warnke A. Aggressive and autoaggressive behavior, impulse control disorder and conduct disorder. In: Gerlach M, Warnke A, Greenhill L, editors. Psychiatric drugs in children and adolescents. Basic pharmacology and practical applications. 1st ed. Wien: Springer; 2014. p. 337–350.

10.

Freitag CMJT. Autism spectrum disorders. In: Gerlach M, Warnke A, Greenhill L, editors. Psychiatric drugs in children and adolescents. Basic pharmacology and practical applications. 1st ed. Wien: Springer; 2014. p. 383–403.

11.

Dutch Society for Intellectual Disability Physicians (NVAG). Guideline on prescribing psychotropic medication [in Dutch: Voorschrijven van psychofarmaca]. 2016. Accessible through: https://nvavg.nl/wpcontent/uploads/2016/12/2016-Voorschrijven-van-psychofarmaca-webversie.pdf. Accessed 10 Apr 2019.

12.

Arbeitsgemeinschaft. Fachgesellschaften AdWM. Guideline Disorders of social behavior: Recommendations for care and treatment [in German: Störungen des Sozialverhaltens: Empfehlungen zur Versorgung und Behandlung]. 2016. Accessible through: https://www.awmf.org/uploads/tx_szleitlinien/028-020l_S3_Stoerungen_des_Sozialverhaltens_2018-09_1.pdf. Accessed 10 Apr 2019.

13.

de Voxvrie GR, De Bie M. Character neuroses and behavioural disorders in children: their treatment with pipamperone (Dipiperon): a clinical study. Acta Psychiatr Belg. 1976;76(4):688–95.

14.

Muller-Kuppers M. Dipiperon treatment in a psychiatric out-patient clinic for children and youths [in German]. Acta Paedopsychiatr. 1971;38(2):40–6.PubMed

15.

Neuraxpharm. Summary of product characteristics in Germany. 2018. Accessible through: https://www.neuraxpharm.de/download/pipamperon-neuraxpharm-tablette. Accessed 10 Apr 2019.

16.

Kinderformularium. Pipamperon (als dihydrochloride). 2018. https://www.kinderformularium.nl/geneesmiddel/223/pipamperon-als-dihydrochloride. Accessed 21 Apr 2020.

17.

Eumedica NV. Summary of Product Characteristics (Belgium). Version 3.0. 2013. Accessible through: http://bijsluiters.fagg-afmps.be/?localeValue=nl. Accessed 10 Apr 2019.

18.

Amery WKDJ. Pipamperone (Dipiperon, R 3345) bij de behandeling van gedrags-en karakterstoornissen. Een multicentrisch oriënterend onderzoek. Tijdschrift voor Psychiatrie. 1970;12:403–11.

19.

Correll CU, Manu P, Olshanskiy V, Napolitano B, Kane JM, Malhotra AK. Cardiometabolic risk of second-generation antipsychotic medications during first-time use in children and adolescents. JAMA. 2009;302(16):1765–73.CrossRef

20.

Correll CU, Lencz T, Malhotra AK. Antipsychotic drugs and obesity. Trends Mol Med. 2011;17(2):97–107.CrossRef

21.

Potgieter GE, Groenewoud G, Jordaan PJ, Hundt HK, Schall R, Kummer M, et al. Pharmacokinetics of pipamperone from three different tablet formulations. Arzneimittelforschung. 2002;52(6):430–4.PubMed

22.

Luhmann I, Szathmary SC, Grunert I. Determination of pipamperone in human plasma by high performance liquid chromatography. Arzneimittelforschung. 1992;42(9):1069–72.PubMed

23.

American Psychiatric Association. Diagnostic and statistical manual of mental disorders. 4th ed. Washington: American Psychiatric Association; 2000.

24.

American Psychiatric Association. Diagnostic and statistical manual of mental disorders. 5th ed. Washington: American Psychiatric Association; 2013.CrossRef

25.

Egberts K, Karwautz A, Plener PL, Mehler-Wex C, Kolch M, Dang SY, et al. Pharmacovigilance in child and adolescent psychiatry [in German]. Z Kinder Jugendpsychiatr Psychother. 2015;43(1):21–8.CrossRef

26.

Wijma RA, van der Nagel BC, Dierckx B, Dieleman GC, Touw DJ, van Gelder T, et al. Identification and quantification of the antipsychotics risperidone, aripiprazole, pipamperone and their major metabolites in plasma using ultra-high performance liquid chromatography-mass spectrometry. Biomed Chromatogr. 2016;30(6):794–801.CrossRef

27.

Tron C, Kloosterboer SM, van der Nagel BCH, Wijma RA, Dierckx B, Dieleman GC, et al. Dried blood spots combined with ultra-high-performance liquid chromatography-mass spectrometry for the quantification of the antipsychotics risperidone, aripiprazole, pipamperone, and their major metabolites. Ther Drug Monit. 2017;39(4):429–40.CrossRef

28.

Kloosterboer SM, de Winter BCM, Bahmany S, Al-Hassany L, Dekker A, Dieleman GC, et al. Dried blood spot analysis for therapeutic drug monitoring of antipsychotics: drawbacks of its clinical application. Ther Drug Monit. 2018;40(3):344–50.CrossRef

29.

WG. ECDEU assessment manual for psychopharmacology. Revised edition. Bethesda: US Department of Health Education and Welfare; 1976.

30.

Johns MW. A new method for measuring daytime sleepiness: the Epworth Sleepiness Scale. Sleep. 1991;14(6):540–5.CrossRef

31.

Horne R, Weinman J. Self-regulation and self-management in asthma: exploring the role of illness perceptions and treatment beliefs in explaining non-adherence to preventer medication. Psychol Health. 2002;17(1):17–32.CrossRef

32.

Tessier A, et al. Brief interventions for improving adherence in schizophrenia: A pilot study using electronic medication event monitoring. Psychiatry Res. 2020;285:112780. https://doi.org/10.1016/j.psychres.2020.112780.CrossRefPubMed

33.

Lingjaerde O, Ahlfors UG, Bech P, Dencker SJ, Elgen K. The UKU side effect rating scale: a new comprehensive rating scale for psychotropic drugs and a cross-sectional study of side effects in neuroleptic-treated patients. Acta Psychiatr Scand Suppl. 1987;334:1–100.CrossRef

34.

Karlsson MO, Savic RM. Diagnosing model diagnostics. Clin Pharmacol Ther. 2007;82(1):17–20.CrossRef

35.

Jonsson EN, Karlsson MO. Automated covariate model building within NONMEM. Pharm Res. 1998;15(9):1463–8.CrossRef

36.

Ette EI. Stability and performance of a population pharmacokinetic model. J Clin Pharmacol. 1997;37(6):486–95.CrossRef

37.

Bergstrand M, Hooker AC, Wallin JE, Karlsson MO. Prediction-corrected visual predictive checks for diagnosing nonlinear mixed-effects models. AAPS J. 2011;13(2):143–51.CrossRef

38.

Comets E, Brendel K, Mentre F. Computing normalised prediction distribution errors to evaluate nonlinear mixed-effect models: the npde add-on package for R. Comput Methods Programs Biomed. 2008;90(2):154–66.CrossRef

39.

Rotterdam EM. eLabgids. 2019. https://erasmusmc.elabgids.nl/. Accessed 1 Sep 2019.

40.

Hiemke C, Bergemann N, Clement HW, Conca A, Deckert J, Domschke K, et al. Consensus guidelines for therapeutic drug monitoring in neuropsychopharmacology: update 2017. Pharmacopsychiatry. 2018;51(1–02):9–62.

41.

Hiemke C. Concentration-effect relationships of psychoactive drugs and the problem to calculate therapeutic reference ranges. Ther Drug Monit. 2019;41(2):174–9.CrossRef

42.

Uchida H, Takeuchi H, Graff-Guerrero A, Suzuki T, Watanabe K, Mamo DC. Dopamine D2 receptor occupancy and clinical effects: a systematic review and pooled analysis. J Clin Psychopharmacol. 2011;31(4):497–502.CrossRef

43.

Correll CU, Carlson HE. Endocrine and metabolic adverse effects of psychotropic medications in children and adolescents. J Am Acad Child Adolesc Psychiatry. 2006;45(7):771–91.CrossRef

44.

Lencz T, Malhotra AK. Pharmacogenetics of antipsychotic-induced side effects. Dialogues Clin Neurosci. 2009;11(4):405–15.CrossRef

45.

Capiau S, Veenhof H, Koster RA, Bergqvist Y, Boettcher M, Halmingh O, et al. Official International Association for Therapeutic Drug Monitoring and Clinical Toxicology guideline: development and validation of dried blood spot-based methods for therapeutic drug monitoring. Ther Drug Monit. 2019;41(4):409–30.CrossRef

46.

Bengtsson F. Therapeutic drug monitoring of psychotropic drugs: TDM "nouveau". Ther Drug Monit. 2004;26(2):145–51.CrossRef

Title: Pipamperone Population Pharmacokinetics Related to Effectiveness and Side Effects in Children and Adolescents
Authors: Sanne M. Kloosterboer
Karin M. Egberts
Brenda C. M. de Winter
Teun van Gelder
Manfred Gerlach
Manon H. J. Hillegers
Gwen C. Dieleman
Soma Bahmany
Catrien G. Reichart
Emma van Daalen
Mirjam E. J. Kouijzer
Bram Dierckx
Birgit C. P. Koch
Publication date: 01-11-2020
Publisher: Springer International Publishing
Keywords: Pharmacokinetics
Pipamperone
Published in: Clinical Pharmacokinetics / Issue 11/2020
Print ISSN: 0312-5963
Electronic ISSN: 1179-1926
DOI: https://doi.org/10.1007/s40262-020-00894-y

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Springer Medicine

Pipamperone Population Pharmacokinetics Related to Effectiveness and Side Effects in Children and Adolescents

Abstract

Background

Objectives

Methods

Results

Conclusions

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Background

Objectives

Methods

Results

Conclusions

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