Postoje pacientů k léčbě antidepresivy / Attitudes of patients toward the antidepressant therapy

Dvořáčková, Vendula

January 2013

Vendula Dvořáčková Attitudes of patients toward antidepressant medication Master's thesis Charles University in Prague, the Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Sciences Pharmacy Background: The master's thesis deals with evaluation of attitudes of inpatients in the psychiatric clinic of Military University Hospital Prague. The main task was to clarify the relation between therapy attitude and the prescribed medication, diagnosis and sociodemographic characteristics. Methods: The data were collected using the Drug Attitude Inventory questionnaire (Czech version by Masopust) where sum of negative and positive answers was used to determine the patient's general attitude. Patients' characteristics were acquired from a data-entry form, specific medication from the medical records. Results: In the observed group women seemed to have a more positive attitude toward the treatment compared to men, similarly to people with a higher level of education and patients between 31 - 40 years of age in comparison with other age groups. The most positive responses were observed in patients who were prescribed agomelatine, trazodone and paroxetine. People diagnosed with personal disorders or affective bipolar disorder inclined to positive answers as well, on the other hand most negative...

Pharmaceutical salts of the antidepressants Paroxetine and Fluoxetine, selective serotonin reuptake inhibitors: crystal engineering, solid-state characterization and thermodynamic aspects / Sais farmacêuticos dos antidepressivos Paroxetina e Fluoxetina, inibidores seletivos de recaptação de serotonina: engenharia de cristais, caracterização de estado sólidos e aspectos termodinâmicos

Carvalho Júnior, Paulo de Sousa

30 September 2016

The development of new solid forms of active pharmaceutical ingredients (API) is relevant both from fundamental as well as industrial perspectives. To this end, Crystal Engineering plays an ever-increasing important role in pharmaceutical sciences. Among the crystal engineering strategy, salt formation is the most important and implemented approach. The salt forms of API could be used to modulate and tuned the solubility and stability of API to provide optimal practical uses. Herein, we report pharmaceutical salts of two Selective Serotonin Reuptake Inhibitor antidepressants used in the treatment of depression and anxiety disorders, Paroxetine (PRX) and Fluoxetine (FLX). For this purpose, salt formers, supramolecular synthesis and crystallization protocols have been driven by the systematization of structural and supramolecular data of molecules and analogues from the Cambridge Structural Database. Paroxetine bromide hemihydrate ((PRXBr)0.5H2O), Paroxetine Nitrate hydrate (PRXNO3H2O) and two polymorphs of Fluoxetine Nitrate (FLXNO3) have obtained. All were characterized by a combination of techniques including Single Crystal X-ray Diffraction, Differential Scanning Calorimetry (DSC), Thermogravimetry analysis (TGA), Hot Stage Microscopy, Fourier transform infrared spectroscopy (IR) and solubility measurements. Since the hydration/dehydration process in APIs induces phase transitions that compromise its efficiency, the structural characterization of (PRXBr)0.5H2O help to understand its reversible dehydration process. Also, this study has implication in the understating of dehydration of isostructural PRX hydrochloride salt. Additionally, the (PRXNO3)H2O have shown the conformational flexibility and supramolecular diversity of PRX. On the other hand, the chirality of FLX is related to two nitrate salt polymorphs. A racemate and a non-centrosymmetric structure with independent enantiomers in the asymmetric unit were obtained for FLXNO3. Their packing have shown the existence of different racemic motifs, resulting in different enantiomer orientations The rare occurrence of racemic systems in non-centrosymmetric space groups becomes this event a noteworthy case. By their physicochemical properties, the polymorphs were monotropically related. The scientific contributions of this thesis show the diversity of the solid forms and define candidates to new antidepressants APIs solid formulations. / O desenvolvimento de novas formas sólidas de ingredientes farmacêuticos ativos (API) é relevante tanto numa perspectiva fundamental como industrial. Para tal, a Engenharia de cristais tem desempenhado um papel importante nas ciências farmacêuticas. Dentre as estratégias, a formação de sais é a abordagem mais importante e implementada. Os sais de APIs são capazes de modular e ajustar a solubilidade e a estabilidade, a fim de proporcionar uso prático. Nesta tese, são reportados sais de dois fármacos Inibidores Seletivos de Recaptação de Serotonina, consolidados no tratamento da depressão e distúrbios de ansiedade, a Paroxetina (PRX) e a Fluoxetina (FLX). Brometo de Paroxetina hemiidratado ((PRXBr)0.5H2O), Nitrato de Paroxetina hidratado (PRXNO3H2O) e polimorfos de Nitrato de Fluoxetina (FLXNO3), síntese e protocolos de cristalização foram cuidadosamente delineados, com base na sistematização de dados estruturais e supramoleculares das moléculas e seus análogos, depositados no Cambridge Structural Database. Todos os sais foram caracterizados por Difração de Raios-X por Monocristal, Calorimetria Explanatória Diferencial (DSC), Análise termogravimétrica (TGA), Termomicroscopia, Espectroscopia vibracional na região do infravermelho (IR) e solubilidade. Considerando que a hidratação/desidratação induz mudanças de fases que comprometem a eficiência do API, a caracterização do (PRXBr)0.5H2O auxiliou no entendimento do processo de desidratação reversível que ocorre para esse fármaco. Estas mudanças de fase resultam também em implicações sobre a compreensão do processo de desidratação do sal isoestrutural de cloreto de PRX hemiidratado. Além disso, por meio da elucidação estrutural do (PRXNO3)H2O, foi possível analisar a diversidade conformacional e supramolecular da PRX. Quanto à FLX, verificou-se que sua quiralidade está relacionada com seu polimorfismo. Um racemato e uma estrutura não centrossimétrica com dois enatiômeros independentes na unidade assimétrica foram obtidos para o FLXNO3. A comparação destas estruturas permitiu mostrar a existência de arranjos supramoleculares racêmicos, constituídos por diferentes orientações de enatiômeros. A rara ocorrência de sistemas racêmicos em grupos espaciais não-centrossimétricos tornou este evento um caso notável. A partir das propriedades físico-químicas, os polimorfos puderam ser monotropicamente relacionados. Os resultados desta tese trazem importantes contribuições científicas para diversidade de formas sólidas e também define novas formulações sólidas para utilização como antidepressivos.

Crystal engineering

Engenharia de cristais

Estado sólido

Solid-state

Mechanisms of platelet inhibition by the selective serotonin reuptake inhibitor citalopram

Roweth, Harvey George

January 2018

Background: Selective serotonin reuptake inhibitor (SSRI) antidepressants prevent serotonin (5-HT) uptake by the serotonin transporter (SERT). Since blood platelets express SERT, SSRIs may modify platelet function and the risk of cardiovascular disease. However, the beneficial or adverse effects of SSRIs on arterial thrombosis are poorly characterised and detailed in vitro experimental data is limited. The SSRI citalopram is a racemate, the (S)-isomer being the more potent SERT inhibitor. Although citalopram has been shown to inhibit platelets in vitro, it is unclear whether this is mediated via SERT blockade. Aim: To determine if citalopram inhibits platelet function via SERT blockade, or through a novel mechanism of action. Findings: 5-HT uptake into platelets was blocked by both citalopram isomers at concentrations that had no apparent effect on platelet function. Despite the (S)-citalopram isomer being the more potent SERT inhibitor, (R)-citalopram was equally potent at inhibiting other platelet functions. These findings strongly suggest that inhibition of platelet function by citalopram in vitro is not mediated by blocking SERT. Subsequent experiments identified two putative mechanisms for citalopram-mediated platelet inhibition: 1) citalopram did not inhibit calcium store release induced by the platelet agonist U46619, despite blocking subsequent Rap1 activation. A credible target for this inhibitory mechanism is the calcium and diacylglycerol guanine nucleotide exchange factor-1 (CalDAG-GEFI): 2) citalopram suppressed early protein phosphorylation within the GPVI pathway, resulting in the inhibition of subsequent platelet responses. Further experiments show that other commonly used antidepressants also inhibit platelets. As with citalopram, inhibition was only observed at concentrations above those required to block SERT, suggesting that alternative inhibitory mechanism(s) are responsible. Conclusions: Data presented in this thesis support two novel putative mechanisms of citalopram-induced platelet inhibition. These findings demonstrate that citalopram and other antidepressants inhibit platelets independently of their ability to block SERT-dependent 5-HT transport. The identification of thesemechanisms provides a pharmacological approach to develop novel antiplatelet agents based on current antidepressants.

Pharmaceutical salts of the antidepressants Paroxetine and Fluoxetine, selective serotonin reuptake inhibitors: crystal engineering, solid-state characterization and thermodynamic aspects / Sais farmacêuticos dos antidepressivos Paroxetina e Fluoxetina, inibidores seletivos de recaptação de serotonina: engenharia de cristais, caracterização de estado sólidos e aspectos termodinâmicos

Paulo de Sousa Carvalho Júnior

30 September 2016

The development of new solid forms of active pharmaceutical ingredients (API) is relevant both from fundamental as well as industrial perspectives. To this end, Crystal Engineering plays an ever-increasing important role in pharmaceutical sciences. Among the crystal engineering strategy, salt formation is the most important and implemented approach. The salt forms of API could be used to modulate and tuned the solubility and stability of API to provide optimal practical uses. Herein, we report pharmaceutical salts of two Selective Serotonin Reuptake Inhibitor antidepressants used in the treatment of depression and anxiety disorders, Paroxetine (PRX) and Fluoxetine (FLX). For this purpose, salt formers, supramolecular synthesis and crystallization protocols have been driven by the systematization of structural and supramolecular data of molecules and analogues from the Cambridge Structural Database. Paroxetine bromide hemihydrate ((PRXBr)0.5H2O), Paroxetine Nitrate hydrate (PRXNO3H2O) and two polymorphs of Fluoxetine Nitrate (FLXNO3) have obtained. All were characterized by a combination of techniques including Single Crystal X-ray Diffraction, Differential Scanning Calorimetry (DSC), Thermogravimetry analysis (TGA), Hot Stage Microscopy, Fourier transform infrared spectroscopy (IR) and solubility measurements. Since the hydration/dehydration process in APIs induces phase transitions that compromise its efficiency, the structural characterization of (PRXBr)0.5H2O help to understand its reversible dehydration process. Also, this study has implication in the understating of dehydration of isostructural PRX hydrochloride salt. Additionally, the (PRXNO3)H2O have shown the conformational flexibility and supramolecular diversity of PRX. On the other hand, the chirality of FLX is related to two nitrate salt polymorphs. A racemate and a non-centrosymmetric structure with independent enantiomers in the asymmetric unit were obtained for FLXNO3. Their packing have shown the existence of different racemic motifs, resulting in different enantiomer orientations The rare occurrence of racemic systems in non-centrosymmetric space groups becomes this event a noteworthy case. By their physicochemical properties, the polymorphs were monotropically related. The scientific contributions of this thesis show the diversity of the solid forms and define candidates to new antidepressants APIs solid formulations. / O desenvolvimento de novas formas sólidas de ingredientes farmacêuticos ativos (API) é relevante tanto numa perspectiva fundamental como industrial. Para tal, a Engenharia de cristais tem desempenhado um papel importante nas ciências farmacêuticas. Dentre as estratégias, a formação de sais é a abordagem mais importante e implementada. Os sais de APIs são capazes de modular e ajustar a solubilidade e a estabilidade, a fim de proporcionar uso prático. Nesta tese, são reportados sais de dois fármacos Inibidores Seletivos de Recaptação de Serotonina, consolidados no tratamento da depressão e distúrbios de ansiedade, a Paroxetina (PRX) e a Fluoxetina (FLX). Brometo de Paroxetina hemiidratado ((PRXBr)0.5H2O), Nitrato de Paroxetina hidratado (PRXNO3H2O) e polimorfos de Nitrato de Fluoxetina (FLXNO3), síntese e protocolos de cristalização foram cuidadosamente delineados, com base na sistematização de dados estruturais e supramoleculares das moléculas e seus análogos, depositados no Cambridge Structural Database. Todos os sais foram caracterizados por Difração de Raios-X por Monocristal, Calorimetria Explanatória Diferencial (DSC), Análise termogravimétrica (TGA), Termomicroscopia, Espectroscopia vibracional na região do infravermelho (IR) e solubilidade. Considerando que a hidratação/desidratação induz mudanças de fases que comprometem a eficiência do API, a caracterização do (PRXBr)0.5H2O auxiliou no entendimento do processo de desidratação reversível que ocorre para esse fármaco. Estas mudanças de fase resultam também em implicações sobre a compreensão do processo de desidratação do sal isoestrutural de cloreto de PRX hemiidratado. Além disso, por meio da elucidação estrutural do (PRXNO3)H2O, foi possível analisar a diversidade conformacional e supramolecular da PRX. Quanto à FLX, verificou-se que sua quiralidade está relacionada com seu polimorfismo. Um racemato e uma estrutura não centrossimétrica com dois enatiômeros independentes na unidade assimétrica foram obtidos para o FLXNO3. A comparação destas estruturas permitiu mostrar a existência de arranjos supramoleculares racêmicos, constituídos por diferentes orientações de enatiômeros. A rara ocorrência de sistemas racêmicos em grupos espaciais não-centrossimétricos tornou este evento um caso notável. A partir das propriedades físico-químicas, os polimorfos puderam ser monotropicamente relacionados. Os resultados desta tese trazem importantes contribuições científicas para diversidade de formas sólidas e também define novas formulações sólidas para utilização como antidepressivos.

Engenharia de cristais

Estado sólido

Crystal engineering

Solid-state

Selective Serotonin Reuptake Inhibitors and Bone Mineral Density in a Population of U. S. Premenopausal Women

Peterson, Lori J

01 January 2011

Selective Serotonin Reuptake Inhibitors and Bone mineral Density in a Population of U.S. Premenopausal Women May 2011 M.S., UNIVERSITY of Massachusetts Amherst Directed by: Professor Elizabeth R. Bertone-Johnson Low bone mineral density (BMD) in post-menopausal women is a risk factor for bone fractures and osteoporosis development. Prior studies in post-menopausal women have shown the use of antidepressant medications, specifically selective serotonin reuptake inhibitors (SSRIs) to be inversely related to BMD. However, the association has not been studied in pre-menopausal women. Current SSRI use is widespread with 8% of U.S. women age 18-44 reporting use. We evaluated the association between SSRIs and BMD and bone mineral content (BMC) cross-sectionally using data from the University of Massachusetts Vitamin D Status Study. SSRI use, diet, and lifestyle factors were assessed by questionnaire. BMD and BMC were measured using dual-energy x-ray absorptiometry (DEXA). The study included 256 women aged 18-30 (mean=21.6 years, SD=4.3 years). In this population, SSRI use was 5%, BMD values ranged from 0.97-1.38 g/cm2 (mean 1.16, SD 0.08), and BMC values ranged from 1833g to 3682g (mean 2541.5, SD=349.2). After adjustment for age, body mass index, and physical activity, mean BMD in the 13 users of SSRIs was 1.15g/cm2 (SD=0.06) compared to 1.16g/cm2 (SD=0.77) in the 243 non-users (p =0.66). After the same adjustments, mean BMC in the 13 users was 2467.1g (SD=285.0) compared to 2547.6g (SD=352.6) in the 243 non-users (p=0.94). Our findings do not support an inverse association between SSRI use and BMD or BMC. However, given the prevalence of SSRI use in young women and the potential for adverse effects on bone health, further study of this association is warranted.

Selective Serotonin Reuptake Inhibitors

Bone Mineral Density

Bone Mineral Content

Dual Energy X-ray Absorptiometry

Premenopausal

Epidemiology

Behavioral, Functional, and Neurophysiological Responses to One-week Administration of Escitalopram

Molloy, Eóin

12 July 2022

Doctoral thesis assessing the effects of one-week of escitalopram administration on healthy humans during sequence motor learning training. Published in 3 research articles.

info:eu-repo/classification/ddc/610

ddc:610

The Regulation of Brain Serotonergic and Dopaminergic Neurons: The Modulatory Effects of Selective Serotonin Reuptake Inhibitors, Atypical Neuroleptics and Environmental Enrichment

MacGillivray, Lindsey E.S.

04 1900

<p>The brain serotonergic and dopaminergic systems broadly influence our internal experience and the ways in which we interact with the outside environment, with crucial regulatory roles in mood, sleep, appetite and the control of voluntary movement. Serotonin and dopamine neurons are themselves influenced by a wide variety of internal and external factors, many of which remain poorly understood. The central aim of this thesis was to better characterize several of these modulatory influences via exploratory investigations involving pharmaceutical agents or environmental modification. Specifically, I examined the modulatory effects of selective serotonin reuptake inhibitors (SSRIs), atypical neuroleptics and environmental enrichment with exercise on the regulation of brain serotonin and dopamine neurons.</p> <p>This thesis documents, for the first time, that (1) inhibition of the serotonin transporter (SERT) by SSRIs induces a rapid and region-selective reduction of tryptophan hydroxylase (TPH)-immunoreactive neurons in serotonergic brainstem nuclei that persists over a prolonged treatment course; that (2) selective blockade of SERT by SSRIs can rapidly induce a reduction of tyrosine hydroxylase (TH)-positive dopaminergic neurons in the substantia nigra (SN) and the ventral tegmental area (VTA) that, again, persists over a lengthy treatment course; that (3) environmental enrichment with exercise can potentiate the effect of SERT inhibition on SN dopaminergic neurons, but not the dorsal raphe nucleus (DRN) serotonergic neurons; that (4) that SSRI fluoxetine triggers a significant upregulation of microglia in the SN; that (5) environmental enrichment with exercise can reduce TPH immunoreactivity in the DRN and TH immunoreactivity in the SN and VTA, even in the absence of any pharmacological intervention, and finally, that (6) the atypical neuroleptic risperidone significantly reduces TPH in the DRN of both young and aged animals and reduces DRN Nissl counts in aged animals. Taken together, the body of work included in this thesis suggests that SSRIs, atypical neuroleptics and environmental enrichment with exercise can have profound effects on brain serotonergic and dopaminergic neurons, possibly accounting for some of the side effects and therapeutic benefits associated with these interventions.</p> / Doctor of Philosophy (PhD)

serotonin

dopamine

tryptophan hydroxylase

tyrosine hydroxylase

selective serotonin reuptake inhibitors

environmental enrichment

Molecular and Cellular Neuroscience

Molecular and Cellular Neuroscience

Determinação de fármacos antidepressivos em leite materno / Determination of antidepressants in breast milk

Salazar, Fernanda Rodrigues

January 2016

O uso de fármacos durante a lactação é uma prática comum; porém, os tratamentos farmacológicos impõem grandes dúvidas tanto aos profissionais quanto às nutrizes sobre a segurança do uso destes durante este período. A amamentação é uma forma de vínculo entre mãe e bebê e está associada a diversos benefícios nutricionais, imunológicos, cognitivos, psicoafetivos, econômicos e sociais. A depressão é um problema clínico importante durante o período pós-parto, e a vulnerabilidade para o início ou recorrência de sintomas depressivos aumenta a possibilidade de uso de psicofármacos enquanto ocorre a lactação. Os antidepressivos inibidores seletivos da recaptação da serotonina são comumente prescritos para o tratamento destes quadros depressivos, entre eles fluoxetina, sertralina, citalopram e paroxetina, sendo que a maioria destes é excretada no leite materno e há grande variabilidade na quantidade de analitos que pode ser recebida pelo lactente. Bupropiona é um fármaco antidepressivo utilizado para o tratamento do tabagismo e quadros depressivos e tem sua excreção ao leite materno relatada em literatura. Métodos bioanalíticos para determinação da excreção de fármacos antidepressivos foram desenvolvidos e validados por cromatografia líquida acoplada a espectrômetro de massas e cromatografia líquida com detecção ultravioleta. Estes métodos demonstraram serem seletivos, lineares, precisos e exatos, com limites de quantificação de 5 ng/mL (fluoxetina, citalopram e bupropiona) e 20 ng/mL (sertralina e paroxetina) para método por LC-MS e de 200 ng/mL para todos os analitos no método por CLAE-UV. As amostras de leite materno foram coletadas em Banco de Leite de mães que declararam utilizar fluoxetina ou sertralina ou paroxetina e analisados. Os dados de concentração encontrados para os fármacos referidos estão dentro da faixa encontrada em literatura confirmando sua excreção no leite materno. Paroxetina apresentou valores abaixo do limite de quantificação. Das concentrações encontradas no leite materno, foram estimadas as doses absolutas e relativas no lactante, sendo que os resultados demonstraram baixos valores em relação a estas estimativas, podendo os fármacos analisados ser considerados seguros para manutenção do uso durante a lactação. Foi também detectada nas análises por LC-MS a presença de norfluoxetina, metabólito da fluoxetina, confirmando sua excreção nesta matriz. / The use of medications during lactation is a common practice; however pharmacological treatments impose serious doubts to both, professionals and nursing mothers, about the safety of drugs use during this period. Breastfeeding is a natural form of bonding between mother and baby and it is associated with many nutritional, immunological, cognitive, psychoemotional, social and economic benefits. Depression is a major clinical problem during the postpartum period and the vulnerability to onset or recurrence of depressive symptoms increases the possibility of psychotropic drug use during lactation. Selective inhibitors of serotonin reuptake are commonly prescribed for the treatment of depressive disorders, including fluoxetine, sertraline, citalopram and paroxetine. Most of these drugs are excreted in breast milk and there is great variability in the amount of analytes that can be received by the infant. Bupropion is an antidepressant used for tabagism treatment and for depression symptoms; it is also described in literature its excretion into breast milk. Bioanalytical methods for determining the excretion of antidepressants were developed and validated by liquid chromatography coupled to mass spectrometry and liquid chromatography with ultraviolet detection. These methods proved to be selective, linear, precise and accurate with quantification limits of 5 ng/mL (fluoxetine, citalopram e bupropion) and 20 ng/mL (sertraline e paroxetine) for LC-MS method and 200 ng/mL for all analytes in the CLAE-UV method. Human milk samples were collected in milk banks from mothers to which the antidepressants fluoxetine or sertraline or paroxetine were administered, and the concentrations in this matrix were verified. Found concentrations were within the range described in the literature confirming their excretion in the breast milk. Paroxetine presented values less than limit of quantification. From the found concentrations, the absolute and relative doses in nursing were estimated. The results showed low values for these estimates and so the analyzed drugs can be considered safe to continue use during lactation. The presence of norfluoxetine, a metabolite of fluoxetine, was also detected by LC-MS, confirming its excretion in this matrix.

Leite materno

Antidepressivos

Metodo bioanalitico

Fluoxetine

Sertraline

Citalopram

Paroxetine

Bupropion

Excretion

Breast milk

Liquid chromatography

Mass spectrometry

Ultraviolet detection

Pharmacologic profiling of novel compounds via fluorometric analyses of monoamine transporter responses

Hojati, Ashkhan

01 January 2019

In humans and other organisms, monoaminergic systems are crucial in neuronal function and behavior. The monoamine transporters (MATs), which can be found on the presynaptic plasma membrane of neurons in the central nervous system (CNS), are crucial in the regulation of neurotransmitter concentration in the synaptic cleft. As the duration and concentration of neurotransmitters in the cleft affect further downstream signaling responses, these proteins are important targets for both understanding neuronal physiology and compounds of interest. Multiple theories exist proponing the contribution of MATs to a variety of mental and neurological disorders, including depression. This theory establishes that depression is caused by imbalances in monoamine neurotransmitters. Compounds such as Fluoxetine (FLX) are classified as selective serotonin reuptake inhibitors (SSRIs), these drugs selectively block the reuptake of neurotransmitters at the serotonin transporter (SERT). Since differences in MAT selectivity of inhibitory compounds are influential to selecting efficacious antidepressant treatments, we utilized a unique fluorescent analysis technique to explore three therapeutic compounds of interest (in-vitro) which contain structural similarity to FLX. Our results confirm the selectivity of FLX at SERT, and classify the novel compounds studied into different potential categories of reuptake inhibitors. We hope these compounds will be studied further to elucidate their potentially therapeutic roles and mitigation of undesired side effects seen in other medications.

Antidepressants

Fluoxetine

in-vitro assay

Reuptake inhibitor

Monoamines

Depression

Investigative Techniques

Molecular and Cellular Neuroscience

Other Chemicals and Drugs

From achiral to chiral analysis of citalopram

Carlsson, Björn

January 2003

Within the field of depression the “monoamine hypothesis” has been the leading theory to explain the biological basis of depression. This theory proposes that the biological basis of depression is due to a deficiency in one or more of three key neurotransmitter systems, namely noradrenaline, dopamine and serotonin which are thought to mediate the therapeutic actions of virtually every known antidepressant agent. Citalopram is a selective serotonin-reuptake inhibitor (SSRI) used for the treatment of depression and anxiety disorders. Citalopram is a racemic compound, in other words composed of a 50:50 mixture of two enantiomers (S-(+)-citalopram and R-(-)-citalopram) and with one of the enantiomers (S-(+)-citalopram) accounting for the inhibitory effect. At the time of introduction of citalopram the physician needed a therapeutic drug monitoring service to identify patients with interactions, compliance problems and for handling questions concerning polymorphic enzymes and drug metabolism. An achiral analytical separation method based on solid-phase extraction followed by high-performance liquid chromatography (HPLC) was developed for routine therapeutic drug monitoring (TDM) of citalopram and its two main demethylated metabolites. As the data available on citalopram were from achiral concentration determinations and to be able to further investigate citalopram enantiomers effects and distribution, a chiral method for separation of the enantiomers of citalopram and its demethylated metabolites was established. The advances within chiral separation techniques have made measurement of the concentrations of the individual enantiomers in biological fluids possible. The process behind enantioselective separation is however not fully understood and the mechanism behind the separation can be further scrutinized by the use of multivariate methods. A study of the optimization and characterization of the separation of the enantiomers of citalopram, desmethylcitalopram and didesmethylcitalopram on an acetylated ß-cyclodextrin column, by use of two different chemometric programs - response surface modelling and sequential optimization was performed. Sequential optimization can be a quicker mean of optimizing a chromatographic separation; response surface modelling, in addition to enabling optimization of the chromatographic process, also serves as a tool for learning more about the separation mechanism. Studies of the antidepressant effect and pharmacokinetics of citalopram have been performed in adults, but the effects on children and adolescents have only been studied to a minor extent, despite the increasing use of citalopram in these age groups. A study was initiated to investigate adolescents treated for depression, with respect to the steady-state plasma concentrations of the enantiomers of citalopram and its demethylated metabolites. The ratios between the S- and R-enantiomers of citalopram and didesmethylcitalopram were in agreement with studies involving older patients. The concentrations of the S-(+)- and R-(-) enantiomers of citalopram and desmethylcitalopram were also in agreement with values from earlier studies. The results indicate that the use of oral contraceptives may have some influence on the metabolism of citalopram. This might be because of an interaction of the contraceptive hormones with the polymorphic CYP2C19 enzyme. Even though the SSRIs are considered less toxic compared with older monoamine-active drugs like the tricyclic/tetracyclic antidepressants, the risk of developing serious side effects such as ECG abnormalities and convulsions has been seen for citalopram, when larger doses have been ingested. Furthermore, fatal overdoses have been reported where citalopram alone was the cause of death. Data on the toxicity of each of the enantiomers in humans have not been reported and no data on blood levels of the enantiomers in cases of intoxication have been presented. An investigation was initiated on forensic autopsy cases where citalopram had been found at the routine screening and these cases were further analysed with enantioselective analysis to determine the blood concentrations of the enantiomers of citalopram and metabolites. Furthermore the genotyping regarding the polymorphic enzymes CYP2D6 and CYP2C19 were performed. In 53 autopsy cases, we found increasing S/R ratios with increasing concentrations of citalopram. We found also that high citalopram S/R ratio were associated with high parent drug to metabolite ratio and may be an indicator of recent intake. Only 3.8 % were found to be poor metabolizers regarding CYP2D6 and for CYP2C19 no poor metabolizer was found. Enantioselective analysis of citalopram and its metabolites can provide valuable information about the time that has elapsed between intake and death. Genotyping can be of help in specific cases but the possibility of pharmacokinetic interactions is apparently a far greater problem than genetic enzyme deficiency. / On the day of the public defence the status of article IV was: Submitted.

depression

noradrenaline

dopamine

serotonin

citalopram

therapeutic drug monitoring (TDM)

enantioselective separation

MEDICINE

MEDICIN