Exposure–response analyses of blood pressure and heart rate changes for methylphenidate in healthy adults

The aim of the study was to evaluate the exposure–response (E–R) relationships of blood pressure (BP) and heart rate (HR) changes in healthy adults taking methylphenidate (MPH). Intensive time profiles of BP and HR from healthy adults in placebo and MPH treatment arms of seven clinical trials from t...

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Veröffentlicht in:	Journal of pharmacokinetics and pharmacodynamics 2017-06, Vol.44 (3), p.245-262
Hauptverfasser:	Li, Liang, Wang, Yaning, Uppoor, Ramana S., Mehta, Mehul U., Farchione, Tiffany, Mathis, Mitchell V., Zhu, Hao
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Aged Biochemistry Biomedical and Life Sciences Biomedical Engineering and Bioengineering Biomedicine Blood levels Blood pressure Blood Pressure - drug effects Blood Pressure Determination - methods Circadian rhythm Circadian Rhythm - drug effects Circadian rhythms Clinical trials Clinical Trials as Topic Delayed-Action Preparations - adverse effects Delayed-Action Preparations - therapeutic use Dose-response effects Dose-Response Relationship, Drug Exposure Female Healthy Volunteers Heart rate Heart Rate - drug effects Humans Male Methylphenidate Methylphenidate - adverse effects Methylphenidate - therapeutic use Original Paper Pharmacology/Toxicology Pharmacy Placebo effect Placebos Time lag Veterinary Medicine/Veterinary Science Young Adult
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container_title	Journal of pharmacokinetics and pharmacodynamics
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creator	Li, Liang Wang, Yaning Uppoor, Ramana S. Mehta, Mehul U. Farchione, Tiffany Mathis, Mitchell V. Zhu, Hao
description	The aim of the study was to evaluate the exposure–response (E–R) relationships of blood pressure (BP) and heart rate (HR) changes in healthy adults taking methylphenidate (MPH). Intensive time profiles of BP and HR from healthy adults in placebo and MPH treatment arms of seven clinical trials from the FDA internal database were utilized for this analysis. The analysis model contains a circadian component for placebo effect and an E–R component to describe drug effect. Internal validation was performed using goodness-of-fit plots and visual predictive check. A meta-database based on a systemic literature search was constructed and used for external validation of the developed models. We found that circadian models could quantify the time profiles of BP/HR in placebo arms. Linear models could describe the correlations between MPH concentrations, and BP/HR changes. The BP and HR changes were highly dependent on the shapes of MPH pharmacokinetic (PK) profiles without an apparent time delay. MPH has the greatest effect on HR, followed by systolic BP, and diastolic BP. Internal validation revealed that the developed models could adequately describe the circadian rhythms of HR and BP in placebo arms and the E–R relationships of MPH. External validation showed the models had good predictive capability of the literature data. In conclusion, the developed models adequately characterized the circadian rhythm and the MPH induced effects on BP and HR. The changes in BP and HR were highly correlated with MPH blood levels with no apparent delay. The time courses of BP and HR are similar to the MPH PK profiles. As a result, the immediate-release formulation may yield larger maximum BP and HR effect than the extended-release formulation under similar dose.
doi_str_mv	10.1007/s10928-017-9513-5
format	Article
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Intensive time profiles of BP and HR from healthy adults in placebo and MPH treatment arms of seven clinical trials from the FDA internal database were utilized for this analysis. The analysis model contains a circadian component for placebo effect and an E–R component to describe drug effect. Internal validation was performed using goodness-of-fit plots and visual predictive check. A meta-database based on a systemic literature search was constructed and used for external validation of the developed models. We found that circadian models could quantify the time profiles of BP/HR in placebo arms. Linear models could describe the correlations between MPH concentrations, and BP/HR changes. The BP and HR changes were highly dependent on the shapes of MPH pharmacokinetic (PK) profiles without an apparent time delay. MPH has the greatest effect on HR, followed by systolic BP, and diastolic BP. Internal validation revealed that the developed models could adequately describe the circadian rhythms of HR and BP in placebo arms and the E–R relationships of MPH. External validation showed the models had good predictive capability of the literature data. In conclusion, the developed models adequately characterized the circadian rhythm and the MPH induced effects on BP and HR. The changes in BP and HR were highly correlated with MPH blood levels with no apparent delay. The time courses of BP and HR are similar to the MPH PK profiles. 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Internal validation revealed that the developed models could adequately describe the circadian rhythms of HR and BP in placebo arms and the E–R relationships of MPH. External validation showed the models had good predictive capability of the literature data. In conclusion, the developed models adequately characterized the circadian rhythm and the MPH induced effects on BP and HR. The changes in BP and HR were highly correlated with MPH blood levels with no apparent delay. The time courses of BP and HR are similar to the MPH PK profiles. 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Intensive time profiles of BP and HR from healthy adults in placebo and MPH treatment arms of seven clinical trials from the FDA internal database were utilized for this analysis. The analysis model contains a circadian component for placebo effect and an E–R component to describe drug effect. Internal validation was performed using goodness-of-fit plots and visual predictive check. A meta-database based on a systemic literature search was constructed and used for external validation of the developed models. We found that circadian models could quantify the time profiles of BP/HR in placebo arms. Linear models could describe the correlations between MPH concentrations, and BP/HR changes. The BP and HR changes were highly dependent on the shapes of MPH pharmacokinetic (PK) profiles without an apparent time delay. MPH has the greatest effect on HR, followed by systolic BP, and diastolic BP. Internal validation revealed that the developed models could adequately describe the circadian rhythms of HR and BP in placebo arms and the E–R relationships of MPH. External validation showed the models had good predictive capability of the literature data. In conclusion, the developed models adequately characterized the circadian rhythm and the MPH induced effects on BP and HR. The changes in BP and HR were highly correlated with MPH blood levels with no apparent delay. The time courses of BP and HR are similar to the MPH PK profiles. As a result, the immediate-release formulation may yield larger maximum BP and HR effect than the extended-release formulation under similar dose.</abstract><cop>New York</cop><pub>Springer US</pub><pmid>28214989</pmid><doi>10.1007/s10928-017-9513-5</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-3858-2048</orcidid></addata></record>
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subjects	Adult Aged Biochemistry Biomedical and Life Sciences Biomedical Engineering and Bioengineering Biomedicine Blood levels Blood pressure Blood Pressure - drug effects Blood Pressure Determination - methods Circadian rhythm Circadian Rhythm - drug effects Circadian rhythms Clinical trials Clinical Trials as Topic Delayed-Action Preparations - adverse effects Delayed-Action Preparations - therapeutic use Dose-response effects Dose-Response Relationship, Drug Exposure Female Healthy Volunteers Heart rate Heart Rate - drug effects Humans Male Methylphenidate Methylphenidate - adverse effects Methylphenidate - therapeutic use Original Paper Pharmacology/Toxicology Pharmacy Placebo effect Placebos Time lag Veterinary Medicine/Veterinary Science Young Adult
title	Exposure–response analyses of blood pressure and heart rate changes for methylphenidate in healthy adults
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