ORCID Profile
0000-0002-7345-4084
Current Organisations
University of Adelaide
,
University of South Australia
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Publisher: Wiley
Date: 04-1999
DOI: 10.1046/J.1365-2125.1999.00921.X
Abstract: To investigate the kinetics of CYP-mediated N-demethylation of methadone in human liver microsomes, and examine the role of stereoselectivity and CYP isoforms involved. The kinetics of 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) formation via N-demethylation of rac-, (R)- and (S)-methadone in human liver microsomes prepared from six liver s les were determined by h.p.l.c., and inhibition of metabolic function was studied using isoform-specific chemical inhibitors and monoclonal antibodies. Microsomes containing expressed CYP3A4, CYP2D6 and CYP2C19 were also used to examine the formation of EDDP. The V max, Km, and CLint values for the formation of EDDP from rac-, (R)- and (S)-methadone were in the ranges of 20-77 nmol mg-1 protein h-1, 125-252 microm, and 91-494 ml h-1 g-1 protein. Km and CLint values for (R)- and (S)-methadone were not statistically significantly different (P >0.05), while V max values for (S)-methadone were 15% (P=0.045) lower than for (R)-methadone. Expressed CYP3A4 and CYP2C19 showed similar reaction rates for both (R)- and (S)-methadone, while CYP2D6 did not catalyse this reaction. Selective chemical inhibitors of CYP3A (troleandomycin, ketoconazole) and monoclonal human CYP3A4 antibodies significantly inhibited (P<0.05) the formation of EDDP in a concentration dependent manner by up to 80%. Sulphaphenazole (CYP2C9) also significantly inhibited (P 0.05) effect. The N-demethylation of methadone in human liver microsomes is not markedly stereoselective, and is mediated mainly by CYP3A4 with the possible involvement of CYP2C9 and CYP2C19. Thus, the large interin idual variation reported for methadone pharmacokinetics may be due to variability in the expression of these CYP isoforms, and the reported stereoselectivity in the systemic clearance of methadone in vivo is not due to stereoselectivity in N-demethylation.
Publisher: Wiley
Date: 11-11-2010
Publisher: Elsevier BV
Date: 09-2016
Publisher: Wiley
Date: 28-07-2022
DOI: 10.1111/BCP.15462
Abstract: To investigate and characterise the pharmacokinetics of febuxostat and the effect of the covariates of renal function and body size descriptors on the pharmacokinetics of the drug. Blood s les (n = 239) were collected using sparse and rich s ling strategies from healthy (n = 9) and gouty (n = 29) subjects. Febuxostat plasma concentrations were measured by a validated high‐performance liquid chromatography method. Population pharmacokinetic analysis was performed using NONMEM. A common variability on bioavailability (FVAR) approach was used to test the effect of fed status on absorption parameters. Covariates were modelled using a power model. The time course of the plasma concentrations of febuxostat is best described by a two‐compartment model. In the final model, the population mean for apparent clearance (CL/F), apparent central volume of distribution (Vc/F), apparent peripheral volume of distribution (Vp/F), absorption rate constant (ka) and apparent intercompartmental clearance (Q/F) were 6.91 l h −1 , 32.8 l, 19.4 l, 3.6 h −1 and 1.25 l h −1 , respectively. The population parmater variability (coefficient of variation) for CL/F, Vc/F and Vp/F were 13.6, 22 and 19.5%, respectively. Food reduced the relative biovailability and ka by 67% and 87%, respectively. Renal function, as assessed by creatinine clearance, was a significant covariate for CL/F while body mass index was a significant covariate for Vc/F. Renal function and body mass index were significant covariates. Further work is warranted to investigate the clinical relevance of these results, notably as renal impairment and obesity are common occurrences in people with gout.
Publisher: Elsevier BV
Date: 10-2006
Publisher: Ovid Technologies (Wolters Kluwer Health)
Date: 08-2006
DOI: 10.1097/00007691-200608000-00012
Abstract: There is evidence that the apparent oral clearance of rac-methadone is induced during the early phase of methadone maintenance treatment. However, it is not known if this is due to changes in bioavailability or if this phenomenon is stereoselective. This knowledge can be obtained by administering a dose of stable-labeled methadone at selected times during ongoing treatment. Therefore, the authors developed a stereoselective high performance liquid chromatography-atmospheric pressure chemical ionization mass-spectrometry assay for the quantification of the enantiomers of methadone and a d(6)-labeled isotopomer. The compounds were quantified in a single assay after liquid-liquid extraction and stereoselective high performance liquid chromatograph with atmospheric pressure chemical ionization-mass spectrometry detection. The following ions were monitored: m/z 310.15 for unlabeled methadone m/z 316.15 for methadone-d(6) and m/z 313.15 for the methadone-d(3) (internal standard). Calibration curves ranged from 0.5 to 75 ng/mL for each compound. Extraction recovery was approximately 80% for all analytes, without evidence of differences between the unlabeled and stable-labeled compounds or concentration dependency. Minor ion promotion was observed (<15%) but this was identical for all analytes including the d(3)-labeled internal standard, with peak area ratios in extracted s les identical to control injections. The isotopomers did not alter each others' ionisation, even at 10:1 concentration ratios, and 10-fold diluted s les were within 10% of the nominal concentration. Assay performance was acceptable, with interassay and intra-assay bias and precision <10% for all compounds, including the upper and lower limits of quantitation. In conclusion, the assay was successfully applied to quantify the concentration of the methadone enantiomers of both orally administered unlabeled methadone and an intravenous 5 mg dose of methadone-d(6) in a patient receiving chronic oral methadone maintenance therapy.
Publisher: Wiley
Date: 22-04-2015
DOI: 10.1111/BCP.12553
Publisher: Elsevier BV
Date: 05-2015
DOI: 10.1016/J.VASCN.2015.03.004
Abstract: The analytical solutions to compartmental pharmacokinetic models are well known, but have not been presented in a form that easily allows for complex dosing regimen and changes in covariate arameter values that may occur at discrete times within and/or between dosing intervals. Laplace transforms were used to derive ADVAN-style analytical solutions for 1, 2, and 3 compartment pharmacokinetic linear models of intravenous and first-order absorption drug administration. The equations calculate the change in drug amounts in each compartment of the model over a time interval (t t = t2 - t1) accounting for any dose or covariate events acting in the time interval. The equations were coded in the R language and used to simulate the time-course of drug amounts in each compartment of the systems. The equations were validated against commercial software [NONMEM (Beal, Sheiner, Boeckmann, & Bauer, 2009)] output to assess their capability to handle both complex dosage regimens and the effect of changes in covariate arameter values that may occur at discrete times within or between dosing intervals. For all tested pharmacokinetic models, the time-course of drug amounts using the ADVAN-style analytical solutions were identical to NONMEM outputs to at least four significant figures, confirming the validity of the presented equations. To our knowledge, this paper presents the ADVAN-style equations for common pharmacokinetic models in the literature for the first time. The presented ADVAN-style equations overcome obstacles to implementing the classical analytical solutions in software, and have speed advantages over solutions using differential equation solvers. The equations presented in this paper fill a gap in the pharmacokinetic literature, and it is expected that these equations will facilitate the investigation of useful open-source software for modelling pharmacokinetic data.
Publisher: Elsevier BV
Date: 03-2008
DOI: 10.1016/J.CLINTHERA.2008.03.001
Abstract: The aim of this study was to compare the pharmacokinetic profile, as well as the efficacy and tolerability, of i.n. and i.v. administration of fentanyl in acute, episodic pain in patients undergoing third-molar extraction. In this randomized, double-blind, double-dummy, 2-way, crossover study, patients were randomized to receive 1 of 4 doses (75, 100, 150, or 200 microg) by both the i.n. and i.v. routes in random order, after each of 2 separate molar extractions (interval, >or=1 week). Venous blood s les were obtained for quantification of plasma fentanyl concentrations before and at 1, 3, 5, 7, 9, 12, 15, 25, 40, 60, 90, 120, and 180 minutes after administration. Pain scores (on an 11-point numeric rating scale) were recorded before and at 15, 30, 45, 60, 75, 90, 105, 120, 150, 180, 210, and 240 minutes. Patients indicated the times at which they perceived meaningful pain relief (onset of action) and at which analgesia ended (duration of effect), after which they were able to use rescue medication (time to rescue medication use). A total of 24 patients were enrolled (in all, 47 extractions) (46% male mean age, 24.1 years 94% white, 6% Asian). Mean T(max) values were 12.8 and 6.0 minutes (P<0.001), times to onset of analgesia were 7 and 2 minutes (P<0.001), and durations of effect were 56 and 59 minutes after i.n. and i.v. administration (P=NS), respectively. Differences in the onsets and durations of analgesia after i.n. and i.v. administration of single doses were not significantly different, and neither was the difference in overall analgesia, with pain scores returning to near-predose values at statistically similar times after dosing. Duration of effect was directly related to i.n. fentanyl dose, with significantly less use of rescue medication after i.n. than after i.v. administration (P<0.005). The i.n. and i.v. formulations were both well tolerated, with similar numbers of nasally related adverse events recorded for both routes of administration. Onsets and durations of analgesia were not significantly different between single doses of i.n. and i.v. fentanyl in these adults undergoing third-molar extraction. Both i.n. and i.v. administration were generally well tolerated.
Publisher: Elsevier BV
Date: 06-2016
DOI: 10.1016/J.REPROTOX.2016.04.008
Abstract: Despite the fact that fetal drug exposure is common, the disposition of drugs in the fetus is poorly understood. This study aimed to investigate fetal placental and non-placental disposition of rosiglitazone in the pregnant ewe. Steady state was reached after day 5 of fetal infusion, and were ∼1.8 fold higher than maternal concentrations (P<0.001). The AUC for fetal rosiglitazone concentration throughout the infusion was inversely correlated with placental and fetal weight. Metabolic activity of the fetal liver microsomes were ∼25 fold lower than maternal microsomes (P<0.001). The findings suggest that trans-placental transfer is the major route through which rosiglitazone is cleared from the fetal compartment, while non-placental hepatic elimination makes only a minor contribution. This supports a limited capacity of the fetus for eliminating this class of drugs, and highlights the potential for drug toxicity when administering pharmacotherapy to the mother/fetus in human pregnancy.
Publisher: Elsevier BV
Date: 2015
DOI: 10.1016/J.EJPS.2014.10.003
Abstract: The aim of this study was to develop population pharmacokinetic-pharmacodynamic models for morphine in experimental pain induced by skin heat and muscle pressure, and to evaluate the experimental pain models with regard to assessment of morphine pharmacodynamics. In a randomised, double-blind, placebo-controlled, crossover study, 39 healthy volunteers received an oral dose of 30mg morphine hydrochloride or placebo. Non-linear mixed effects modelling was used to describe the plasma concentrations of morphine and metabolites, and the analgesic effect of morphine on experimental pain in skin and muscle. Baseline pain metrics varied between in iduals and occasions, and were described with interin idual and interoccasion variability. Placebo-response did not change with time. For both pain metrics, morphine effect was proportional to baseline pain and was described with a linear model with interin idual variability on drug effect slope and linked to an effect compartment for muscle pressure. The models indicate that a steady-state morphine concentration of 21ng/ml causes 33% and 0.84% increases in stimulus intensity from baseline for muscle pressure and skin heat, respectively. The population pharmacokinetic-pharmacodynamic models developed in this study indicate that mechanical stimulation of muscle is a more clinically relevant pain stimulus for the assessment of morphine pharmacodynamics than thermal stimulation of skin.
Publisher: Wiley
Date: 03-09-2004
Publisher: Springer Science and Business Media LLC
Date: 27-04-2016
DOI: 10.1007/S11095-016-1917-1
Abstract: To establish an in vitro-in vivo correlation (IVIVC) model for Sporanox and SUBA-itraconazole formulations and to understand the impact of gastrointestinal (GI) pH and transit times on itraconazole dissolution and absorption. IVIVC was developed based on fed/fasted pharmacokinetic data from randomized cross-over trials, in vitro dissolution studies, and prior information about typical and between subject variability of GI pH and transit times. Data were analysed using the population modelling approach as implemented in NONMEM. Dissolution kinetics were described using first order models. The in vivo pharmacokinetics of itraconazole was described with a 2-compartment model with 4-transit absorption compartments. Pharmacokinetic profiles for fasted itraconazole periods were described based on the in vitro dissolution model, in vivo disposition model, and the prior information on GI pH and transit times. The IVIVC model indicated that drug dissolution in the fed state required an additional pH-independent dissolution pathway. The IVIVC models were presented in a 'Shiny' application. An IVIVC model was established and internally evaluated for the two itraconazole formulations. The IVIVC model provides more insight into the observed variability of itraconazole pharmacokinetics and indicated that GI pH and transit times influence in vivo dissolution and exposure.
Publisher: Wiley
Date: 16-09-2019
DOI: 10.1002/PSP4.12460
Publisher: Wiley
Date: 21-05-2016
DOI: 10.1111/JVP.12243
Abstract: Pimobendan is an inodilator used in the treatment of canine congestive heart failure (CHF). The aim of this study was to investigate the pharmacokinetics and cardiovascular effects of a nonaqueous oral solution of pimobendan using a single-dose, operator-blinded, parallel-dose study design. Eight healthy dogs were ided into two treatment groups consisting of water (negative control) and pimobendan solution. Plasma s les and noninvasive measures of cardiovascular function were obtained over a 24-h period following dosing. Pimobendan and its active metabolite were quantified using an ultra-high-performance liquid chromatography-mass spectrometer (UHPLC-MS) assay. The oral pimobendan solution was rapidly absorbed [time taken to reach maximum concentration (Tmax ) 1.1 h] and readily converted to the active metabolite (metabolite Tmax 1.3 h). The elimination half-life was short for both pimobendan and its active metabolite (0.9 and 1.6 h, respectively). Maximal cardiovascular effects occurred at 2-4 h after a single oral dose, with measurable effects occurring primarily in echocardiographic indices of systolic function. Significant effects persisted for <8 h. The pimobendan nonaqueous oral solution was well tolerated by study dogs.
Publisher: Springer Science and Business Media LLC
Date: 06-09-2019
Publisher: Public Library of Science (PLoS)
Date: 02-06-2017
Publisher: Springer Science and Business Media LLC
Date: 08-2005
DOI: 10.1007/S10928-005-0056-9
Abstract: The cerebral and lung kinetics of the enantiomers of methadone were quantified using a conscious chronically instrumented sheep preparation, as these organs are the major organs governing the peak brain concentrations (and therefore effects) of methadone after ivbolus administration. Seven sheep were administered intravenous infusions of rac-methadone (30 mg over 4 min). Whole blood (R)- and (S)-methadone concentrations were measured using stereoselective HPLC. Methadone transiently increased cardiac output (CO) and mean arterial pressure, but did not alter cerebral blood flow (CBF) or cause significant respiratory depression. Using physiologically based kinetic models, cerebral kinetics were inferred from arterio-sagittal sinus concentration gradients and CBF, lung kinetics from pulmonary artery-aortic gradient and CO. Lung and cerebral kinetics were best described by a partially membrane-limited model for both enantiomers. Lung kinetics displayed clear stereoselectivity, due to the smaller apparent volume of the deep lung compartment for (R)-methadone (45 l) compared to (S)-methadone (79 l). This resulted in systemic differences in the concentrations of the enantiomers. Minimal stereoselectivity was observed in cerebral kinetics. The brain:blood equilibration of methadone was slow (half-life of 18 min) due to intermediate permeability and large apparent cerebral distribution volumes. However, the permeability term was sufficiently high that cerebral kinetics were affected by CBF. Simulations demonstrated that if CBF was doubled, the equilibration half-life of methadone with brain tissue decreased by 30%, and there was a 25% increase in the peak brain concentrations. Future studies are needed to confirm the role of cerebral blood flow alterations in the exposure of the brain to methadone, especially in the case of respiratory depression. In conclusion, pharmacokinetic modelling of methadone confirmed a large equilibration delay between brain and blood.
Publisher: Springer Science and Business Media LLC
Date: 13-02-2017
DOI: 10.1007/S10928-017-9511-7
Abstract: Non-compartmental analysis (NCA) is regarded as the standard for establishing bioequivalence, despite its limitations and the existence of alternative methods such as non-linear mixed effects modelling (NLMEM). Comparisons of NCA and NLMEM in bioequivalence testing have been limited to drugs with one-compartment kinetics and have included a large number of different approaches. A simulation tool was developed with the ability to rapidly compare NCA and NLMEM methods in determining bioequivalence using both R and NONMEM and applied to a drug with two-compartment pharmacokinetics. Concentration-time profiles were simulated where relative bioavailability, random unexplained variability (RUV) at the lower limit of quantification (LLOQ) differed between simulations. NLMEM analyses employed either the M1 or M3 methods for dealing with values below the LLOQ. It was used to elucidate the impact of changes in (i) RUV at the LLOQ, (ii) the extent of censoring data below the LLOQ and (iii) the concentration s ling times. The simulations showed NLMEM having a consistent 20-40% higher accuracy and sensitivity in identifying bioequivalent studies when compared to NCA, while NCA was found to have a 1-10% higher specificity than NLMEM. Increasing data censoring by increasing the LLOQ resulted in decreases of ~10% to the accuracy and sensitivity of NCA, with minimal effects on NLMEM. The tool provides a platform for comparing NCA and NLMEM methods and its use can be extended beyond the scenarios reported here. In the situations examined it is seen that NLMEM is more accurate than NCA and may offer some advantages in the determination of bioequivalence.
Publisher: Elsevier BV
Date: 07-2000
DOI: 10.1016/S0378-4347(00)00246-2
Abstract: A stereoselective HPLC assay was developed for the quantification of the enantiomers of methadone and its major oxidative metabolite, 2-ethylidene-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) in human urine. The compounds were quantified in a single assay following liquid-liquid extraction and stereoselective HPLC with UV detection. Calibration curve concentrations ranged from 0.125 to 12.5 microM for each enantiomer. Assay performance was assessed using quality control s les, and the inter- and intra-assay bias (<10%) and precision (<15%) were acceptable for all compounds. The assay was successfully used to quantitate the enantiomers of methadone and EDDP in urine s les obtained from subjects receiving methadone maintenance therapy.
Publisher: Wiley
Date: 2006
Publisher: Springer Science and Business Media LLC
Date: 17-11-2018
DOI: 10.1007/S10928-017-9555-8
Abstract: The aim of this study was to develop a population in vitro-in vivo pharmacokinetic model that simultaneously describe the absorption and accumulation kinetics of itraconazole (ICZ) and hydroxy-itraconazole (HICZ) in healthy subjects. The model integrated meta-models of gastrointestinal pH and gastrointestinal transit time and in vitro dissolution models of ICZ with the absorption and disposition kinetics of ICZ and HICZ. Mean concentration intravenous data, and single- and multi-dose oral data were used for model development. Model development was conducted in NONMEM in a stepwise manner. First, a model of intravenous data (systemic kinetics) was established and then extended to include the oral data. The latter was then extended to establish the in vitro-in vivo pharmacokinetic model. The systemic disposition of ICZ was best described by a 3-compartment model with oral absorption described by 4-transit compartments and HICZ distribution by a 1-compartment model. ICZ clearance was best described using a mixed inhibition model that allowed HICZ concentrations to inhibit the clearance of parent drug. HICZ clearance was described by Michaelis-Menten elimination kinetics. An in vitro-in vivo model was successfully established for both formulations. The presented model was able to describe ICZ and HICZ plasma concentrations over a wide range of oral and intravenous doses and allowed the exploration of complexities associated with the non-linear ICZ and HICZ kinetics. The model may provide insight into the variability in exposure of ICZ with respect to relating in vivo dissolution characteristics with in vivo disposition kinetics.
Publisher: SAGE Publications
Date: 2022
DOI: 10.1177/1759720X221111613
Abstract: Rheumatoid arthritis (RA) is an inflammatory autoimmune condition associated with an increased risk of developing depression and anxiety. Depression and anxiety are associated with worse outcomes in RA, but the magnitude of the effect of each condition on RA outcomes is unclear. It is also unknown how pharmacological treatment of depression affects RA outcomes. The primary aim of this study was to investigate the association of comorbid depression and anxiety with remission in patients with RA. Secondary aims were to determine the association between comorbid depression and anxiety on patient-reported outcomes and the relationship between concomitant use of antidepressants and remission in patients with depression. Data from patients with moderate to severe RA were pooled from five randomised controlled trials investigating tocilizumab and conventional synthetic disease-modifying agents. Remission was defined as a clinical disease activity index (CDAI) of ⩽2.8 and simple disease activity index (SDAI) of ⩽3.3. The association between the time to reach remission and depression and anxiety was analysed using Cox proportional hazard analysis. In idual patient data were available from 5502 subjects, of whom 511 had depression, 236 had anxiety and 387 were using antidepressants. Depression was significantly associated with reduced remission [adjusted HR (95% CI): 0.62 (0.48–0.80), p 0.001 and adjusted HR (95% CI): 0.59 (0.44–0.79), p 0.001] using CDAI and SDAI, respectively. Depression was associated with a lower likelihood of achieving more subjective outcomes (⩽1 physician global assessment, ⩽1 patient global assessment) and ⩽1 28-swollen joint count, but not ⩽1 28-tender joint count or C-reactive protein measurement. Treatment with antidepressants did not improve outcomes for patients with depression. Anxiety was not significantly associated with RA remission. Comorbid depression, but not anxiety, was associated with less frequent remission. Concomitant antidepressant use was not associated with improvements in RA outcomes in patients with depression.
Publisher: Elsevier BV
Date: 03-2017
DOI: 10.1016/J.EJPB.2016.11.034
Abstract: This article reviews the major physiological and physicochemical principles of the effect of food and gastrointestinal (GI) pH on the absorption and bioavailability of oral drugs, and the various absorption models that are used to describe redict oral drug absorption. The rate and extent of oral drug absorption is determined by a complex interaction between a drug's physicochemical properties, GI physiologic factors, and the nature of the formulation administered. GI pH is an important factor that can markedly affect oral drug absorption and bioavailability as it may have significant influence on drug dissolution & solubility, drug release, drug stability, and intestinal permeability. Different regions of the GI tract have different drug absorptive properties. Thus, the transit time in each GI region and its variability between subjects may contribute to the variability in the rate and/or extent of drug absorption. Food-drug interactions can result in delayed, decreased, increased, and sometimes un-altered drug absorption. Food effects on oral absorption can be achieved by direct and indirect mechanisms. Various models have been proposed to describe oral absorption ranging from empirical models to the more sophisticated "mechanism-based" models. Through understanding of the physicochemical and physiological rate-limiting factors affecting oral absorption, modellers can implement simplified population-based modelling approaches that are less complex than whole-body physiologically-based models but still capture the essential elements in a physiological way and hence will be more suited for population modelling of large clinical data sets. It will also help formulation scientists to better predict formulation performance and to develop formulations that maximize oral bioavailability.
Publisher: Springer Science and Business Media LLC
Date: 05-08-2016
DOI: 10.1208/S12248-016-9952-8
Abstract: This study aimed to conduct a quantitative meta-analysis for the values of, and variability in, gastrointestinal (GI) pH in the different GI segments characterize the effect of food on the values and variability in these parameters and present quantitative meta-models of distributions of GI pH to help inform models of oral drug absorption. The literature was systemically reviewed for the values of, and the variability in, GI pH under fed and fasted conditions. The GI tract was categorized into the following 10 distinct regions: stomach (proximal, mid-distal), duodenum (proximal, mid-distal), jejunum and ileum (proximal, mid, and distal small intestine), and colon (ascending, transverse, and descending colon). Meta-analysis used the "metafor" package of the R language. The time course of postprandial stomach pH was modeled using NONMEM. Food significantly influenced the estimated meta-mean stomach and duodenal pH but had no significant influence on small intestinal and colonic pH. The time course of postprandial pH was described using an exponential model. Increased meal caloric content increased the extent and duration of postprandial gastric pH buffering. The different parts of the small intestine had significantly different pH. Colonic pH was significantly different for descending but not for ascending and transverse colon. Knowledge of GI pH is important for the formulation design of the pH-dependent dosage forms and in understanding the dissolution and absorption of orally administered drugs. The meta-models of GI pH may also be used as part of semi-physiological pharmacokinetic models to characterize the effect of GI pH on the in vivo drug release and pharmacokinetics.
Publisher: Wiley
Date: 28-10-2019
DOI: 10.1111/BCPT.13330
Abstract: Oral controlled-release formulations are playing an ever-increasing role in opioid therapy however, little is known about their influence on the relationship between pharmacokinetics and pharmacodynamics. The study aim was to characterize the pharmacokinetic-pharmacodynamics of two controlled-release tablet formulations and a liquid formulation of oxycodone in healthy, opioid-naïve volunteers, which can serve as a reference for future patient studies. A semi-double-blinded, three-way crossover study was conducted, with fifteen healthy volunteers receiving two differently designed 20 mg monophasic controlled-release oxycodone tablets and 10 mg oral solution oxycodone in a randomized order. Venous plasma concentrations and pupil diameter were determined pre-dose and 0.25, 0.5, 0.75, 1, 1.5, 2, 2.33, 2.66, 3, 3.33, 3.66, 4, 5, 6, 8, 12 and 24 hour post-dose. Oxycodone pharmacokinetics was best described by a two-compartment model with first-order absorption. The controlled-release formulations had an absorption lag of 0.23 hour and a slower absorption rate constant (k
Publisher: Springer Science and Business Media LLC
Date: 16-09-2007
DOI: 10.1007/S00228-007-0377-2
Abstract: The aim of this investigation was to characterize the pharmacokinetics of buprenorphine following administration of an intravenous (i.v.) infusion. To date, the population kinetics of buprenorphine has been described for bolus administration only. Twenty-three healthy male volunteers aged 21-40 years received 0.6 mg buprenorphine by means of an i.v. infusion over a 150-min period. The plasma concentration-time profiles up to 24 h post-administration of the infusion were subjected to population pharmacokinetic modelling using NONMEM: software. A three-compartment model best described the plasma concentration-time course. Body weight was found to be a significant covariate for elimination clearance in a linear fashion. Inter-in idual variability (coefficient of variation) was estimable for apparent clearance (CL, 23.5%), central distribution volume (V(1), 81.8%), peripheral distribution volume 1 (V(2), 23.7%) and inter-compartmental clearances between V(1) and V(2) (Q(2), 34.8%). Models using parameters derived from previous published data obtained after an i.v. bolus of buprenorphine were found to overestimate the measured buprenorphine concentrations during the course of the i.v. infusion and to underpredict those following the end of the infusion. Most parameters describing the disposition of buprenorphine in the volunteers showed only moderate inter-subject variability. However, the parameters differed from those previously reported for i.v. bolus administration. We conclude that pharmacokinetic parameter estimates obtained from the appropriate study in accordance to the mode of administration should be used in the design of dose regimens of buprenorphine.
Publisher: Wiley
Date: 05-2008
Abstract: Analgesia from most opioids is mediated by mu receptors located mainly in the central nervous system. Previous studies have shown a different pharmacological profile of oxycodone in respect to visceral analgesia. This study investigated if morphine and oxycodone have different pharmacokinetic harmacodynamic profiles, in particular with respect to delay between opioid blood concentration and analgesia. Twenty-four healthy subjects had oral morphine (30 mg), oxycodone (15 mg), or placebo. Mechanical, thermal, and electrical pain tests were performed in the skin and viscera. Blood s les and pain measurements were taken at baseline and after 15, 30, 60, 90, and 120 minutes. Pharmacokinetic harmacodynamic profiles were modeled using a 2-stage, nonlinear, mixed-effects approach with an effect compartment to represent the concentration-analgesia delay. Morphine kinetics was best described by a 2-compartment model, whereas oxycodone kinetics was best described with a 1-compartment model. Generally the analgesic effects of morphine were best related to plasma concentration by introducing a delay via an effect compartment. However, for oxycodone, this was only the case for analgesia in the somatic pain measures, whereas the plasma concentration correlated better to the course of the analgesia with no delay in the visceral pain measures. Oxycodone and morphine showed different pharmacodynamic harmacokinetic relationships for the visceral analgesia, whereas relationships were alike for somatic analgesia.
Publisher: Ovid Technologies (Wolters Kluwer Health)
Date: 02-2001
DOI: 10.1097/00004714-200102000-00014
Abstract: Although methadone maintenance is designed to stabilize opioid-dependent patients, some experience significant withdrawal in the latter part of the 24-hour interdosing interval. This study was designed to determine the mood changes that maybe associated with such withdrawal. Eighteen methadone patients, nine of whom experienced significant withdrawal, were tested over a single interdosing interval. During this time, 13 blood s les were collected to measure plasma racemic methadone concentrations, and the Profile of Mood States (POMS) was administered on 11 of these occasions. The POMS was also administered on 11 occasions over 24 hours to 10 drug-free healthy controls. In comparison with controls, methadone patients showed increased anger, depression, tension, confusion, and fatigue, as well as decreased vigor. For all scales, maximal differences from controls occurred at times of trough methadone concentration and minimal differences around the time of peak concentration. Changes in mood over the interdosing interval were more exaggerated in the nine patients who experienced significant withdrawal compared with those who did not. The composite Total Mood Disturbance (TMD) scores were calculated for each subject at each time point. The sigmoid Emax model was used to relate plasma concentrations to these data and to calculate the slope factor (N). This model could be fitted for 14 of the 18 patients with a mean +/- SEM slope factor of 2.2 +/- 0.5. TMD score was also shown to be inversely related to the rate of decline in methadone concentration from peak to trough. These results show that significant mood changes occur in response to changes in methadone concentration, and these are more pronounced in those who experience withdrawal. The concentration-effect relationships suggest that relatively small changes in plasma concentration will result in significant mood change. Differences in the degree of mood change between those who do and do not experience significant withdrawal may be explained by variation in the rate of decline in plasma concentration from peak to trough.
Publisher: Springer Science and Business Media LLC
Date: 12-2010
DOI: 10.2165/11536610-000000000-00000
Abstract: Oxycodone is not as well characterized, with respect to its pharmacokinetic harmacodynamic properties, as other opioids. Moreover, the pharmacodynamic profile of oxycodone can be affected by changes in the pain system, e.g. hyperalgesia. Therefore, the aim of this study was to investigate the pharmacokinetic harmacodynamic profiles of oxycodone in a human experimental pain model of hyperalgesia. Twenty-four healthy subjects received oral oxycodone (15 mg) or placebo. Pharmacodynamics were assessed utilizing a multimodal, multi-tissue paradigm where pain was assessed from skin (heat), muscle (pressure) and viscera (heat and electricity) before and 30, 60 and 90 minutes after induction of generalized hyperalgesia evoked by perfusion of acid and capsaicin in the oesophagus. Venous blood s les were obtained for quantification of oxycodone plasma concentrations before and 5, 10, 15, 30, 45, 60, 90 and 120 minutes after drug administration. Oxycodone blood concentrations could be described by a one-compartment model but, given the necessarily short timescale of the study, the concentrations were represented by linear interpolation for subsequent pharmacodynamic models. Time-dependent changes in the pain measures in the placebo arm of the study were represented by linear or quadratic functions. The time course of the pain measures in the oxycodone arm was taken to be the time course for the placebo arm plus a concentration-effect relationship that was either zero (no drug effect), linear or a maximum effect (E(max)) model. For three of the four pain measures, there was a time-dependent change after administration of placebo (e.g. due to the development of generalized hyperalgesia). There was a measurable effect of oxycodone, compared with placebo, on all pain measures, and a linear concentration-effect relationship without an effect delay was demonstrated. This could indicate an initial peripheral analgesic effect of oxycodone.
Publisher: SAGE Publications
Date: 26-08-2008
DOI: 10.1345/APH.1L168
Abstract: Fentanyl, a short-acting synthetic opioid, has a pharmacokinetic profile suited to fast relief of brief episodic pain. To characterize the pharmacokinetic-pharmacodynamic correlation of intranasal and intravenous fentanyl in opioid-naïve patients undergoing third molar extraction. A double-blind, double-dummy, crossover design study was conducted, with patients randomized to receive 1 of 4 fentanyl doses (75,100, 150, or 200 μg) by both the intravenous and intranasal routes. Venous fentanyl concentrations were determined for up to 180 minutes and pain scores were recorded up to 240 minutes postdose. Duration of effect and time to rescue medication were also recorded. The pharmacokinetics of intravenous fentanyl reflected a 2-compartment model with a clearance of approximately 1.5 L/min. There was moderate ( %) between-subject variability (BSV %CV [coefficient of variation]) in the systemic kinetics of fentanyl. Bioavailability of intranasal fentanyl was 89%, following first-order absorption, with a lag of approximately 5 minutes and a half-life of approximately 6.5 minutes. Interpatient absorption variability was approximately 30% BSV for all absorption parameters. Intranasal versus intravenous administration led to a delayed mean fentanyl time to maximum concentration (13 vs 6 min) and lower maximum concentration (1.2 vs 2.0 ng/mL). Analgesic effect lagged behind the venous fentanyl concentration, with a half-life of approximately 2.5 minutes as described by a fractional sigmoid maximum drug effect dynamic model. The concentration-analgesia relationship was steep, with a 50% effective concentration of 0.46 ng/mL (Hill coefficient 3.5). Intranasal onset and offset of analgesia were slightly delayed, principally due to the delay and lag in systemic absorption, with slightly lower peak analgesic effect, compared with intravenous fentanyl. Duration of effect was directly related to intranasal fentanyl dose, with pain scores returning to predose values at approximately 120 minutes (75μg) to approximately 240 minutes (200 μg) after a single dose. Intranasal fentanyl showed kinetic and dynamic properties that are desirable for the management of acute, episodic (breakthrough) pain.
Publisher: Elsevier BV
Date: 12-2016
DOI: 10.1016/J.JVC.2016.07.001
Abstract: To investigate the pharmacokinetics and pharmacodynamics of oral pimobendan in conscious, healthy cats. Eight healthy adult cats. A randomised, single-blinded, crossover design was used. Two oral doses of pimobendan (0.625-mg [LD], 1.25-mg [HD]) and a control substance (3-mL water) were administered to each cat. Blood collection, echocardiography, and oscillometric blood pressure measurements were performed repeatedly for 12 h following each dose. Plasma concentrations of pimobendan and the active metabolite, O-desmethylpimobendan (ODMP), were quantified using ultra-high-performance liquid chromatography tandem mass spectrometry. Cardiovascular parameters were evaluated for between- and within-treatment effects over time using linear mixed modelling. Pimobendan was rapidly absorbed and converted to ODMP with the pimobendan AUC The lower ODMP:pimobendan AUC
Publisher: Wiley
Date: 27-02-2019
DOI: 10.1111/BCP.13873
Publisher: Springer Science and Business Media LLC
Date: 10-01-2017
Publisher: Wiley
Date: 10-2015
DOI: 10.1002/PSP4.12036
Publisher: Hindawi Limited
Date: 08-07-2014
DOI: 10.1111/JCPT.12189
Abstract: A common polymorphism (C1858T) in the gene that encodes the protein tyrosine phosphatase non-receptor type 22 (PTPN22) is associated with altered T-cell responses and increased susceptibility to rheumatoid arthritis (RA) and other autoimmune diseases. Teriflunomide, the active metabolite of leflunomide, reduces T-cell responses through inhibition of tyrosine kinase p56LCK. We examined a potential association between PTPN22 genotype and response or toxicity to leflunomide in Caucasian RA patients taking leflunomide in combination with other disease-modifying antirheumatic drugs (DMARDs). Patients enrolled in the Royal Adelaide Hospital RA inception cohort and taking leflunomide were eligible for inclusion. Participants were followed for 12 months after leflunomide initiation or until either another DMARD was added or leflunomide was ceased. Clinical response according to change in 28-joint Disease Activity Score (DAS28) and cessation due to toxicity were assessed. A total of 94 participants were included in the study, 75 of whom carried the CC genotype, 18 the CT, whereas one in idual carried the TT genotype. Over the first 12 months of leflunomide treatment, there was no statistically significant relationship between carrying the T allele and change in DAS28 (-0·84 vs. -1·15, P = 0·446) nor with cessation of leflunomide treatment due to side effects (P = 0·433). These results indicate that PTPN22 C1858T genotype has no effect on response or toxicity outcomes in leflunomide-treated RA patients. This is the first study to evaluate the biologically plausible hypothesis that PTPN22 genotype might be a predictor of response/toxicity to leflunomide therapy. Despite this, PTPN22 genotype was not associated with leflunomide response or toxicity in patients with RA.
Publisher: Wiley
Date: 27-07-2005
Publisher: Springer Science and Business Media LLC
Date: 25-04-2017
DOI: 10.1208/S12248-017-0082-8
Abstract: Infliximab is an anti-tumour necrosis factor alpha monoclonal antibody used to treat inflammatory diseases. Many patients fail during induction and others respond initially but relapse during maintenance therapy. Although anti-drug antibodies (ADA) are associated with some clinical failures, there is evidence that some failures may be due to subtherapeutic exposure. Adapting doses based on clinical outcomes and trough concentrations can improve response and reduce the proportion that develop ADA, but identification of appropriate doses in the presence of time-varying patient factors is complicated. Several adaptive dosing strategies (label recommendations versus therapeutic drug monitoring with an established stepwise algorithm or proportional dose adjustments or Bayesian population pharmacokinetic model-based dosing) were simulated on a virtual population (constructed with time-varying covariates and random effects on in idual pharmacokinetic parameters) using R to assess their relative performance. Strategies were evaluated on their ability to maintain trough infliximab concentrations above an established target, 3 mg/L, during maintenance phase. Model-based dosing was superior in maintaining target trough concentrations, showing in iduals in maintenance achieving concentrations above the target faster and a lower proportion of in iduals who developed ADA. Model-based dosing results were consistent across a range of baseline covariate groups. This in silico assessment of adaptive dosing strategies demonstrated that, when challenged with dynamic covariate and random effect changes occurring in in idual pharmacokinetic parameters, model-based approaches were superior to other strategies. Model-based dosing has not been tested clinically however, the potential benefits of model-based dosing for infliximab suggest that it should be investigated to reduce subtherapeutic exposure.
Publisher: Oxford University Press (OUP)
Date: 14-08-2019
DOI: 10.1111/JPHP.13154
Abstract: The selection of s le times for a pharmacokinetic study is important when trapezoidal integration (e.g. non-compartmental analysis) is used to determine the area under the concentration–time curve (AUC). The aim of this study was to develop an algorithm that determines optimal times that provide the most accurate AUC by minimising trapezoidal integration error. The algorithm required initial single in idual or mean pooled concentration data but did not specifically require a prior pharmacokinetic model. Optimal s le intervals were determined by minimising trapezoidal error using a genetic algorithm followed by a quasi-Newton method. The method was evaluated against simulated and clinical datasets to determine the method's ability to estimate the AUC. The s le times produced by the algorithm were able to accurately estimate the AUC of pharmacokinetic profiles, with the relative AUC having 90% confidence intervals of 0.919–1.05 for profiles with two-compartment kinetics. When comparing the algorithm with rich s ling (e.g. phase I trial), the algorithm provided equivalent or superior s le times with fewer observations. The creation of the algorithm and its companion web application allows users with limited pharmacometric or programming training can obtain optimal s ling times for pharmacokinetic studies.
Publisher: Wiley
Date: 17-03-2014
DOI: 10.1111/BCPT.12213
Abstract: Using a modelling approach, this study aimed to (i) examine whether the pharmacodynamics of the analgesic and antihyperalgesic effects of morphine differ (ii) investigate the influence of demographic, pain sensitivity and genetic (OPRM1) variables on between-subject variability of morphine pharmacokinetics and pharmacodynamics in human experimental pain models. The study was a randomized, double-blind, 5-arm, cross-over, placebo-controlled study. The psychophysical cutaneous pain tests, electrical pain tolerance (EPTo) and secondary hyperalgesia areas (2HA) were studied in 28 healthy in iduals (15 males). The subjects were chosen based on a previous trial where 100 subjects rated (VAS) their pain during a heat injury (47°C, 7 min., 12.5 cm(2) ). The 33% lowest- and highest pain-sensitive subjects were offered participation in the present study. A two-compartment linear model with allometric scaling for weight provided the best description of the plasma concentration-time profile of morphine. Changes in the EPTo and 2HA responses with time during the placebo treatment were best described by a linear model and a quadratic model, respectively. The model discrimination process showed clear evidence for adding between-occasion variability (BOV) on baseline and the placebo slope for EPTo and 2HA, respectively. The sensitivity covariate was significant on baseline EPTo values and genetics as a covariate on the placebo slope for 2HA. The analgesic and antihyperalgesic effects of morphine were pharmacologically distinct as the models had different effect site equilibration half-lives and different covariate effects. Morphine had negligible effect on 2HA, but significant effect on EPTo.
Publisher: Wiley
Date: 20-12-2005
Publisher: Elsevier BV
Date: 05-2011
DOI: 10.1016/J.JPBA.2011.01.026
Abstract: This paper describes the development of a sensitive high performance liquid chromatography (HPLC) method for quantification of rosiglitazone in sheep plasma and amniotic fluid. S les were prepared by liquid-liquid extraction using tert-butyl methyl ether, and rosiglitazone was quantitated by HPLC using a C18 column and fluorescence detector with an excitation wavelength of 247 nm and emission wavelength of 367 nm. The mobile phase consisted of ammonium acetate (10 mM, pH 5.2) and acetonitrile (56.5:43.5, v/v) with a flow rate of 1 ml/min. Ketoconazole was used as the internal standard (IS). The plasma calibration curve was linear over the range of 2.5-250 ng/ml (mean r2=0.9940±0.0024 n=6) with accuracy of 99.4-102.8% over the calibration range. The intra-day and inter-day coefficient of variation (%CV, percent coefficient of variation) were in the range of 0.01-8.68% in sheep plasma. Similar performance was achieved for amniotic fluid. The described method was successfully applied to quantitate rosiglitazone concentrations in the pregnant ewe and her fetus.
Publisher: Wiley
Date: 11-2000
DOI: 10.1046/J.1365-2125.2000.00272.X
Abstract: To investigate the steady-state pharmacokinetics of (R)- and (S)-methadone in a methadone maintenance population. Eighteen patients recruited from a public methadone maintenance program underwent an interdosing interval pharmacokinetic study. Plasma and urine s les were collected and analysed for methadone and its major metabolite (EDDP) using stereoselective h.p.l.c. Methadone plasma protein binding was examined using ultrafiltration, and plasma alpha1-acid glycoprotein concentrations were quantified by radial immunoassay. (R)-methadone had a significantly (P < 0.05) greater unbound fraction (mean 173%) and total renal clearance (182%) compared with (S)-methadone, while maximum measured plasma concentrations (83%) and apparent partial clearance of methadone to EDDP (76%) were significantly (P < 0.001) lower. When protein binding was considered (R)-methadone plasma clearance of the unbound fraction (59%) and apparent partial intrinsic clearance to EDDP (44%) were significantly (P < 0.01) lower than for (S)-methadone, while AUCtau_¿u¿ss (167%) was significantly (P 0.2) differences between the methadone enantiomers for AUCtauss, steady-state plasma clearance, trough plasma concentrations and unbound renal clearance. Patients excreted significantly (P < 0.0001) more (R)-methadone and (S)-EDDP than the corresponding enantiomers. Considerable interin idual variability was observed for the pharmacokinetic parameters, with coefficients of variation of up to 70%. Steady-state pharmacokinetics of unbound methadone are stereoselective, and there is large interin idual variability consistent with CYP3A4 mediated metabolism to the major metabolite EDDP the variability did not obscure a significant dose-plasma concentration relationship. Stereoselective differences in the pharmacokinetics of methadone may have important implications for pharmacokinetic-pharmacodynamic modelling but is unlikely to be important for therapeutic drug monitoring of methadone, in the setting of opioid dependence.
Publisher: Wiley
Date: 17-03-2014
DOI: 10.1111/BCPT.12217
Abstract: The purpose of the study was to investigate placebo and buprenorphine effects on event-related potentials (ERPs) in experimental pain and the potential benefit of population pharmacodynamic modelling in data analysis. Nineteen healthy volunteers received transdermal placebo and buprenorphine in a cross-over study. Drug plasma concentrations and ERPs after electrical stimulation at the median nerve with intensity adjusted to pain detection threshold were recorded until 144 hrs after administration. Placebo and concentration-effect models were fitted to data using non-linear mixed-effects modelling implemented in NONMEM (V7.2.0.). Pharmacodynamic models were developed to adequately describe both placebo and buprenorphine ERP data. Models predicted significant placebo effects, but did not predict significant effects related to buprenorphine concentration. Models revealed that ERPs varied both between subjects and between study occasions. ERPs were found to be reproducible within subjects and occasions as population variance was found to be eight times higher than the unexplained variances. Between-subject variance accounted for more than 75% of the population variance. In conclusion, pharmacodynamic modelling was successfully implemented to allow for placebo and variability correction in ERP of experimental pain. Improved outcome of ERP studies can be expected if variation between subjects and study occasions can be identified and described.
Publisher: Wiley
Date: 09-06-2022
DOI: 10.1002/CPT.2640
Abstract: We aimed to develop population pharmacokinetic harmacodynamic (PK/PD) models that can effectively describe ketamine and norketamine PK/PD relationships for Montgomery–Åsberg Depression Rating Scale (MADRS) scores, blood pressure (BP), and heart rate (HR) following i.v., s.c., and i.m. ketamine administration in patients with treatment‐refractory depression. Ketamine PK/PD data were collected from 21 treatment‐refractory depressed participants who received ketamine (dose titration 0.1–0.5 mg/kg as single doses) by i.v., s.c., or i.m. administration. Model development used nonlinear mixed effect modeling. Ketamine and norketamine PK were best described using two‐compartment models with first‐order absorption after s.c. and i.m. administration. Estimated ketamine bioavailability after i.m. and s.c. was ~ 64% with indistinguishable first‐order absorption rate constants. Allometric scaling of body weight on all clearance and volumes of distribution improved the model fit. The delay in the concentration‐response relationship for MADRS scores was best described using a turnover model (turnover time ~ 42 hours), whereas for the BP and HR rates this was an immediate effect model. For all PD effects, ketamine alone was superior to models with norketamine concentration linked to an effect. No covariates were identified for PD effects. The estimated half‐maximal effective concentration from the MADRS score, BP, and HR were 0.44, 468, and 7,580 ng/mL, respectively. The integrated population models were able to effectively describe the PK/PD relationships for MADRS scores, BP, and HR after i.v., s.c., and i.m. ketamine administration. These findings allow for a deeper understanding of the complex relationships between route of ketamine administration and clinical response and safety.
Publisher: Bentham Science Publishers Ltd.
Date: 24-01-2018
DOI: 10.2174/1568026619666181220105726
Abstract: Poor profiles of potential drug candidates, including pharmacokinetic properties, have been acknowledged as a significant hindrance to the development of modern therapeutics. Contemporary drug discovery and development would be incomplete without the aid of molecular modeling (in-silico) techniques, allowing the prediction of pharmacokinetic properties such as clearance, unbound fraction, volume of distribution and bioavailability. As with all models, in-silico approaches are subject to their interpretability, a trait that must be balanced with accuracy when considering the development of new methods. The best models will always require reliable data to inform them, presenting significant challenges, particularly when appropriate in-vitro or in-vivo data may be difficult or time-consuming to obtain. This article seeks to review some of the key in-silico techniques used to predict key pharmacokinetic properties and give commentary on the current and future directions of the field.
Publisher: Wiley
Date: 11-2006
Publisher: Wiley
Date: 06-05-2013
DOI: 10.1111/CEN.12127
Abstract: In this study, we aimed to investigate the genetic background of thyroid dyshormonogenesis (TDH). Thyroid dyshormonogenesis comprises 10-15% of all cases of congenital hypothyroidism (CH), which is the most common neonatal endocrine disorder, and might result from disruptions at any stage of thyroid hormone biosynthesis. Currently seven genes (NIS, TPO, PDS, TG, IYD, DUOX2 and DUOXA2) have been implicated in the aetiology of the disease. As TDH is mostly inherited in an autosomal recessive manner, we planned to conduct the study in consanguineous/multi-case families. One hundred and four patients with congenital TDH all coming from consanguineous and/or multi-case families. Initially, we performed potential linkage analysis of cases to all seven causative-TDH loci as well as direct sequencing of the TPO gene in cases we could not exclude linkage to this locus. In addition, in silico analyses of novel missense mutations were carried out. TPO had the highest potential for linkage and we identified 21 TPO mutations in 28 TDH cases showing potential linkage to this locus. Four of 10 distinct TPO mutations detected in this study were novel (A5T, Y55X, E596X, D633N). This study underlines the importance of molecular genetic studies in diagnosis, classification and prognosis of CH and proposes a comprehensive mutation screening by new sequencing technology in all newly diagnosed primary CH cases.
Publisher: Wiley
Date: 28-06-2008
DOI: 10.1111/J.1742-7843.2008.00250.X
Abstract: The main objective of the present study was to characterize the pharmacokinetic harmacodynamic (PK/PD) relationship of the effects of buprenorphine on cognitive functioning in healthy volunteers. Twenty-three male volunteers received 0.6 mg buprenorphine as an intravenous infusion over 150 min. The cognitive and psychomotor performance was evaluated before and at various times after drug administration by a test battery consisting of trail-making test for visual information processing, finger-tapping test for psychomotor speed, and continuous reaction time for attention. Non-linear mixed effect modelling was used in the analysis of the PK/PD relationships. Buprenorphine caused significant deficits in cognitive and psychomotor functioning. The time course of cognitive and psychomotor impairment was found to have a slow distribution to the biophase from plasma with PK/PD models involving an effect compartment providing the best descriptions of the time course of the data. The values for half-life of biophase equilibration were consistent between the neuropsychological tests in the range of 66.6-84.9 min. The time to onset and duration of the cognitive and psychomotor impairment of buprenorphine was determined by a slow distribution to the biophase.
Publisher: Springer Science and Business Media LLC
Date: 30-01-2013
Publisher: Wiley
Date: 03-02-2004
DOI: 10.1046/J.1365-2125.2003.02002.X
Abstract: To determine the Michaelis-Menten kinetics of hydrocodone metabolism to its O- and N-demethylated products, hydromorphone and norhydrocodone, to determine the in idual cytochrome p450 enzymes involved, and to predict the in vivo hepatic intrinsic clearance of hydrocodone via these pathways. Liver microsomes from six CYP2D6 extensive metabolizers (EM) and one CYP2D6 poor metabolizer (PM) were used to determine the kinetics of hydromorphone and norhydrocodone formation. Chemical and antibody inhibitors were used to identify the cytochrome p450 isoforms catalyzing these pathways. Expressed recombinant cytochrome p450 enzymes were used to characterize further the metabolism of hydrocodone. Hydromorphone formation in liver microsomes from CYP2D6 EMs was dependent on a high affinity enzyme (Km = 26 microm) contributing 95%, and to a lesser degree a low affinity enzyme (Km = 3.4 mm). In contrast, only a low affinity enzyme (Km = 8.5 mm) formed this metabolite in the liver from the CYP2D6 PM, with significantly decreased hydromorphone formation compared with the livers from the EMs. Norhydrocodone was formed by a single low affinity enzyme (Km = 5.1 mm) in livers from both CYP2D6 EM and PM. Recombinant CYP2D6 and CYP3A4 formed only hydromorphone and only norhydrocodone, respectively. Hydromorphone formation was inhibited by quinidine (a selective inhibitor of CYP2D6 activity), and monoclonal antibodies specific to CYP2D6. Troleandomycin, ketoconazole (both CYP3A4 inhibitors) and monoclonal antibodies specific for CYP3A4 inhibited norhydrocodone formation. Extrapolation of in vitro to in vivo data resulted in a predicted total hepatic clearance of 227 ml x h-1 x kg-1 and 124 ml x h-1 x kg-1 for CYP2D6 EM and PM, respectively. The O-demethylation of hydrocodone is predominantly catalyzed by CYP2D6 and to a lesser extent by an unknown low affinity cytochrome p450 enzyme. Norhydrocodone formation was attributed to CYP3A4. Comparison of recalculated published clearance data for hydrocodone, with those predicted in the present work, indicate that about 40% of the clearance of hydrocodone is via non-CYP pathways. Our data also suggest that the genetic polymorphisms of CYP2D6 may influence hydrocodone metabolism and its therapeutic efficacy.
Publisher: Elsevier BV
Date: 08-2006
DOI: 10.1002/JPS.20632
Publisher: Wiley
Date: 07-04-2016
DOI: 10.1111/BCP.12891
Publisher: Springer Science and Business Media LLC
Date: 16-10-2019
DOI: 10.1007/S13318-018-0519-1
Abstract: SUBA-itraconazole and Sporanox are two oral formulations of itraconazole. Drug-drug interactions with omeprazole have been previously reported however, mechanistic understanding of the pharmacological and physiological interactions of omeprazole with orally administered itraconazole within a population modeling paradigm is lacking. The objective of this analysis was to mechanistically describe and quantify the effect of omeprazole on the pharmacokinetics of itraconazole and its major metabolite, hydroxyitraconazole from the SUBA itraconazole and Sporanox formulations. An in vitro-in vivo (IVIV) pharmacokinetic model of itraconazole and hydroxyitraconazole was developed including data from an omeprazole interaction study with SUBA itraconazole. Meta-models of gastric pH for healthy subjects and subjects receiving omeprazole were integrated into the IVIV model to capture omeprazole-mediated gastric pH changes on itraconazole dissolution and absorption. Omeprazole influenced the kinetics of itraconazole through altering the dissolution and absorption due to the pH-dependent solubility of itraconazole, inhibition of efflux transporters, and inhibiting the metabolism of itraconazole and hydroxyitraconazole. The model-predicted population effects of omeprazole on itraconazole from SUBA-itraconazole were to increase the area under the concentration-time curve (AUC Unlike SUBA itraconazole, which requires basic pH for itraconazole release, the omeprazole-induced pH-mediated reduction in Sporanox dissolution overrides any increased exposure from the drug-drug interaction at hepatic metabolizing enzymes or efflux transporters. The model presented here is the most complete quantitative description of the pharmacokinetics of itraconazole and hydroxyitraconazole currently available.
Publisher: Elsevier BV
Date: 04-2016
DOI: 10.1016/J.EJPS.2016.02.021
Abstract: Polymorphisms in the opioid receptor genes may affect the pharmacodynamics (PD) of oxycodone and be part of the reason behind the ersity in clinical response. The aim of the analysis was to model the exposure-response profile of oxycodone for three different pain variables and search for genetic covariates. Model simulations were used to predict how population and effect-size impact the power to detect clinical significant SNPs. The population pharmacokinetic-pharmacodynamic (PKPD) model of oral single-dosed oxycodone was based on pooled data from three published studies in healthy volunteers. Pain tolerance data from muscle pressure (n=36), visceral pressure (n=54) and skin pinch (n=34) were included. Genetic associations with 18 opioid-receptor SNPs were explored using a stepwise covariate approach. Model simulations were performed using the estimated model parameters. None of the selected SNPs were associated with analgesic response of oxycodone at P<0.001. Baseline response in muscle cuff pressure was associated with OPRK1 rs7016778 and rs7824175 (P 50% for similar population sizes) or large populations (n>200 for a 20% response difference) are necessary to identify clinical significant SNP effects due to high population variability. A population PKPD model has been developed for oral oxycodone using three different pain variables to explore impact of genetic covariates and study design. None of the selected polymorphisms were significantly associated with analgesic response of oxycodone, but an association of baseline response in muscle cuff pressure with two OPRK1 SNPs was identified.
Publisher: Informa UK Limited
Date: 04-2012
DOI: 10.2147/PGPM.S29272
Publisher: American Society for Pharmacology & Experimental Therapeutics (ASPET)
Date: 14-10-2016
Abstract: Leflunomide's active metabolite teriflunomide inhibits dihydro-oroate dehydrogenase, an enzyme essential to proliferation of T lymphocytes. As teriflunomide must reach the target site to have this effect, this study assessed the distribution of teriflunomide into T lymphocytes, as intracellular concentrations may be a superior response biomarker to plasma concentrations. CD3 MicroBeads (Miltenyi Biotec, Bergisch Gladbach, Germany) were used to extract CD3
Publisher: Wiley
Date: 21-04-2004
Publisher: Wiley
Date: 11-04-2007
DOI: 10.1111/J.1440-1681.2007.04599.X
Abstract: 1. This study aimed to investigate the protective effects of isosteviol against myocardial ischaemia-reperfusion (IR) injury and its effects on mitochondrial adenosine triphosphate (ATP)-sensitive potassium channel (mitoK(ATP)) activity in vitro. 2. Groups of eight guinea pigs were treated as follows: constant perfusion control (PC), IR control, ischaemic preconditioning (IPC) + IR, isosteviol (50, 250 or 500 nmol) + IR, 5-hydroxydecanoate acid (5-HD) (5 micromol) + isosteviol (500 nmol) + IR. The guinea pig heart was isolated and perfused in Langendorff mode with modified Tyrode solution at a flow rate of 10 mL/min. Ischaemia was introduced for 30 min followed by reperfusion for 20 min. Cardiac function, coronary arterial flow rate, lactate dehydrogenase (LDH) and creatine kinase (CK) activities in the perfusate were measured prior to ischaemia and at the end of reperfusion. 3. There were no significant (P > 0.05) changes in cardiac function or markers of cell damage (i.e. activities of LDH and CK) in the PC group. In contrast, cardiac function was adversely affected in the IR group, with significant (P < 0.05) decreases in left ventricular developing pressure (LVDevP), dP/dt(max) and dP/dt(min) compared with baseline and the PC group. In addition, there were increases in activity of LDH (20%) and CK (67%) compared with baseline and the PC group. 4. Ischaemic preconditioning and pretreatment with isosteviol, at all dose levels, resulted in a significant (P < 0.05) attenuation of IR injury. Lactate dehydrogenase and CK activities were not significantly (P < 0.05) different compared with baseline. Isosteviol did not increase coronary flow, suggesting that the protective effect of isosteviol on the myocardium was not mediated by dilation of the coronary blood vessels. 5. Pretreatment with the mitoK(ATP) blocker 5-HD partially antagonized the effects of 500 nmol isosteviol, with a statistically significant attenuation of its protective effects on HR, LVDevP, dP/dt(max) and dP/dt(min) compared with isosteviol alone pretreatment. 6. The IR injury on the Langendorff perfused guinea pig heart was alleviated by isosteviol, which appears to mediate its effects through mitoK(ATP) channels. Future research might aim to investigate the interaction of isosteviol with mitoK(ATP) channels in order to clarify its mechanism of action.
Publisher: Springer Science and Business Media LLC
Date: 29-10-2020
DOI: 10.1038/S41598-020-75673-7
Abstract: The aim of this study was to investigate the association between body-mass index (BMI) and remission in RA patients receiving conventional synthetic (cs-) or the biological Disease-Modifying Antirheumatic Drug (DMARD), tocilizumab. In idual participant data (IPD) were pooled from five trials investigating tocilizumab and/or csDMARDs therapy (primarily methotrexate) for RA. Time to first remission was recorded according to the Simplified Disease Activity Index (SDAI) and Clinical Disease Activity Index (CDAI). BMI was classified according to WHO definitions. Associations between baseline BMI and remission were assessed by Cox-proportional hazard analysis. IPD were available from 5428 patients treated with tocilizumab ± csDMARDs (n = 4098) or csDMARDs alone (n = 1330). Of these, 1839 (33.9%) had normal BMI, 1780 (32.8%) overweight, 1652 (30.4%) obese and 157 (2.9%) were underweight. Obesity, compared to normal BMI, was associated with less frequent remission using SDAI (adjusted HR 0.80 [95% CI 0.70–0.92]) and CDAI (adjusted HR 0.77 [0.68–0.87]). As continuous variable, increased BMI was associated with less frequent SDAI (P = 0.001) and CDAI (P = 0.001) defined remission. No heterogeneity in identified associations was observed between studies (P = 0.08) or treatments (P = 0.22). Obesity was negatively associated with RA disease remission regardless of RA therapy, suggesting that baseline BMI should be considered as a stratification factor in future RA trials.
Publisher: Wiley
Date: 12-07-2021
DOI: 10.1111/BCPT.13634
Abstract: The physiological changes following Roux‐en‐Y gastric bypass (RYGB) surgery may impact drug release from mechanistically different controlled‐release tablets, making generic substitution inappropriate. This study aimed to characterise the pharmacokinetic‐pharmacodynamic relationships of oxycodone from a lipid‐based and water‐swellable controlled‐release tablet in RYGB patients. Twenty RYGB patients received 10‐mg oral solution oxycodone or 20‐mg controlled‐release (water‐swellable or lipid‐based) oxycodone in a three‐way, randomised, semiblinded and cross‐over study. Blood s ling and pupillary recordings were conducted over a 24‐h period. A previously established pharmacokinetic‐pharmacodynamic model of these three formulations in healthy volunteers was used in the analysis as a reference model. No differences in absorption kinetics were seen between controlled‐release formulations in patients. However, the absorption lag time was 11.5 min in patients vs 14 min in healthy volunteers for controlled‐release tablets ( P 0.001). Furthermore, oral bioavailability was 14.4% higher in patients compared to healthy volunteers regardless of formulation type ( P 0.001). Oxycodone pharmacodynamics were not significantly affected by formulation or patient status. However, baseline pupil diameter was inversely correlated with age ( P 0.001) and plasma concentrations of oxycodone at half‐maximum effect were 31% lower in males compared to females ( P 0.05). Generic substitution of monophasic lipid‐based and water‐swellable controlled‐release oxycodone tablets may be considered safe in RYGB patients.
Publisher: Wiley
Date: 08-12-2010
DOI: 10.1111/J.1742-7843.2010.00649.X
Abstract: Pharmacokinetic harmacodynamic (PK/PD) modelling can be used to characterize the relationship between dose regimen of opioids, plasma concentration and effect of opioids, which in turn can lead to more rational treatment regimens of pain. The aim of this study was to investigate the concentration-effect relationship for transdermal buprenorphine and fentanyl in experimentally induced pain. Twenty-two healthy volunteers were randomized to receive transdermal patches with fentanyl (25 μg/hr, 72 hr), buprenorphine (20 μg/hr, 144 hr) or placebo. The experimental pain tests were pressure at the tibial bone, cutaneous thermal stimulation, cold pressor test (conditioning stimulus (3 ± 0.3°C cold water), nerve growth factor-induced muscle soreness and intradermal capsaicin-induced hyperalgesia and allodynia. Experiments were carried out at baseline, 24, 48, 72 and 144 hr after application of patches. Time-course of placebo was described first and was afterwards added to the description of the time-courses of buprenorphine and fentanyl. This was either described by zero (no drug effect), linear or E(max) model concentration-effect relationships. Time-dependent changes in pain measures in the placebo arm were described by linear or quadratic functions. The time-course of fentanyl and buprenorphine plasma concentrations was complex but could be represented by cubic spline interpolation in the models. Buprenorphine significantly attenuated bone-associated pain, heat pain, nerve growth factor-induced soreness and cold pressor pain. Fentanyl significantly attenuated cold pressor pain for the administered dose regimens. Although the PK/PD relationship for both drugs could be described with similar models, tissue-differentiated analgesic effects between buprenorphine and fentanyl was shown.
Publisher: Springer Science and Business Media LLC
Date: 06-1999
Publisher: Future Medicine Ltd
Date: 06-2014
DOI: 10.2217/PME.14.23
Abstract: Leflunomide is largely considered to be a second-line treatment option for rheumatoid arthritis (RA). Those who fail to respond, tend to progress to treatment with expensive biological agents, which can also be associated with serious toxicities. Optimizing leflunomide treatment to meet the needs of in iduals would hence be beneficial in terms of patient outcomes and health care expenditure. In this respect, therapeutic drug monitoring (TDM) may be useful, as plasma concentrations of leflunomide's active metabolite, teriflunomide, correlate with response to treatment, but are highly variable between patients. A number of pharmacogenetic markers have also been identified that influence response and toxicity. Incorporation of these findings into clinical practice could facilitate more efficient use of leflunomide.
Publisher: Springer Science and Business Media LLC
Date: 20-07-2016
DOI: 10.1208/S12248-016-9953-7
Abstract: This study aimed to conduct a quantitative meta-analysis for the values of, and variability in, gastrointestinal (GI) transit times of non-disintegrating single-unit ("tablet") and multiple-unit ("pellets/multi-unit tablet") solid dosage forms, characterize the effect of food on the values and variability in these parameters and present quantitative meta-models of the distributions of GI transit times in the respective GI regions to help inform models of oral drug absorption. The literature was systemically reviewed for the values of, and the variability in, gastric, small intestinal and colonic transit times under fed and fasted conditions. Meta-analysis used the "metafor" package of the R language. Meta-models of GI transit were assumed to be log-normally distributed between the studied populations. Twenty-nine studies including 125 reported means and standard deviations were used in the meta-analysis. Caloric content of administered food increased variability and delayed the gastric transit of both pellets and tablets. Conversely, food caloric content reduced the variability but had no significant influence on the mean small intestinal transit time (SITT). Food had no significant effect on the transit time through the colon. The transit of pellets through the colon was significantly slower than that of single-unit tablets which is most likely related to their smaller size. GI transit times may influence the dissolution and absorption of oral drugs. The meta-models of GI transit times may be used as part of semi-physiological absorption models to characterize the influence of transit time on the dissolution, absorption and in vivo pharmacokinetic profiles of oral drugs.
Publisher: Springer Science and Business Media LLC
Date: 09-2002
DOI: 10.1007/S00280-002-0474-Y
Abstract: E21R is a competitive inhibitor of GM-CSF. This is the initial clinical study to investigate the safety, toxicity and pharmacokinetics of escalating doses of E21R. Cohorts of three patients received doses of 10, 30, 100, 300, 600 and 1000 micro g/kg per day given subcutaneously daily for 10 days. Eligible patients had solid tumours known to express GM-CSF receptors (breast, prostate, colon and lung cancer, and melanoma). No bone marrow involvement or concomitant steroids were permitted. A total of 22 patients received doses ranging from 10 to 1000 micro g/kg per day. There were 18 males and 4 females with a median age of 60 years (range 33 to 81 years). Eight patients had an ECOG performance status of 0, seven a performance status of 1, and seven a performance status of 2. There were ten patients with colon cancer, four with prostate cancer, three with lung cancer, three with melanoma and two with breast cancer. E21R was in general well tolerated and the maximum tolerated dose was not reached. The most severe toxicities were WHO grade 3 injection site erythema in one patient and grade 2 in two patients, grade 2 lethargy in three patients and grade 2 muscle aches and soreness, grade 2 joint pains and grade 2 thirst in one patient each. The primary pharmacokinetic parameters were dose-independent. Dose-dependent transient eosinophilia was noted from day 3. A fall in PSA levels was recorded in two patients with prostate cancer during their initial cycles of E21R, but they subsequently rose again. Serum from patients treated at 600 and 1000 micro g/kg per day antagonized GM-CSF-mediated TF-1 cell proliferation in vitro. E21R can be safely given at doses up to 1000 micro g/kg per day.
Publisher: Informa UK Limited
Date: 04-2007
DOI: 10.1080/00498250701251126
Abstract: The pharmacokinetics and time course of blood-brain equilibration of buprenorphine (BUP) and norbuprenorphine (norBUP) in sheep were characterized. Sheep were administered 0.04 mg kg(-1) BUP or 0.6 mg kg(-1) norBUP as 4-min i.v. infusions. The cerebral kinetics were inferred from arterio-sagittal sinus concentration gradients and changes in cerebral blood flow. These data were fitted to physiologically based pharmacokinetic models. BUP cerebral kinetics were best described by a membrane-limited model with a large equilibration delay (half-life of 20 min) between brain and blood due to intermediate permeability (47 ml min(-1)) and a large cerebral distribution volume (595 ml). Significant limitation in permeability (6 ml min(-1)) characterized the cerebral kinetics of norBUP with a cerebral distribution volume (157 ml) giving a blood-brain equilibration half-life (21 min) similar to that for BUP. The logD of BUP and norBUP were 3.93 +/- 0.08 and 1.18 +/- 0.04 (mean +/- SD), respectively. Both compounds revealed slow cerebral equilibration with variations in degree of permeability and distribution volume reflecting the difference in lipophilicity. It is possible that norBUP contributes to the central effects seen after chronic BUP administration as this study demonstrated its entry into the brain.
Publisher: Wiley
Date: 28-10-2015
DOI: 10.1111/BCP.12760
Publisher: American Society for Microbiology
Date: 03-2017
DOI: 10.1128/AAC.02401-16
Abstract: The literature presently lacks a population pharmacokinetic analysis of doxycycline. This study aimed to develop a population pharmacokinetic model of doxycycline plasma concentrations that could be used to assess the power of bioequivalence between Doryx delayed-release tablets and Doryx MPC. Doxycycline pharmacokinetic data were available from eight phase 1 clinical trials following single/multiple doses of conventional-release doxycycline capsules, Doryx delayed-release tablets, and Doryx MPC under fed and fasted conditions. A population pharmacokinetic model was developed in a stepwise manner using NONMEM, version 7.3. The final covariate model was developed according to a forward inclusion ( P 0.01) and then backward deletion ( P 0.001) procedure. The final model was a two-compartment model with two-transit absorption compartments. Structural covariates in the base model included formulation effects on relative bioavailability ( F ), absorption lag (ALAG), and the transit absorption rate (KTR) under the fed status. An absorption delay (lag) for the fed status (FTLAG2 = 0.203 h) was also included in the model as a structural covariate. The fed status was observed to decrease F by 10.5%, and the effect of female sex was a 14.4% increase in clearance. The manuscript presents the first population pharmacokinetic model of doxycycline plasma concentrations following oral doxycycline administration. The model was used to assess the power of bioequivalence between Doryx delayed-release tablets and Doryx MPC, and it could potentially be used to critically examine and optimize doxycycline dose regimens.
Publisher: American Society for Microbiology
Date: 09-2015
DOI: 10.1128/AAC.00973-15
Abstract: Itraconazole is an orally active antifungal agent that has complex and highly variable absorption kinetics that is highly affected by food. This study aimed to develop a population pharmacokinetic model for itraconazole and the active metabolite hydroxyitraconazole, in particular, quantifying the effects of food and formulation on oral absorption. Plasma pharmacokinetic data were collected from seven phase I crossover trials comparing the SUBA-itraconazole and Sporanox formulations of itraconazole. First, a model of single-dose itraconazole data was developed, which was then extended to the multidose data. Covariate effects on itraconazole were then examined before extending the model to describe hydroxyitraconazole. The final itraconazole model was a 2-compartment model with oral absorption described by 4-transit compartments. Multidose kinetics was described by total effective daily dose- and time-dependent changes in clearance and bioavailability. Hydroxyitraconazole was best described by a 1-compartment model with mixed first-order and Michaelis-Menten elimination for the single-dose data and a time-dependent clearance for the multidose data. The relative bioavailability of SUBA-itraconazole compared to that of Sporanox was 173% and was 21% less variable between subjects. Food resulted in a 27% reduction in bioavailability and 58% reduction in the transit absorption rate constant compared to that with the fasted state, irrespective of the formulation. This analysis presents the most extensive population pharmacokinetic model of itraconazole and hydroxyitraconazole in the literature performed in healthy subjects. The presented model can be used for simulating food effects on itraconazole exposure and for performing prestudy power analysis and s le size estimation, which are important aspects of clinical trial design of bioequivalence studies.
Publisher: Springer Science and Business Media LLC
Date: 16-11-2011
DOI: 10.1007/S00228-010-0928-9
Abstract: It has been demonstrated that genetic variation in CYP2C19 has a significant influence upon H. pylori eradication rates. We have determined a dosage regimen of lansoprazole that will provide EMs with exposure approximately equivalent to that obtained by PMs treated with standard doses and determined the exposure that a PM would experience if they were to be treated with this 'EM optimised' lansoprazole dose. Non-compartmental pharmacokinetic parameters (AUC, C(max), t(max)) for CYP2C19 genotypes were obtained from the literature. Primary pharmacokinetic parameters (CL, Vd, ka) for 200 virtual patients were calculated from the weighted non-compartmental variables and used to simulate a 7 day treatment course of twice daily lansoprazole, at standard and optimised doses for 1,000 patients. The administration of 180 mg twice daily to CYP2C19 EMs results in approximately equivalent exposure to lansoprazole as the administration of standard 30 mg twice daily doses to PMs. Administration of this six-fold dose increase to EMs is predicted to result in only a 2.5-fold increase in C(max) when compared with PMs receiving the standard 30 mg dose. We present a potential lansoprazole dosing regimen that should result in improved H. pylori eradication within CYP2C19 EMs and may not require in idualization. Whilst the optimised dose represents a significant increase, it is below that reported in the chronic management of Zollinger-Ellison syndrome. On the basis that treatment is of limited duration and lansoprazole is generally well tolerated, such an approach warrants further in vivo evaluation to confirm drug exposure, efficacy and tolerability.
Publisher: Springer Science and Business Media LLC
Date: 19-08-2012
DOI: 10.1007/S10928-012-9268-Y
Abstract: Pharmacokinetic (PK) and pharmacodynamic (PD) data were available from a study of a nasal delivery system for the opioid analgesic fentanyl, together with data on the kinetics of fentanyl in arterial blood in man, and in the lung and brain of sheep. Our aim was to reconcile these data using a physiologically-based population recirculatory PK-PD model, with emphasis on achieving a meta-model that could simultaneously account for the arterial and venous (arm) concentrations of fentanyl, could relate PD effects (pain scores) to the CNS concentrations of fentanyl, and could account for the effect of body size and age on fentanyl kinetics. Data on the concentration gradients of fentanyl across brain, lung and muscle were used to develop sub-models of fentanyl kinetics in these organs. The sub-models were incorporated into a "whole body" recirculatory model by adding additional sub-models for a venous mixing compartment, the liver and gut, the kidney and the "rest of the body" with blood flows and organ volumes based on values for a Standard Man. Inter-in idual variability was achieved by allometric scaling of organ size and blood flows, evidence-based assumptions about the effect of weight and age on cardiac output, and inter-in idual variability in the free fraction in plasma and hepatic extraction of fentanyl. Post-operative pain scores were found to be temporally related to the predicted brain concentrations of fentanyl. We conclude that a physiologically-based meta-modelling approach was able to describe clinical PK-PD studies of fentanyl whilst providing a mechanistic interpretation of key aspects of its disposition.
Publisher: Wiley
Date: 06-2015
DOI: 10.1002/PSP4.46
Publisher: Springer Science and Business Media LLC
Date: 27-01-2020
DOI: 10.1208/S12248-020-0414-Y
Abstract: Exposure-response (ER) modeling for fixed-dose combinations (FDC) has previously been found to have an inflated false positive rate (FP), i.e., observing a significant effect of FDC components when no true effect exists. Longitudinal exposure-response (LER) analysis utilizes the time course of the data and is valid for several clinical endpoints for FDCs. The aim of the study was to investigate if LER is applicable for the validation of FDCs by demonstrating the contribution of each component to the overall effect without inflation of FP rates. FP and FN rates associated with ER and LER analysis were investigated using stochastic simulation and estimation. Four hundred thirty-two scenarios with varying numbers of patients, duration, s ling frequency, dose distribution, design, and drug activity were analyzed using a range of linear, log-linear, and non-linear models to asses FP and FN rates. Lastly, the impact of the clinical trial parameters was investigated. LER analyses provided well-controlled FP rates of the expected 5% or less however, in low information clinical trials consisting of 30 patients, 4 s les, and 20 days, LER analyses lead to inflated FN rates. Parameter investigation showed that when the clinical trial includes sufficient patients, duration, s les, and an appropriate trial design, the FN rates are in general below the expected 5% for LER analysis. Based on the results, LER analysis can be used for the validation of FDCs and fixed ratio drug combinations. The method constitutes a new avenue for providing evidence that demonstrates the contribution of each component to the overall clinical effect.
No related grants have been discovered for David Foster.