Effects of Sarizotan in Animal Models of ADHD: Challenging Pharmacokinetic–Pharmacodynamic Relationships

Danysz, Wojciech, Flik, Gunnar, McCreary, Andrew, Tober, Carsten, Dimpfel, Wilfried, Bizot, Jean C., Kostrzewa, Richard, Brown, Russell W., Jatzke, Claudia C., Greco, Sergio, Jenssen, Ann-Kristin, Parsons, Christopher. G.

01 September 2015

Sarizotan 1-[(2R)-3,4-dihydro-2H-chromen-2-yl]-N-[[5-(4-fluorophenyl) pyridin-3-yl]methyl] methenamine, showed an in vivo pharmaco-EEG profile resembling that of methylphenidate which is used in attention deficit/hyperactivity disorder (ADHD). In turn, we tested sarizotan against impulsivity in juvenile rats measuring the choice for large delayed vs. a small immediate reward in a T-maze and obtained encouraging results starting at 0.03 mg/kg (plasma levels of ~11 nM). Results from rats treated neonatally with 6-hydroxydopamine (6-OHDA), also supported anti-ADHD activity although starting at 0.3 mg/kg. However, microdialysis studies revealed that free brain concentration of sarizotan at active doses were below its affinity for 5-HT1A receptors, the assumed primary target. In contrast, electrophysiological experiments in mid-brain Raphé serotonergic cells paralleled by plasma sampling showed that there was ~60 % inhibition of firing rate—indicating significant activation of 5-HT1A receptors—at a plasma concentration of 76 nM. In line with this, we observed that sarizotan concentrations in brain homogenates were similar to total blood levels but over 500 fold higher than free extracellular fluid (ECF) concentrations as measured using brain microdialysis. These data suggest that sarizotan may have potential anti-ADHD effects at low doses free of the previously reported side-effects. Moreover, in this case a classical pharmacokinetic–pharmacodynamic relationship based on free brain concentrations seems to be less appropriate than target engagement pharmacodynamic readouts.

5-HT1A

EEG

impulsivity

in vivo electrophysiology

microdialysis

receptor occupancy

Biomedical Sciences

Neurosciences

Role of the Blood-Brain Barrier in Stereoselective Distribution and Delay in H₁ Receptor Occupancy of Cetirizine in the Guinea Pig Brain

Gupta, Anubha

January 2006

<p>Cetirizine, an H₁-antihistamine, is prescribed for allergic disorders. It exists as a racemic mixture, with levocetirizine being the active enantiomer. The central nervous system side-effects of H₁-antihistamines are caused by their penetration into the brain. In this thesis the plasma pharmacokinetics, transport across the blood-brain barrier (BBB) and H₁ receptor occupancy of cetirizine enantiomers was investigated <i>in vivo</i> in guinea pigs. The transport across the BBB was quantified using the microdialysis technique. Stereoselective brain distribution was investigated by measuring both unbound and total concentrations in plasma and brain. The time aspects of the H₁ receptor occupancy of levocetirizine was studied in the brain and the periphery.</p><p>The plasma pharmacokinetics of cetirizine was stereoselective with clearance and volume of distribution of levocetirizine being approximately half that of dextrocetirizine. This was mainly due to the differences in plasma protein binding of the enantiomers. The stereoselectivity in brain distribution indicated by the partition coefficient K_p (total AUC ratio brain to plasma) was caused by stereoselective plasma protein binding. The transport across the BBB measured in this thesis by the unbound partition coefficient K_p,uu (unbound AUC ratio brain to plasma) was the same for the two enantiomers. Binding within the brain was also not significantly different. The H₁ receptor occupancy of levocetirizine in brain lagged behind the plasma concentrations whereas it was not delayed with respect to the brain concentrations. This indicates that the delayed brain H₁ receptor occupancy of levocetirizine is caused by a slow transport across the BBB.</p><p>In summary, the results of this thesis emphasize the importance of measuring both the unbound and total concentrations in blood and brain to characterize stereoselective brain distribution. The thesis also emphasize the importance of taking local brain pharmacokinetics into consideration in understanding pharmacokinetic-pharmacodynamic relationships of drugs with central activity.</p>

Pharmacokinetics/Pharmacotherapy

Cetirizine enantiomers

Brain distribution

Microdialysis

H1 receptor occupancy

Stereoselective-pharmacokinetics

Farmakokinetik/Farmakoterapi

PHARMACY

FARMACI

Role of the Blood-Brain Barrier in Stereoselective Distribution and Delay in H1 Receptor Occupancy of Cetirizine in the Guinea Pig Brain

Gupta, Anubha

January 2006

Cetirizine, an H1-antihistamine, is prescribed for allergic disorders. It exists as a racemic mixture, with levocetirizine being the active enantiomer. The central nervous system side-effects of H1-antihistamines are caused by their penetration into the brain. In this thesis the plasma pharmacokinetics, transport across the blood-brain barrier (BBB) and H1 receptor occupancy of cetirizine enantiomers was investigated in vivo in guinea pigs. The transport across the BBB was quantified using the microdialysis technique. Stereoselective brain distribution was investigated by measuring both unbound and total concentrations in plasma and brain. The time aspects of the H1 receptor occupancy of levocetirizine was studied in the brain and the periphery. The plasma pharmacokinetics of cetirizine was stereoselective with clearance and volume of distribution of levocetirizine being approximately half that of dextrocetirizine. This was mainly due to the differences in plasma protein binding of the enantiomers. The stereoselectivity in brain distribution indicated by the partition coefficient Kp (total AUC ratio brain to plasma) was caused by stereoselective plasma protein binding. The transport across the BBB measured in this thesis by the unbound partition coefficient Kp,uu (unbound AUC ratio brain to plasma) was the same for the two enantiomers. Binding within the brain was also not significantly different. The H1 receptor occupancy of levocetirizine in brain lagged behind the plasma concentrations whereas it was not delayed with respect to the brain concentrations. This indicates that the delayed brain H1 receptor occupancy of levocetirizine is caused by a slow transport across the BBB. In summary, the results of this thesis emphasize the importance of measuring both the unbound and total concentrations in blood and brain to characterize stereoselective brain distribution. The thesis also emphasize the importance of taking local brain pharmacokinetics into consideration in understanding pharmacokinetic-pharmacodynamic relationships of drugs with central activity.

Pharmacokinetics/Pharmacotherapy

Cetirizine enantiomers

Brain distribution

Microdialysis

H1 receptor occupancy

Stereoselective-pharmacokinetics

Farmakokinetik/Farmakoterapi

PHARMACY

FARMACI

Nonlinear Mixed Effects Methods for Improved Estimation of Receptor Occupancy in PET Studies

Kågedal, Matts

January 2014

Receptor occupancy assessed by Positron Emission Tomography (PET) can provide important translational information to help bridge information from one drug to another or from animal to man. The aim of this thesis was to develop nonlinear mixed effects methods for estimation of the relationship between drug exposure and receptor occupancy for the two mGluR5 antagonists AZD9272 and AZD2066 and for the 5HT1B receptor antagonist AZD3783. Also the optimal design for improved estimation of the relationship between drug exposure and receptor occupancy as well as for improved dose finding in neuropathic pain treatment, was investigated. Different modeling approaches were applied. For AZD9272, the radioligand kinetics and receptor occupancy was simultaneously estimated using arterial concentrations as input function and including two brain regions of interest. For AZD2066, a model was developed where brain/plasma partition coefficients from ten different brain regions were included simultaneously as observations. For AZD3783, the simplified reference tissue model was extended to allow different non-specific binding in the reference region and brain regions of interest and the possibility of using white matter as reference was also evaluated. The optimal dose-selection for improved precision of receptor occupancy as well as for improved precision of the minimum effective dose of a neuropathic pain treatment was assessed, using the D-optimal as well as the Ds-optimal criteria. Simultaneous modelling of radioligand and occupancy provided a means to avoid simplifications or approximations and provided the possibility to tests or to relax assumptions. Inclusion of several brain regions of different receptor density simultaneously in the analysis, markedly improved the precision of the affinity parameter. Higher precision was achieved in relevant parameters with designs based on the Ds compared to the D-optimal criterion. The optimal design for improved precision of the relationship between dose and receptor occupancy depended on the number of brain regions and the receptor density of these regions. In conclusion, this thesis presents novel non-linear mixed effects models estimating the relationship between drug exposure and receptor occupancy, providing useful translational information, allowing for a better informed drug-development.

PET

positron emission tomography

receptor occupancy

nonlinear mixed effects

NONMEM

optimal design

dose finding

An analysis of antidepressant noncompliance in the private health sector of South Africa / Francois Naude Slabbert

Slabbert, Francois Naude

January 2014

The main aim of the thesis was to measure antidepressant (AD) non-compliance, to determine which factors are closely associated with AD non-compliance and the consequences of prolonged AD non-compliance in the private health sector of South Africa. The empirical study followed an observational, prospective, cohort study using longitudinal medicine claims data provided by a nationally representative Pharmaceutical Benefit Management company (PBM) from 1 January 2006 to 31 December 2011. Failure to respond to AD treatment and achieving remission has severe neurobiological and clinical consequences. The clinical consequences include increased social and functional impairment, higher risk for recurrence and relapse of a depressive episode, a weak treatment outcome, significant increase in treatment cost, over-utilization of health care systems, and ultimately an increased suicide risk. However, the neurobiological consequences are much more far reaching. One of the more serious yet under-recognized neurobiological complications of AD non-compliance is the development of antidepressant discontinuation syndrome (ADS), which is the result of non-compliance or the abrupt discontinuation of AD treatment. Altered serotonergic dysfunction appears central to ADS so that how an antidepressant targets serotonin will determine its relative risk for inducing ADS and thereby affect later treatment outcome. Low ADS risk with agomelatine versus other antidepressants can be ascribed to its unique pharmacokinetic characteristics as well as its distinctive actions on serotonin, including melatonergic, monoaminergic and glutamatergic-nitrergic systems. After the first four months only 34% (n=12 397) of patients were compliant. What’s more a statistically significant association was found between active ingredient consumed and compliance (p < 0.0001). Only 26.2% of patients who received amitriptyline-containing products were complaint compared to 38.8% and 38.7% in the cases of venlafaxine and duloxetine, respectively. The current study found that females have a significantly higher prevalence of MDD and HIV/AIDS when compared to males. The co-morbidity between HIV/AIDS and major depressive disorder (MDD) had a significant effect on AD treatment compliance as patients diagnosed with both HIV/AIDS and MDD (74.43. ± 32.03, 95%Cl: 71.51-77.34) displayed a lower compliance vs. MDD patients (80.94% ± 29.44, 95%Cl: 80.56-81.33). Noteworthy, observations were that 75% (p < 0.0217; Cramer’s V = 0.0388) of venlafaxine and 28.6% (p < 0.0197; Cramer’s V = -0.0705) of the paroxetine items were compliant in patients diagnosed with both HIV/AIDS and MDD. The overall compliance (35.19% acceptable compliance; n = 42 869) of patients taking both ADs and GDs was weak. In the group receiving both AD and GDs, an increased AD treatment period was associated with a significant increase (p < 0.0001) in AD compliance (406.60 days; 95%Cl: 403.20 – 409.90 vs. 252.70 days; 95%Cl: 250.20 – 255.20). In this cohort amitriptyline (29.57%), mirtazapine (31.36%) and fluoxetine (32.29%) were associated with the lowest levels of compliance, while duloxetine (40.67%) was found to have the highest compliance. Lastly, ADs with highest non-compliance were associated with an increase use in GDs. Alprazolam (n = 10 201) and zolpidem (n = 9 312) were the most frequently dispensed GDs in combination with AD treatment. In conclusion the current study confirms that AD non-compliance is as big an obstacle in developing countries as it is in developed countries. Antidepressant treatment non-compliance has far reaching consequences especially with the development of ADS which further complicates MDD and might be a precursor for the development of TRD. Several factors were found to be closely associated with AD treatment non-compliance which include; pharmacological class of AD, gender, chronic co-morbid illnesses and a short treatment period. / PhD (Pharmacy Practice), North-West University, Potchefstroom Campus, 2015

Antidepressants

Compliance

Medicine possession ratio

Major depressive disorder

South Africa

Half-life

Anhedonia

Anxiety

Serotonin transporter

Phasic receptor occupancy

Neuroplasticity

HIV/AIDS

Venlafaxine

An analysis of antidepressant noncompliance in the private health sector of South Africa / Francois Naude Slabbert

Slabbert, Francois Naude

January 2014

The main aim of the thesis was to measure antidepressant (AD) non-compliance, to determine which factors are closely associated with AD non-compliance and the consequences of prolonged AD non-compliance in the private health sector of South Africa. The empirical study followed an observational, prospective, cohort study using longitudinal medicine claims data provided by a nationally representative Pharmaceutical Benefit Management company (PBM) from 1 January 2006 to 31 December 2011. Failure to respond to AD treatment and achieving remission has severe neurobiological and clinical consequences. The clinical consequences include increased social and functional impairment, higher risk for recurrence and relapse of a depressive episode, a weak treatment outcome, significant increase in treatment cost, over-utilization of health care systems, and ultimately an increased suicide risk. However, the neurobiological consequences are much more far reaching. One of the more serious yet under-recognized neurobiological complications of AD non-compliance is the development of antidepressant discontinuation syndrome (ADS), which is the result of non-compliance or the abrupt discontinuation of AD treatment. Altered serotonergic dysfunction appears central to ADS so that how an antidepressant targets serotonin will determine its relative risk for inducing ADS and thereby affect later treatment outcome. Low ADS risk with agomelatine versus other antidepressants can be ascribed to its unique pharmacokinetic characteristics as well as its distinctive actions on serotonin, including melatonergic, monoaminergic and glutamatergic-nitrergic systems. After the first four months only 34% (n=12 397) of patients were compliant. What’s more a statistically significant association was found between active ingredient consumed and compliance (p < 0.0001). Only 26.2% of patients who received amitriptyline-containing products were complaint compared to 38.8% and 38.7% in the cases of venlafaxine and duloxetine, respectively. The current study found that females have a significantly higher prevalence of MDD and HIV/AIDS when compared to males. The co-morbidity between HIV/AIDS and major depressive disorder (MDD) had a significant effect on AD treatment compliance as patients diagnosed with both HIV/AIDS and MDD (74.43. ± 32.03, 95%Cl: 71.51-77.34) displayed a lower compliance vs. MDD patients (80.94% ± 29.44, 95%Cl: 80.56-81.33). Noteworthy, observations were that 75% (p < 0.0217; Cramer’s V = 0.0388) of venlafaxine and 28.6% (p < 0.0197; Cramer’s V = -0.0705) of the paroxetine items were compliant in patients diagnosed with both HIV/AIDS and MDD. The overall compliance (35.19% acceptable compliance; n = 42 869) of patients taking both ADs and GDs was weak. In the group receiving both AD and GDs, an increased AD treatment period was associated with a significant increase (p < 0.0001) in AD compliance (406.60 days; 95%Cl: 403.20 – 409.90 vs. 252.70 days; 95%Cl: 250.20 – 255.20). In this cohort amitriptyline (29.57%), mirtazapine (31.36%) and fluoxetine (32.29%) were associated with the lowest levels of compliance, while duloxetine (40.67%) was found to have the highest compliance. Lastly, ADs with highest non-compliance were associated with an increase use in GDs. Alprazolam (n = 10 201) and zolpidem (n = 9 312) were the most frequently dispensed GDs in combination with AD treatment. In conclusion the current study confirms that AD non-compliance is as big an obstacle in developing countries as it is in developed countries. Antidepressant treatment non-compliance has far reaching consequences especially with the development of ADS which further complicates MDD and might be a precursor for the development of TRD. Several factors were found to be closely associated with AD treatment non-compliance which include; pharmacological class of AD, gender, chronic co-morbid illnesses and a short treatment period. / PhD (Pharmacy Practice), North-West University, Potchefstroom Campus, 2015

Antidepressants

Compliance

Medicine possession ratio

Major depressive disorder

South Africa

Half-life

Anhedonia

Anxiety

Serotonin transporter

Phasic receptor occupancy

Neuroplasticity

HIV/AIDS

Venlafaxine