Your search keyword '"Mooij, M.G. (Miriam)"' showing total 12 results

1. Proof of Concept: First Pediatric [14C]microtracer Study to Create Metabolite Profiles of Midazolam

Author

van Groen, B.D., van Duijn, E., Vries, A. (Anita) de, Mooij, M.G. (Miriam), Tibboel, D. (Dick), Vaes, W.H., de Wildt, S.N., van Groen, B.D., van Duijn, E., Vries, A. (Anita) de, Mooij, M.G. (Miriam), Tibboel, D. (Dick), Vaes, W.H., and de Wildt, S.N.

Published

2020

2. Impact of gastrointestinal physiology on drug absorption in special populations??An UNGAP review

Author

Stillhart, C., Vucicevic, K., Augustijns, P., Basit, A.W., Batchelor, H., Flanagan, T.R., Gesquiere, I., Greupink, R., Keszthelyi, D., Koskinen, M., Madla, C.M., Matthys, C., Miljus, G., Mooij, M.G. (Miriam), Parrott, N., Ungell, A.L., Wildt, S.N. (Saskia) de, Orlu, M., Klein, S. (Stefan), Mullertz, A., Stillhart, C., Vucicevic, K., Augustijns, P., Basit, A.W., Batchelor, H., Flanagan, T.R., Gesquiere, I., Greupink, R., Keszthelyi, D., Koskinen, M., Madla, C.M., Matthys, C., Miljus, G., Mooij, M.G. (Miriam), Parrott, N., Ungell, A.L., Wildt, S.N. (Saskia) de, Orlu, M., Klein, S. (Stefan), and Mullertz, A.

Abstract

drug and its formulation, as well as by the anatomy and physiology of the gastrointestinal (GI) tract. During drug development the bioavailability of a new drug is typically assessed in early clinical studies in a healthy adult population. However, many disease conditions are associated with an alteration of the anatomy and/or physiology of the GI tract. The same holds true for some subpopulations, such as paediatric or elderly patients, or populations with different ethnicity. The variation in GI tract conditions compared to healthy adults can directly affect the kinetics of drug absorption, and thus, safety and efficacy of an oral medication. This review provides an overview of GI tract properties in special populations compared to healthy adults and discusses how drug absorption is affected by these conditions. Particular focus is directed towards non-disease dependent conditions (age, sex, ethnicity, genetic factors, obesity, pregnancy), GI diseases (ulcerative colitis and Crohn's disease, celiac disease, cancer in the GI tract

Published

2020

3. Proteomics of human liver membrane transporters: a focus on fetuses and newborn infants

Author

van Groen, B.D. (Bianca D.), van de Steeg, E. (Evita), Mooij, M.G. (Miriam), Lipzig, M.M.H. (Marola M.) van, Koning, B.A.E. (Barbara) de, Verdijk, R.M. (Robert), Wortelboer, H.M. (Heleen M.), Gaedigk, R. (Roger), Bi, C. (Chengpeng), Leeder, J.S., Schaik, R.H.N. (Ron) van, Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), Vaes, W.H.J. (Wouter H. J.), Wildt, S.N. (Saskia) de, van Groen, B.D. (Bianca D.), van de Steeg, E. (Evita), Mooij, M.G. (Miriam), Lipzig, M.M.H. (Marola M.) van, Koning, B.A.E. (Barbara) de, Verdijk, R.M. (Robert), Wortelboer, H.M. (Heleen M.), Gaedigk, R. (Roger), Bi, C. (Chengpeng), Leeder, J.S., Schaik, R.H.N. (Ron) van, Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), Vaes, W.H.J. (Wouter H. J.), and Wildt, S.N. (Saskia) de

Abstract

Background: Hepatic membrane transporters are involved in the transport of many endogenous and exogenous compounds, including drugs. We aimed to study the relation of age with absolute transporter protein expression in a cohort of 62 mainly fetus and newborn samples. Methods: Protein expressions of BCRP, BSEP, GLUT1, MCT1, MDR1, MRP1, MRP2, MRP3, NTCP, OCT1, OATP1B1, OATP1B3, OATP2B1 and ATP1A1 were quantified with LC-MS/MS in isolated crude membrane fractions of snap-frozen post-mortem fetal and pediatric, and surgical adult liver samples. mRNA expression was quantified using RNA sequencing, and genetic variants with TaqMan assays. We explored relationships between protein expression and age (gestational age [GA], postnatal age [PNA], and postmenstrual age); between protein and mRNA expression; and between protein expression and genotype. Results: We analyzed 36 fetal (median GA 23.4 weeks [range 15.3–41.3]), 12 premature newborn (GA 30.2 weeks [24.9–36.7], PNA 1.0 weeks [0.14–11.4]), 10 term newborn (GA 40.0 weeks [39.7–41.3], PNA 3.9 weeks [0.3–18.1]), 4 pediatric (PNA 4.1 years [1.1–7.4]) and 8 adult liver samples. A relationship with age was found for BCRP, BSEP, GLUT1, MDR1, MRP1, MRP2, MRP3, NTCP, OATP1B1 and OCT1, with the strongest relationship for postmenstrual age. For most transporters mRNA and protein expression were not correlated. No genotype-protein expression relationship was detected. Discussion and conclusion: Various developmental patterns of protein expression of hepatic transporters emerged in fetuses and newborns up to four months of age. Postmenstrual age was the most robust factor predicting transporter expression in this cohort. Our data fill an important gap in current pediatric transporter ontogeny knowledge.

Published

2018

4. Successful Use of [14C]Paracetamol Microdosing to Elucidate Developmental Changes in Drug Metabolism

Author

Mooij, M.G. (Miriam), van Duijn, E. (Esther), Knibbe, C.A.J. (Catherijne), Allegaert, K.M. (Karel), Windhorst, J. (Judith), Rosmalen, J.M. (Joost) van, Hendrikse, N.H. (N. Harry), Tibboel, D. (Dick), Vaes, W.H.J. (Wouter H. J.), Wildt, S.N. (Saskia) de, Mooij, M.G. (Miriam), van Duijn, E. (Esther), Knibbe, C.A.J. (Catherijne), Allegaert, K.M. (Karel), Windhorst, J. (Judith), Rosmalen, J.M. (Joost) van, Hendrikse, N.H. (N. Harry), Tibboel, D. (Dick), Vaes, W.H.J. (Wouter H. J.), and Wildt, S.N. (Saskia) de

Abstract

Background: We previously showed the practical and ethical feasibility of using [14C]-microdosing for pharmacokinetic studies in children. We now aimed to show that this approach can be used to elucidate developmental changes in drug metabolism, more specifically, glucuronidation and sulfation, using [14C]paracetamol (AAP). Methods: Infants admitted to the intensive care unit received a single oral [14C]AAP microdose while receiving intravenous therapeutic AAP every 6 h. [14C]AAP pharmacokinetic parameters were estimated. [14C]AAP and metabolite

Published

2017

5. Short-Term Health-Related Quality of Life of Critically Ill Children Following Daily Sedation Interruption

Author

Vet, N.J. (Nienke), De Wildt, S.N. (Saskia N.), Verlaat, C.W.M. (Carin), Mooij, M.G. (Miriam), Tibboel, D. (Dick), Hoog, M. (Matthijs) de, Buysse, C.M.P. (Corinne), Vet, N.J. (Nienke), De Wildt, S.N. (Saskia N.), Verlaat, C.W.M. (Carin), Mooij, M.G. (Miriam), Tibboel, D. (Dick), Hoog, M. (Matthijs) de, and Buysse, C.M.P. (Corinne)

Abstract

Copyright

Published

2016

6. Development of Human Membrane Transporters: Drug Disposition and Pharmacogenetics

Author

Mooij, M.G. (Miriam), Nies, A.T. (Anne T.), Knibbe, C.A.J. (Catherijne), Schaeffeler, E. (Elke), Tibboel, D. (Dick), Schwab, M. (Matthias), Wildt, S.N. (Saskia) de, Mooij, M.G. (Miriam), Nies, A.T. (Anne T.), Knibbe, C.A.J. (Catherijne), Schaeffeler, E. (Elke), Tibboel, D. (Dick), Schwab, M. (Matthias), and Wildt, S.N. (Saskia) de

Abstract

Membrane transporters play an essential role in the transport of endogenous and exogenous compounds, and consequently they mediate the uptake, distribution, and excretion of many drugs. The clinical relevance of transporters in drug disposition and their effect in adults have been shown in drug–drug interaction and pharmacogenomic studies. Little is known, however, about the ontogeny of human membrane transporters and their roles in pediatric pharmacotherapy. As they are involved in the transport of endogenous substrates, growth and development may be important determinants of their expression and activity. This review presents an overview of our current knowledge on human membrane transporters in pediatric drug disposition and effect. Existing pharmacokinetic and pharmacogenetic data on membrane substrate drugs frequently used in children are presented and related, where possible, to existing ex vivo data, providing a basis for developmental patterns for individual human membrane transporters. As data for individual transporters are currently still scarce, there is a striking information gap regarding the role of human membrane transporters in drug therapy in children.

Published

2016

7. A randomized controlled trial of daily sedation interruption in critically ill children

Author

Vet, N.J. (Nienke), Wildt, S.N. (Saskia) de, Verlaat, C.W.M. (Carin), Knibbe, C.A.J. (Catherijne), Mooij, M.G. (Miriam), Woensel, J.B. (Job) van, Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), Hoog, M. (Matthijs) de, Vet, N.J. (Nienke), Wildt, S.N. (Saskia) de, Verlaat, C.W.M. (Carin), Knibbe, C.A.J. (Catherijne), Mooij, M.G. (Miriam), Woensel, J.B. (Job) van, Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), and Hoog, M. (Matthijs) de

Abstract

Purpose: To compare daily sedation interruption plus protocolized sedation (DSI + PS) to protocolized sedation only (PS) in critically ill children. Methods: In this multicenter randomized controlled trial in three pediatric intensive care units in the Netherlands, mechanically ventilated critically ill children with need for sedative drugs were included. They were randomly assigned to either DSI + PS or PS only. Children in both study arms received sedation adjusted on the basis of validated sedation scores. Provided a safety screen was passed, children in the DSI + PS group received daily blinded infusions of saline; children in the PS group received blinded infusions of the previous sedatives/analgesics. If a patient’s sedation score indicated distress, the blinded infusions were discontinued, a bolus dose of midazolam was given and the ‘open’ infusions were resumed: DSI + PS at half of infusion rate, PS at previous infusion rate. The primary endpoint was the number of ventilator-free days at day 28. Data were analyzed by intention to treat. Results: From October 2009 to August 2014, 129 children were randomly assigned to DSI + PS (n = 66) or PS (n = 63). The study was terminated prematurely due to slow recruitment rates. Median number of ventilator-free days did not differ: DSI + PS 24.0 days (IQR 21.6–25.8) versus PS 24.0 days (IQR 20.6–26.0); median difference 0.02 days (95 % CI −0.91 to 1.09), p = 0.90. Median ICU and hospital length of stay were similar in both groups: DSI + PS 6.9 days (IQR 5.2–11.0) versus PS 7.4 days (IQR 5.3–12.8), p = 0.47, and DSI + PS 13.3 days (IQR 8.6–26.7) versus PS 15.7 days (IQR 9.3–33.2), p = 0.19, respectively. Mortality at 30 days was higher in the DSI + PS group than in the PS group (6/66 versus 0/63, p = 0.03), though no causal relationship to the intervention could be established. Median cumulative midazolam dose did not differ: DSI + PS 14.1 mg/kg (IQR 7.6–22.6) versus PS 17.0 mg/kg (IQR 8.2–39.8), p = 0.11. Conclusion: In

Published

2016

8. Pediatric Microdose and Microtracer Studies Using 14C in Europe

Author

Turner, M.A., Mooij, M.G. (Miriam), Vaes, W.H.J. (Wouter H. J.), Windhorst, A.D. (Albert), Hendrikse, N.H. (N. Harry), Knibbe, C.A.J. (Catherijne), Kõrgvee, L.T., Maruszak, W., Grynkiewicz, G., Garner, R.C., Tibboel, D. (Dick), Park, B.K., Wildt, S.N. (Saskia) de, Turner, M.A., Mooij, M.G. (Miriam), Vaes, W.H.J. (Wouter H. J.), Windhorst, A.D. (Albert), Hendrikse, N.H. (N. Harry), Knibbe, C.A.J. (Catherijne), Kõrgvee, L.T., Maruszak, W., Grynkiewicz, G., Garner, R.C., Tibboel, D. (Dick), Park, B.K., and Wildt, S.N. (Saskia) de

Abstract

Important information gaps remain on the efficacy and safety of drugs in children. Pediatric drug development encounters several ethical, practical, and scientific challenges. One barrier to the evaluation of medicines for children is a lack of innovative methodologies that have been adapted to the needs of children. This article presents our successful experience of pediatric microdose and microtracer studies using 14C-labeled probes in Europe to illustrate the strengths and limitations of these approaches.

Published

2015

9. Daily interruption of sedation in critically ill children: Study protocol for a randomized controlled trial

Author

Vet, N.J. (Nienke), Wildt, S.N. (Saskia) de, Verlaat, C.W.M. (Carin), Knibbe, C.A.J. (Catherijne), Mooij, M.G. (Miriam), Hop, W.C.J. (Wim), Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), Hoog, M. (Matthijs) de, Lemson, J. (J.), Woensel, J.B. (Job) van, Roeleveld, N. (Nel), Jansen, N.J.G. (Nicolaas J.), Kneyber, M.C.J. (Martin), Vet, N.J. (Nienke), Wildt, S.N. (Saskia) de, Verlaat, C.W.M. (Carin), Knibbe, C.A.J. (Catherijne), Mooij, M.G. (Miriam), Hop, W.C.J. (Wim), Rosmalen, J.M. (Joost) van, Tibboel, D. (Dick), Hoog, M. (Matthijs) de, Lemson, J. (J.), Woensel, J.B. (Job) van, Roeleveld, N. (Nel), Jansen, N.J.G. (Nicolaas J.), and Kneyber, M.C.J. (Martin)

Abstract

Background: In adult patients who are critically ill and mechanically ventilated, daily interruption of sedation (DSI) is an effective method of improving sedation management, resulting in a decrease of the duration of mechanical ventilation, the length of stay in the intensive care unit (ICU) and the length of stay in the hospital. It is a safe and effective approach and is common practice in adult ICUs. For critically ill children it is unknown if DSI is effective and feasible. The aim of this multicenter randomized controlled trial is to evaluate the safety and e

Published

2014

10. Pediatric Microdose Study of [14C]Paracetamol to Study Drug Metabolism Using Accelerated Mass Spectrometry: Proof of Concept

Author

Mooij, M.G. (Miriam), van Duijn, E. (Esther), Knibbe, C.A.J. (Catherijne), Windhorst, A.D. (Albert), Hendrikse, N.H. (N. Harry), Vaes, W.H.J. (Wouter H. J.), Spaans, E. (Edwin), Fabriek, B.O. (Babs), Sandman, H. (Hugo), Grossouw, D. (Dimitri), Hanff, L.M. (Lidwien), Janssen, P.J.J.M. (Paul), Koch, B.C.P. (Birgit C. P.), Tibboel, D. (Dick), Wildt, S.N. (Saskia) de, Mooij, M.G. (Miriam), van Duijn, E. (Esther), Knibbe, C.A.J. (Catherijne), Windhorst, A.D. (Albert), Hendrikse, N.H. (N. Harry), Vaes, W.H.J. (Wouter H. J.), Spaans, E. (Edwin), Fabriek, B.O. (Babs), Sandman, H. (Hugo), Grossouw, D. (Dimitri), Hanff, L.M. (Lidwien), Janssen, P.J.J.M. (Paul), Koch, B.C.P. (Birgit C. P.), Tibboel, D. (Dick), and Wildt, S.N. (Saskia) de

Abstract

Results: Ten infants (aged 0.1–83.1 months) were included; one was excluded as he vomited shortly after administration. In nine patients, [14C]AAP and metabolites in blood samples were detectable at expected concentrations: median (range) maximum concentration (Cmax) [14C]AAP 1.68 (0.75–4.76) ng/L, [14C]AAP-Glu 0.88 (0.34–1.55) ng/L, and [14C]AAP-4Sul 0.81 (0.29–2.10) ng/L. Dose-normalized oral [14C]AAP Cmax approached median intravenous average concentrations (Cav): 8.41 mg/L (3.75–23.78 mg/L) and 8.87 mg/L (3.45–12.9 mg/L), respectively.Conclusions: We demonstrate the feasibility of using a [14C]labeled microdose to study AAP pharmacokinetics, including metabolite disposition, in young children.Background: Pediatric drug development is hampered by practical, ethical, and scientific challenges. Microdosing is a promising new method to obtain pharmacokinetic data in children with minimal burden and minimal risk. The use of a labeled oral microdose offers the added benefit to study intestinal and hepatic drug disposition in children already receiving an intravenous therapeutic drug dose for clinical reasons.Methods: In an open-label microdose pharmacokinetic pilot study, infants (0–6 years of age) received a single oral [14C]AAP microdose (3.3 ng/kg, 60 Bq/kg) in addition to intravenous therapeutic doses of AAP (15 mg/kg intravenous every 6 h). Blood samples were taken from an indwelling catheter. AAP blood concentrations were measured by liquid chromatography–tandem mass spectrometry (LC-MS/MS) and [14C]AAP and metabolites ([14C]AAP-Glu and [14C]AAP-4Sul) were measured by accelerator mass spectrometry.Objective: The objective of this study was to present pilot data of an oral [14C]paracetamol [acetaminophen (AAP)] microdosing study as proof of concept to study developmental pharmacokinetics in children.

Published

2014

11. Ontogeny of human hepatic and intestinal transporter gene expression during childhood: Age matters

Author

Mooij, M.G. (Miriam), Schwarz, U.I. (Ute), Koning, B.A.E. (Barbara) de, Leeder, D., Gaedigk, R. (Roger), Samsom, J.N. (Janneke), Spaans, E. (Edwin), Goudoever, J.B. (Hans) van, Tibboel, D. (Dick), Kim, R.B. (Richard), Wildt, S.N. (Saskia) de, Mooij, M.G. (Miriam), Schwarz, U.I. (Ute), Koning, B.A.E. (Barbara) de, Leeder, D., Gaedigk, R. (Roger), Samsom, J.N. (Janneke), Spaans, E. (Edwin), Goudoever, J.B. (Hans) van, Tibboel, D. (Dick), Kim, R.B. (Richard), and Wildt, S.N. (Saskia) de

Abstract

Many drugs prescribed to children are drug transporter substrates. Drug transporters are membrane-bound proteins that mediate the cellular uptake or efflux of drugs and are important to drug absorption and elimination. Very limited data are available on the effect of age on transporter expression. Our study assessed age-related gene expression of hepatic and intestinal drug transporters. Multidrug resistance protein 2 (MRP2), organic anion transporting polypeptide 1B1 (OATP1B1), and OATP1B3 expression was determined in postmortem liver samples (fetal n = 6, neonatal n = 19, infant n = 7, child n = 2, adult n = 11) and multidrug resistance 1 (MDR1) expression in 61 pediatric liver samples. Intestinal expression of MDR1, MRP2, and OATP2B1 was determined in surgical small bowel samples (neonates n = 15, infants n = 3, adults n = 14). Using real-time reverse-transcription polymerase chain reaction, we measured fetal and pediatric gene expression relative to 18S rRNA (liver) and villin (intestines), and we compared it with adults using the 22 -Delta;Delta;Ct method. Hepatic expression of MRP2, OATP1B1, and OATP1B3 in all pediatric age groups was significantly lower than in adults. Hepatic MDR1 mRNA expression in fetuses, neonates, and infants was significantly lower than in adults. Neonatal intestinal expressions of MDR1 and MRP2 were comparable to those in adults. Intestinal OATP2B1 expression in neonates was significantly higher than in adults. We provide new data that show organ- and transporter-dependent differences in hepatic and intestinal drug transporter expression in an age-dependent fashion. This suggests that substrate drug absorption mediated by these transp

Published

2014

12. Review: Ontogeny of oral drug absorption processes in children

Author

Mooij, M.G. (Miriam), Koning, B.A.E. (Barbara) de, Huijsman, M.L. (Mark), Wildt, S.N. (Saskia) de, Mooij, M.G. (Miriam), Koning, B.A.E. (Barbara) de, Huijsman, M.L. (Mark), and Wildt, S.N. (Saskia) de

Abstract

A large proportion of prescribed drugs to children are administered orally. Age-related change in factors affecting oral absorption can have consequences for drug dosing. Areas covered: For each process affecting oral drug absorption, a systematic search has been performed using Medline to identify relevant articles (from inception till February 2012) in humans. This review presents the findings on age-related changes of the following processes affecting oral drug absorption: gastric pH, gastrointestinal motility, bile salts, pancreatic function, intestinal pH, intestinal drug-metabolizing enzymes and transporter proteins. Expert opinion: Clinicians should bear in mind the ontogeny of oral drug absorption processes when prescribing oral drugs to children. The authors’ review shows large information gaps on almost all drug absorption processes. It is important that more knowledge is acquired on intestinal transit time, intestinal pH and the ontogeny of intestinal drug-metabolizing enzymes and drug transporter proteins. Furthermore, the ultimate goal in this field should be to predict more precisely the oral disposition of drugs in children across the entire pediatric age range.

Published

2012