TY  - JOUR
AU  - Smith, Robert
AU  - Tveito, Marit
AU  - Kyllesø, Lennart
AU  - Jukić, Marin
AU  - Ingelman-Sundberg, Magnus
AU  - Andreassen, Ole
AU  - Molden, Espen
PY  - 2021
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/3805
AB  - Background: Nonadherence to antipsychotics may cause relapse and hospitalizations in patients with psychotic disorders. The purpose was to quantify and compare the outpatient's nonadherence rates of atypical antipsychotics by objective detection in blood samples. Methods: Totally, 13,217 outpatients with therapeutic drug monitoring (TDM) data of atypical antipsychotics were included. An event of complete nonadherence was defined as an occurrence of undetectable level of a prescribed antipsychotic in the blood sample submitted for TDM. Patients with such an event(s) were defined as nonadherent of the respective drug treatment (outcome). The rates of nonadherence patients were compared between the drugs by logistic regression. Results: In the study population, 70.2% of the patients were prescribed doses compliant with a schizophrenia diagnosis. The mean olanzapine equivalent dose in the population was 13.4 mg (95% confidence interval (CI): 13.3, 13.6). The frequency of nonadherence patients, regardless of drug, was 3.7% (CI: 3.4–4.0). The nonadherence patient rate was lowest in clozapine-treated patients (2.2%; CI: 1.5–2.8), followed by aripiprazole (2.3%; 1.7–2.8), risperidone (2.4%; 1.6–3.0), quetiapine (2.8%; 2.3–3.2) and olanzapine (4.9%; 4.1–5.3). Users of olanzapine had significantly higher risk of complete nonadherence (Odds ratio: 1.9; CI: 1.6–2.3, p < 0.001) compared to patients treated with other antipsychotics as a group. Conclusions: In this study, complete nonadherence of atypical antipsychotics, measured as undetectable blood level, was disclosed for ~5% of outpatients with psychotic disorders. The rate of complete nonadherence was significantly higher during olanzapine treatment compared to other atypical antipsychotics. Further studies should investigate if this reflects drug differences in tolerability or other causal relationships.
PB  - Elsevier B.V.
T2  - Schizophrenia Research
T1  - Rates of complete nonadherence among atypical antipsychotic drugs: A study using blood samples from 13,217 outpatients with psychotic disorders
VL  - 228
SP  - 590
EP  - 596
DO  - 10.1016/j.schres.2020.11.025
ER  - 

@article{
author = "Smith, Robert and Tveito, Marit and Kyllesø, Lennart and Jukić, Marin and Ingelman-Sundberg, Magnus and Andreassen, Ole and Molden, Espen",
year = "2021",
abstract = "Background: Nonadherence to antipsychotics may cause relapse and hospitalizations in patients with psychotic disorders. The purpose was to quantify and compare the outpatient's nonadherence rates of atypical antipsychotics by objective detection in blood samples. Methods: Totally, 13,217 outpatients with therapeutic drug monitoring (TDM) data of atypical antipsychotics were included. An event of complete nonadherence was defined as an occurrence of undetectable level of a prescribed antipsychotic in the blood sample submitted for TDM. Patients with such an event(s) were defined as nonadherent of the respective drug treatment (outcome). The rates of nonadherence patients were compared between the drugs by logistic regression. Results: In the study population, 70.2% of the patients were prescribed doses compliant with a schizophrenia diagnosis. The mean olanzapine equivalent dose in the population was 13.4 mg (95% confidence interval (CI): 13.3, 13.6). The frequency of nonadherence patients, regardless of drug, was 3.7% (CI: 3.4–4.0). The nonadherence patient rate was lowest in clozapine-treated patients (2.2%; CI: 1.5–2.8), followed by aripiprazole (2.3%; 1.7–2.8), risperidone (2.4%; 1.6–3.0), quetiapine (2.8%; 2.3–3.2) and olanzapine (4.9%; 4.1–5.3). Users of olanzapine had significantly higher risk of complete nonadherence (Odds ratio: 1.9; CI: 1.6–2.3, p < 0.001) compared to patients treated with other antipsychotics as a group. Conclusions: In this study, complete nonadherence of atypical antipsychotics, measured as undetectable blood level, was disclosed for ~5% of outpatients with psychotic disorders. The rate of complete nonadherence was significantly higher during olanzapine treatment compared to other atypical antipsychotics. Further studies should investigate if this reflects drug differences in tolerability or other causal relationships.",
publisher = "Elsevier B.V.",
journal = "Schizophrenia Research",
title = "Rates of complete nonadherence among atypical antipsychotic drugs: A study using blood samples from 13,217 outpatients with psychotic disorders",
volume = "228",
pages = "590-596",
doi = "10.1016/j.schres.2020.11.025"
}

Smith, R., Tveito, M., Kyllesø, L., Jukić, M., Ingelman-Sundberg, M., Andreassen, O.,& Molden, E.. (2021). Rates of complete nonadherence among atypical antipsychotic drugs: A study using blood samples from 13,217 outpatients with psychotic disorders. in Schizophrenia Research
Elsevier B.V.., 228, 590-596.
https://doi.org/10.1016/j.schres.2020.11.025

Smith R, Tveito M, Kyllesø L, Jukić M, Ingelman-Sundberg M, Andreassen O, Molden E. Rates of complete nonadherence among atypical antipsychotic drugs: A study using blood samples from 13,217 outpatients with psychotic disorders. in Schizophrenia Research. 2021;228:590-596.
doi:10.1016/j.schres.2020.11.025 .

Smith, Robert, Tveito, Marit, Kyllesø, Lennart, Jukić, Marin, Ingelman-Sundberg, Magnus, Andreassen, Ole, Molden, Espen, "Rates of complete nonadherence among atypical antipsychotic drugs: A study using blood samples from 13,217 outpatients with psychotic disorders" in Schizophrenia Research, 228 (2021):590-596,
https://doi.org/10.1016/j.schres.2020.11.025 . .

TY  - JOUR
AU  - Jukić, Marin
AU  - Smith, Robert L.
AU  - Haslemo, Tore
AU  - Molden, Espen
AU  - Ingelman-Sundberg, Magnus
PY  - 2019
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/3365
AB  - Background The polymorphic CYP2D6 enzyme metabolises the antipsychotic drugs risperidone and aripiprazole to their active metabolites, 9OH-risperidone and dehydroaripiprazole. The aim of this study was to quantify the effect of CYP2D6 genetic variability on risperidone and aripiprazole exposure and treatment in a large patient population. Methods We retrospectively obtained patient data from a routine therapeutic drug monitoring database at the Center for Psychopharmacology, Diakonhjemmet Hospital, Oslo, Norway, between Jan 1, 2005, and Oct 15, 2018. Individuals included in our analyses were CYP2D6-genotyped patients treated with risperidone or aripiprazole. Inclusion criteria for measurement of pharmacokinetic parameters (drug and metabolite serum concentrations) were oral administration of risperidone or aripiprazole, information known about prescribed daily dose and comedications, and aged older than 18 years. Exclusion criteria included polypharmacy with drugs known to be CYP2D6 inhibitors or CYP3A4 inducers or inhibitors. Treatment failure was analysed in all patients treated with risperidone or aripiprazole without these criteria. The first endpoint in our analysis was the metabolism of risperidone to 9OH-risperidone and aripiprazole to dehydroaripiprazole, estimated by the log-transformed ratio between the concentrations of metabolite and parent drug (ie, the metabolic ratio for risperidone [9OH-risperidone]/[risperidone] and the metabolic ratio for aripiprazole [dehydroaripiprazole]/[aripiprazole]). Endpoint two was measurement of drug exposure, quantified by the dose-normalised sum of parent drug and active metabolite serum concentrations (ie, active moiety). The third endpoint of treatment failure was measured as the number of patients switched from risperidone or aripiprazole to another antipsychotic drug within 1 year after the last therapeutic drug monitoring analysis of risperidone or aripiprazole. Patient subgroups were defined by CYP2D6 genotype-determined metaboliser status: poor metabolisers, intermediate metabolisers, normal metabolisers, and ultrarapid metabolisers. ANOVA was used to assess the differences in metabolic ratios, active moieties, and daily doses between individual metaboliser categories, and risperidone and aripiprazole therapeutic failures were compared by logistic regression using the normal metaboliser subgroup as a reference. Findings 1288 risperidone-treated patients and 1334 aripiprazole-treated patients were included in the study, of whom 725 (56%) risperidone-treated and 890 (67%) aripiprazole-treated patients were eligible for the pharmacokinetic analyses. CYP2D6 genotype significantly changed risperidone and aripiprazole metabolism resulting in an approximately 1.6-times and 1.4-times increase in risperidone and aripiprazole active moiety exposure in poor and intermediate metabolisers compared with normal metabolisers, respectively (odds ratios [OR] for the risperidone dose-normalised active moiety concentration 1.568, 95% CI 1.401-1.736, and 1.373, 1.213-1.532; and for the aripiprazole dose-normalised active moiety concentration 1.585, 1.447-1.724, and 1.476, 1.263-1.688, respectively; p lt 0.0001 for all). Compared with doses for normal metabolisers, clinicians reduced daily doses of risperidone and aripiprazole administered to poor metabolisers by 19% (95% CI 5-35, p=0.010) and 15% (95% CI 1-28, p=0.033) respectively. The incidence of switching from risperidone to another antipsychotic was increased in ultrarapid metabolisers (OR 2.934, 95% CI 1.437-5.989, p=0.003) and poor metabolisers (1.874, 1.128-3.112, p=0.015); by contrast, the incidence of switching from aripiprazole to another antipsychotic was not significantly related to CYP2D6 metaboliser status. Interpretation CYP2D6 genotype had a substantial clinical effect on risperidone and aripiprazole exposure and on the therapeutic failure of risperidone. Pre-emptive CYP2D6 genotyping would be valuable for individualising risperidone and aripiprazole dosing and treatment optimisation. Copyright
PB  - Elsevier Sci Ltd, Oxford
T2  - Lancet Psychiatry
T1  - Effect of CYP2D6 genotype on exposure and efficacy of risperidone and aripiprazole: a retrospective, cohort study
VL  - 6
IS  - 5
SP  - 418
EP  - 426
DO  - 10.1016/S2215-0366(19)30088-4
ER  - 

@article{
author = "Jukić, Marin and Smith, Robert L. and Haslemo, Tore and Molden, Espen and Ingelman-Sundberg, Magnus",
year = "2019",
abstract = "Background The polymorphic CYP2D6 enzyme metabolises the antipsychotic drugs risperidone and aripiprazole to their active metabolites, 9OH-risperidone and dehydroaripiprazole. The aim of this study was to quantify the effect of CYP2D6 genetic variability on risperidone and aripiprazole exposure and treatment in a large patient population. Methods We retrospectively obtained patient data from a routine therapeutic drug monitoring database at the Center for Psychopharmacology, Diakonhjemmet Hospital, Oslo, Norway, between Jan 1, 2005, and Oct 15, 2018. Individuals included in our analyses were CYP2D6-genotyped patients treated with risperidone or aripiprazole. Inclusion criteria for measurement of pharmacokinetic parameters (drug and metabolite serum concentrations) were oral administration of risperidone or aripiprazole, information known about prescribed daily dose and comedications, and aged older than 18 years. Exclusion criteria included polypharmacy with drugs known to be CYP2D6 inhibitors or CYP3A4 inducers or inhibitors. Treatment failure was analysed in all patients treated with risperidone or aripiprazole without these criteria. The first endpoint in our analysis was the metabolism of risperidone to 9OH-risperidone and aripiprazole to dehydroaripiprazole, estimated by the log-transformed ratio between the concentrations of metabolite and parent drug (ie, the metabolic ratio for risperidone [9OH-risperidone]/[risperidone] and the metabolic ratio for aripiprazole [dehydroaripiprazole]/[aripiprazole]). Endpoint two was measurement of drug exposure, quantified by the dose-normalised sum of parent drug and active metabolite serum concentrations (ie, active moiety). The third endpoint of treatment failure was measured as the number of patients switched from risperidone or aripiprazole to another antipsychotic drug within 1 year after the last therapeutic drug monitoring analysis of risperidone or aripiprazole. Patient subgroups were defined by CYP2D6 genotype-determined metaboliser status: poor metabolisers, intermediate metabolisers, normal metabolisers, and ultrarapid metabolisers. ANOVA was used to assess the differences in metabolic ratios, active moieties, and daily doses between individual metaboliser categories, and risperidone and aripiprazole therapeutic failures were compared by logistic regression using the normal metaboliser subgroup as a reference. Findings 1288 risperidone-treated patients and 1334 aripiprazole-treated patients were included in the study, of whom 725 (56%) risperidone-treated and 890 (67%) aripiprazole-treated patients were eligible for the pharmacokinetic analyses. CYP2D6 genotype significantly changed risperidone and aripiprazole metabolism resulting in an approximately 1.6-times and 1.4-times increase in risperidone and aripiprazole active moiety exposure in poor and intermediate metabolisers compared with normal metabolisers, respectively (odds ratios [OR] for the risperidone dose-normalised active moiety concentration 1.568, 95% CI 1.401-1.736, and 1.373, 1.213-1.532; and for the aripiprazole dose-normalised active moiety concentration 1.585, 1.447-1.724, and 1.476, 1.263-1.688, respectively; p lt 0.0001 for all). Compared with doses for normal metabolisers, clinicians reduced daily doses of risperidone and aripiprazole administered to poor metabolisers by 19% (95% CI 5-35, p=0.010) and 15% (95% CI 1-28, p=0.033) respectively. The incidence of switching from risperidone to another antipsychotic was increased in ultrarapid metabolisers (OR 2.934, 95% CI 1.437-5.989, p=0.003) and poor metabolisers (1.874, 1.128-3.112, p=0.015); by contrast, the incidence of switching from aripiprazole to another antipsychotic was not significantly related to CYP2D6 metaboliser status. Interpretation CYP2D6 genotype had a substantial clinical effect on risperidone and aripiprazole exposure and on the therapeutic failure of risperidone. Pre-emptive CYP2D6 genotyping would be valuable for individualising risperidone and aripiprazole dosing and treatment optimisation. Copyright",
publisher = "Elsevier Sci Ltd, Oxford",
journal = "Lancet Psychiatry",
title = "Effect of CYP2D6 genotype on exposure and efficacy of risperidone and aripiprazole: a retrospective, cohort study",
volume = "6",
number = "5",
pages = "418-426",
doi = "10.1016/S2215-0366(19)30088-4"
}

Jukić, M., Smith, R. L., Haslemo, T., Molden, E.,& Ingelman-Sundberg, M.. (2019). Effect of CYP2D6 genotype on exposure and efficacy of risperidone and aripiprazole: a retrospective, cohort study. in Lancet Psychiatry
Elsevier Sci Ltd, Oxford., 6(5), 418-426.
https://doi.org/10.1016/S2215-0366(19)30088-4

Jukić M, Smith RL, Haslemo T, Molden E, Ingelman-Sundberg M. Effect of CYP2D6 genotype on exposure and efficacy of risperidone and aripiprazole: a retrospective, cohort study. in Lancet Psychiatry. 2019;6(5):418-426.
doi:10.1016/S2215-0366(19)30088-4 .

Jukić, Marin, Smith, Robert L., Haslemo, Tore, Molden, Espen, Ingelman-Sundberg, Magnus, "Effect of CYP2D6 genotype on exposure and efficacy of risperidone and aripiprazole: a retrospective, cohort study" in Lancet Psychiatry, 6, no. 5 (2019):418-426,
https://doi.org/10.1016/S2215-0366(19)30088-4 . .