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1.
  • Bastami, Salumeh, 1967- (författare)
  • Practical and clinical use of opioids
  • 2013
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Pain is a common symptom of a number of conditions including cancer and one of the most frequent reasons for seeking healthcare. Acute and chronic pain result in considerable discomfort with a detrimental impact on the quality of life. Opioids are the mainstay of pain management for many patients with severe pain. Opioids are, unfortunately, also commonly abused drugs, and are well-represented in forensic toxicology investigations.Side effects related to the central nervous system are the major reasons fordiscontinuation of opioid treatment. In this thesis, we tested the hypothesis that local analgesic treatment by opioids, without the usual opioid-related side effects, could be a potential alternative to systemic opioid treatment. We examined the analgesic effect of topically applied morphine in a randomized, double blind, cross over study in patients with painful leg ulcers. Significant reduction of pain was obtained after application of both morphine and placebo gel. Morphine reduced pain more than placebo but the difference was not statistically significant. However, morphine could reduce pain considerably more than placebo in those cases where VAS (Visual analog scale) was higher initially.Another issue with opioid therapy is the substantial individual variability in response to opioids including morphine and tramadol. We investigated the significance of UGT2B7, CYP2D6, OPRM1 and ABCB1 polymorphisms for pharmacokinetic and pharmacodynamic properties of morphine and tramadol. We showed that genetic variants in CYP2D6 and UGT2B7 have an important role in the metabolism of tramadol and morphine respectively. While the role of SNPs in ABCB1 remained unclear, genetic variants in OPRM1 gene were correlated with the required dose of morphine. Taken together, these findings suggest that genotypes should be taken into consideration when interpreting clinical pharmacology and forensic toxicology results.Opioids, besides their analgesic properties, have other pharmacological effects including effects on immune system. We evaluated potential differences between commonly used opiates with regard to their effect on the immune system. We found an inhibition of cytokine release, in the order of potency as follows: tramadol > ketobemidone >morphine >fentanyl. All opioids with the exception of fentanyl were capable of inhibiting production of mRNAs for TNF-alpha and IL-8. Further studies are needed to understand the clinical implications of the observed immunosuppressive effects of opioids and to improve opioid treatment strategies in patients with cancer.Here, we have found that individual genotype matters and affects the individual response. Further research is warranted to tailor individualized treatment. Personalized medicine has increased in importance and will hopefully in the near future become standard procedure to improve and predict the outcome of treatment by opioids.
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2.
  • Chermá Yeste, Maria Dolores, 1961- (författare)
  • Therapeutic Drug Monitoring in Psychiatry : Some aspects of utility in clinical practice and research
  • 2009
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Background and objectives: Several new psychoactive drugs for the treatment of psychiatric disorders have been introduced onto the market since the late 1980s. Basic aspects of pharmacodynamics and pharmacokinetics (PK) are investigated before approval for general prescription. Thus, a limited number of subjects are exposed to the drug before it is marketed and only sparse measurements of drug concentration are performed during phases II and III of drug development. The objective of this thesis was to provide further descriptive PK and linked patients data in naturalistic clinical settings. The PK of psychoactive drugs was also studied in the elderly and the young, major risk groups that are exposed in normal everyday clinical practice but that are underrepresented in the phases of drug development. The PK-data were to be assessed by samples sent to the Therapeutic Drug Monitoring (TDM) laboratory service. In a subset of individuals, the genotypes of the cytochrome P450 (CYP) enzymes were described.Results: Serum concentration of the parent compound and its metabolites was provided from TDM-data on antidepressant escitalopram (Paper I) and antipsychotic ziprasidone (Paper II). A large interindividual PK variability was found. The daily dose of the drug was higher than the defined daily dose (DDD) for both escitalopram and ziprasidone (median dose 20 mg and 120 mg, respectively). The median number of drugs per patient, apart from the studied drug, was 4 and 3, respectively (range 1-18). If repeated eligible TDM-data were available, change in treatment strategies could be seen between the first and second sample for the patient, and the metabolite/parent compound (M/P) ratio had lower intraindividual than interindividual variation in the escitalopram study but opposite results were found in the ziprasidone study.The prescription of antidepressant drugs (ADs) in the nursing homes studied was 38 % (Paper III). The concentration of the ADs was higher, or much higher, than could be expected from the dose administered in 73 %. The majority of the elderly people were treated with citalopram. No clear time schedule for how long the drug treatment should continue was found in the patients’ current medical record. The median number of drugs per patient apart from the AD was 11 (range 4-19), no monotherapy was found in these patients. The genetically impaired metabolic activity of CYP enzymes correlated to higher drug concentration as expected, in patients medicated with an AD that is substrate for the CYP enzyme genotype.The concentrations of ADs were as expected from the dose administered in 63 % of the children/adolescents evaluated (Paper IV). The majority of TDM samples requested sertraline. PK outcome of sertraline was similar to the results in adult populations. Monotherapy was documented in 49 % (median number of drugs apart from AD was 1 per patient, range 1-7). Changes in treatment strategies were also shown, if repeated TDM-samples were available. The median variation of the M/P ratio for sertraline between the first and the last samples within the same patient was 20 % (the interindividual variation was 37 %). The poor metabolizers (PM) for CYP2D6 medicated with a CYP2D6 substrate had a lower dose than did non-PM for the same drug.Conclusion: These studies provide reference data for the evaluation of the therapeutic response, i.e. a reference range of what is to be expected in a normal clinical setting, as well as the toxicological information concerning the psychoactive drugs studied. When available, the M/P ratio between two patients’ samples may assess patient compliance, as well as drug-drug interactions. Thus, the use of TDM can be beneficial for individual dose optimisation and drug safety, above all in the studied populations, elderly people and children/adolescents, when the selection of doses requires a consideration of PK parameters. TDM may be a tool for research, increasing knowledge of the psychoactive drug in TDM service, as well as toxicology. A more frequent clinical use of TDM and pharmacogenetic testing in clinical practice would contribute to a better quality when treating with psychoactive drugs.
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3.
  • Karlsson, Louise (författare)
  • P-glycoprotein and chiral antidepressant drugs : Pharmacokinetic, pharmacogenetic and toxicological aspects
  • 2012
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • The blood-brain barrier (BBB) is formed by the capillary endothelial cells, joined together by tight junctions, with transporter proteins. BBB acts to regulate the brain concentrations of substances including many drugs. Transport across the cells is necessary for a drug to ensure that the drug reaches the site of action and transport proteins such as P-glycoprotein (P-gp; ABCB1) can limit the entrance into various tissues, including the brain.Molecules that are not superimposable on their mirror images and thus exist in two enantiomeric forms (enantiomers) are said to be chiral. A racemic compound is one composed of a 50:50 mixture of two enantiomers, S- and R-enantiomers. Two examples of frequently prescribed racemic drugs are the chiral antidepressants venlafaxine (VEN) and citalopram (CIT). The enantiomers of VEN possess different pharmacodynamic profiles where the R-enantiomer is a potent inhibitor of both serotonin and noradrenaline reuptake (SNRI), while the S-enantiomer is more selective in inhibiting serotonin reuptake (SSRI). The SSRI effect of CIT resides in the S-enantiomer, whereas the R-enantiomer is considered to be therapeutically inactive, or even that it counteracts the effects. The S-enantiomer of CIT is now available as a separate SSRI (escitalopram, EsCIT). VEN and CIT are also among the most commonly found drugs in forensic autopsy cases.Few previous studies have examined a possible enantioselective activity of P-gp. Thus, the general aim of this thesis was to study the enantiomeric distribution of chiral antidepressant drugs, focusing on the role of P-gp in the BBB. For this purpose, a mouse model disrupted of the genes coding for P-gp (abcb1ab (-/-) mice) was used. Brain and serum concentrations of the enantiomers of VEN and CIT, and their major metabolites, were compared to the corresponding wild-type mice (abcb1ab (+/+) mice). The open-field locomotor and rearing activities were examined after chronic VEN administration. In addition to the animal studies, genetic and toxicological aspects of P-gp were studied in a forensic autopsy material, where intoxication cases were compared with cases that were not related to intoxications.The brain to serum concentration ratios for VEN, CIT and EsCIT differed between knockout mice and wild-type mice, with 2-3 fold higher brain concentrations in mice with no expression of P-gp. Hence, all studied drugs, and their major metabolites, were substrates for P-gp. There was no evidence for a stereoselective P-gp mediated transport. The P-gp substrate properties were reflected in the open-field behavior test where the knockout mice displayed increased center activity compared with wild-type mice following chronic VEN exposure. The genotype distribution of ABCB1 SNPs C1236T, G2677T and C3435T in VEN positive cases was significantly (or borderline) different between the intoxication cases and the non-intoxication cases. This difference in genotype distribution was not observed for the CIT positive cases.To conclude, the present work has led to an increased knowledge about how the enantiomers of VEN and CIT are affected by the BBB transporter P-gp. Using an animal model, VEN and CIT have proved to be actively transported out of the brain by P-gp and no difference was observed for the enantiomers with regard to P-gp transport. Further, the ABCB1 genotype distribution was different in intoxication cases compared with non-intoxication cases. Taken together, these findings offer the possibility that the expression of P-gp in humans may be a contributing factor for limited treatment response and increased risk of side-effects following antidepressant drug treatment.
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4.
  • Lood, Yvonne (författare)
  • Testosterone Use and Abuse : Methodological Aspects in Forensic Toxicology and Clinical Diagnostics
  • 2021
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Abuse of anabolic androgenic steroids (AAS) is widespread in society and is today a major public health problem, associated with mental and somatic adverse effects and risk behavior, such as use of other illicit drugs and criminality. Testosterone, the most important endogenous male androgen, is therapeutically used in replacement therapy but is also extensively used as a doping agent. Traditionally, testosterone abuse is detected in urine in forensic cases and in serum in clinical diagnosis and monitoring, and free bioavailable serum testosterone is calculated by formulas. Salivary testosterone is however an attractive biomarker, as testosterone in saliva is supposed to reflect free testosterone in serum. The aim of this thesis was to investigate the abuse of AAS from a forensic perspective, particularly focusing on testosterone and methodological problems and potential alternative matrices for measurements of testosterone in forensic and clinical assessments. In the first study the toxicological findings in individuals suspected of doping offences, registered in the Swedish national forensic toxicology database were investigated (paper I). In paper II, testosterone levels in serum, saliva, and urine in clinical patients during replacement therapy with testosterone undecanoate (Nebido®) were studied. Further, the sensitivity of the current procedure for detection of testosterone abuse was investigated by method comparison using isotope ratio measurement (paper III) and a quantitative LC-MS/MS method for testosterone in serum and saliva was developed and presented (paper IV). It was found that testosterone was most frequently detected in the forensic cases and co-abuse of narcotics was common among AAS abusers. Methodological problems in detection of testosterone abuse using the present procedures was identified, indicating a need for new analytical strategies. A sensitive and highly specific LC-MS/MS method was developed for determination of testosterone in serum and saliva, which was shown suitable for analysis of forensic and clinical samples. Salivary testosterone was shown to correlate well with free serum testosterone in both male and female, and a sensitive marker in testosterone therapy, especially in females. In conclusion, it was found that saliva might have a potential as an alternative matrix for detection of illicit administration of testosterone and for diagnosis and monitoring of androgenic status. 
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5.
  • Nilsson, Gunnel, 1950- (författare)
  • Zopiclone degradation in biological samples : Characteristics and consequences in forensic toxicology
  • 2014
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Bio-analytical results are influenced by in vivo factors such as genetics, pharmacological and physiological conditions and in vitro factors such as specimen composition, sample additives and storage conditions. Zopiclone (ZOP) is a short-acting hypnotic drug (Imovane®) used for treatment of insomnia. ZOP is metabolized by three major pathways; oxidation to the active zopiclone N-oxide (ZOPNO), demethylation to the inactive N-desmethylzopiclone (NDZOP) and oxidative decarboxylation to other inactive metabolites. ZOP is increasingly being encountered in forensic cases and is a common finding in samples from drug-impaired drivers, users of illicit recreational drugs, victims of drug facilitated sexual assaults and forensic autopsy cases. ZOP is a notoriously unstable analyte in biological matrices and analytical results depend on pre-analytical factors, such as storage time and temperature. The overall aim of this thesis was to investigate the stability of ZOP and the factors of importance for degradation during storage in biological samples and to identify consequences for interpretation of results in forensic toxicology.In paper I, different stability tests in spiked samples were performed including short-term, longterm, freeze-thaw and processed stability. Analyses of ZOP were performed by gas chromatography with nitrogen phosphorous detection and ZOP concentrations were measured at selected time intervals. The degradation product 2-amino-5-chloropyridine (ACP) was identified using liquid chromatography-tandem mass spectrometry (LC-MS/MS). The stability investigations showed a very poor short-term storage stability of ZOP.Therefore, in paper II, the influence of pre-analytical conditions was further investigated in dosed subjects. Whole blood from volunteers was obtained before and after oral administration of Imovane®. In this study, the influence from physiological factors such as drug interactions, matrix composition and plasma protein levels were minimized. The results showed that ZOP was stable in whole blood for only one day at room temperature, one week in a refrigerator and at least three months frozen in authentic as well as in spiked whole blood. The rapid degradation of ZOP at ambient temperature can cause an underestimation of the true concentration and consequently flaw the interpretation. However, by also analyzing the degradation product ACP the original concentration of ZOP may be estimated.In papers III and IV, two LC-MS-MS methods were validated for the quantitation of ACP, ZOP and NDZOP in blood and ACP, ZOP, NDZOP and ZOPNO in urine. These methods were used in a controlled pharmacokinetic study where whole blood and urine were obtained after oral administration of Imovane®. Samples of blood and urine were aliquoted, analyzed and stored under different conditions and the formation of ACP was monitored. Additionally, at each studied time point the pH of the blood and urine samples was measured using i-STAT® system. The results showed that ACP was formed in equimolar amounts to the degradation of ZOP and its metabolites.In urine samples, the formation of ACP occurred at elevated pH or temperature and mirrored the degradation of ZOP, NDZOP and ZOPNO. The high concentrations of metabolites, which also degraded to ACP, made it impossible to estimate the original ZOP concentration.The results from analysis of blood samples containing ACP were also used to develop mathematical models to estimate the original ZOP concentration. Both models showed strong correlation to the original ZOP concentration (r=0.960 and r=0.955) with p<0.01. This study showed that the equimolar degradation of ZOP and NDZOP to ACP could be used to estimate the original concentration of ZOP in blood samples.Absence of ACP in the blood or urine samples analysed strongly suggests that degradation has not occurred and that the measured concentration of ZOP is reliable. For proper interpretation in forensic cases, it is strongly recommended that ZOP and its metabolites as well as ACP are included in the analysis.
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6.
  • Tjäderborn, Micaela, 1983- (författare)
  • Psychoactive prescription drug use disorders, misuse and abuse : Pharmacoepidemiological aspects
  • 2016
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Background: There is a widespread and increasing use of psychoactive prescription drugs, such as opioid analgesics, anxiolytics, hypnotics and anti-epileptics, but their use is associated with a risk of drug use disorder, misuse and abuse. Today, these are globally recognized and emerging public health concerns.Aim: The aim of this thesis is to estimate the prevalence of psychoactive prescription drug (PPD) use disorders, misuse and abuse, and to investigate the association with some potential risk factors.Methods: A study using register data from forensic cause of death investigations investigated and described cases of fatal unintentional intoxication with tramadol (Study I). Based on register data on spontaneously reported adverse drug reactions (ADRs) reported cases of tramadol dependence were investigated and summarised (Study II). In a study in suspected drug-impaired drivers with a toxicology analysis confirming the intake of one out of five pre-specified PPDs, the prevalence of non-prescribed use was assessed and associated factors were investigated (Study III). From a cohort of patients initiating prescribed treatment with pregabalin, using data on prescription fills, a study investigated longitudinal utilisation patterns during five years with regards to use of the drug above the maximum approved daily dose (MAD), and factors associated with the utilisation patterns (Study IV).Results: In the first study, 17 cases of unintentional intoxications were identified, of which more concerned men, the median age was 44 years and the majority used multiple psychoactive substances (alcohol, illicit drugs and prescription drugs). The second study identified 104 spontaneously reported cases of tramadol dependence, in which more concerned women, the median age was 45 years, and a third reported a history of substance abuse and 40% of past psychoactive medication use. In the third study, more than half of the individuals suspected of drug-impaired driving used the drug without a recent prescription. Non prescribed use was most frequent in users of benzodiazepines and tramadol, and was more likely in younger individuals and in multiple-substance users. In the last paper five longitudinal utilisation patterns were found in pregabalin users, with two patterns associated with a particularly high risk of doses above the maximum approved dosing recommendation. This pattern of use was associated with male sex, younger age, non-urban residency and a recent prescribed treatment with an antiepileptic or opioid analgesic drug.Conclusions: This thesis shows that psychoactive prescription drug use disorders, misuse and abuse occur and may have serious and even fatal consequences. The prevalence varies between different drugs and populations. Abuse and misuse seem to be more common in young people. Fatal intoxications and misuse of prescribed drugs may be more common in men, while drug use disorders following prescribed treatment may be more common in women and non-prescribed use equally distributed between women and men. Individuals with a history of mental illness, substance use disorder or abuse, or of past use of psychoactive medications are likely important risk groups. In summary, the findings suggest a potential for improvements in the utilisation of psychoactive prescription drugs. The results may be useful in the planning of clinical and regulatory preventive interventions to promote the rational, individualised and safe use of such drugs.
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7.
  • Vikingsson, Svante, 1983- (författare)
  • Development of new methodology for therapeutic drug monitoring of thiopurine treatment
  • 2012
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • The three thiopurine drugs azathioprine (AZA), 6-mercaptopurine (6-MP) and 6-thioguanine (6-TG) are used to treat several diseases, including inflammatory bowel disease (IBD). They are pro-drugs and are believed to act through the formation of thioguanine nucleotides (TGNs). Other important metabolites are the methylthioinosine nucleotides (meTINs). These metabolites are active in the white blood cells (WBCs).Most patients respond well to the thiopurine drugs but up to a third have to modify or discontinue their treatment due to adverse events or a lack of therapeutic effects. This could be caused by inter-patient variability in the metabolism of the drugs. Therapeutic drug monitoring (TDM) of thiopurine nucleotides in red blood cells (RBCs) is used to guide treatment. Current routine assays measure the nucleotides after hydrolysation to nucleic bases and are therefore unable to distinguish between mono-, di-, and triphosphates. Recently it was shown that these assays failed to predict the clinical outcome in about 40% of the patients. It has been suggested that measuring thioguanosine triphosphate (TGTP) (believed to be the most active of the TGNs) separately might increase the clinical value.An assay suitable for measuring thioguanosine mono- (TGMP) and diphosphate (TGDP) and TGTP, as well as methylthioinosine mono- (meTIMP), di- (meTIDP) and triphosphate (meTITP) separately in RBCs in clinical samples has been developed. In clinical studies of 82 IBD patients, we found no correlation between the thiopurine dose and metabolite levels in RBCs, thus illustrating the importance of metabolite measurements in the TDM of thiopurines.The TGN peak measured by the routine assay during TDM of patients treated with thiopurines consisted of TGTP and TGDP with a small contribution from TGMP. The meTIN also consisted of mono-, di- and triphosphates, but in different proportions, indicating differences in the formation. The inter-individual differences in nucleotide distribution were very small and a strong correlation between the different nucleotides and their respective sums was observed. As a consequence, measuring the mono-, di- and triphosphates separately was not beneficial in predicting remission, which was confirmed by the results from the clinical study.Further research into the metabolism and mode of action of thiopurine drugs is needed to understand the inter-patient variability in response and metabolite formation. An assay suitable for such studies, measuring TGNs and meTINs in cultured cells, has also been developed.
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8.
  • Zackrisson, Anna-Lena, 1968- (författare)
  • Pharmacogenetics from a Forensic Perspective : CYP2D6 and CYP2C19 genotype distributions in autopsy cases
  • 2009
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • In Sweden about 550 individuals die every year due to drug intoxication. A challenge for the forensic toxicologist is to determine whether or not the analytical results can explain intoxication as a cause of death. The most common drugs found among intoxication cases are psychiatric drugs and analgesics. Many of these drugs are metabolised by CYP-enzymes such as CYP2D6 and CYP2C19. Genetic variations, polymorphisms, in the genes coding for these enzymes can lead to an inactive enzyme resulting in poor metabolism, which can lead to adverse drug reactions, even with fatal outcome. The CYP2D6 gene can be multiplied, which can lead to an ultra-rapid metabolism if the alleles are active. Another polymorphism, in the CYP2C19 gene, can also lead to an ultra-rapid metabolism. This increased metabolism can result in insufficient drug plasma concentration and, with that, failed treatment. Alternately, if the drug is a pro-drug and has to be activated by these enzymes, it can lead to a high amount of active metabolites. There is a large inter-individual variation of these polymorphisms and also a large variation between different populations. Additional information about an individual’s pharmacogenetics may possibly facilitate the interpretation of the postmortem result and contribute to solve the “toxicological puzzle”.The general aim of this thesis was to study if genetic variation in the drug metabolising enzymes, CYP2D6 and CYP2C19 can contribute to fatal intoxication. Reliable and rapid SNP and CNV assays suitable for forensic samples using PCR and pyrosequencing were developed for CYP2D6 and genotype frequencies in a Swedish population were shown to be in concordance with earlier published data. SNP assays were established for polymorphisms in the CYP2C19 gene.Genotype distributions in fatal intoxication cases were compared with Swedish blood donors and significant difference between the materials were established. The allele CYP2D6*4 was found to be less frequent among the intoxication cases, as compared with the blood donors. No differences in CYP2C19 genotype frequencies were found between the materials. These findings are the opposite of our hypothesis that we expected to find an increased number of individuals carrying genetic variations, leading to poor metabolism among fatal intoxication cases. However, we are convinced that information concerning an individual’s genotype can be of importance in specific intoxication cases. Further studies are required to illuminate this question. Two further autopsy materials were studied; suicide cases (intoxications excluded) and natural death cases. A significant increased number of individuals carrying more than two active CYP2D6 alleles among the suicide cases were found compared to natural death cases. Furthermore, we found some significant differences between the materials when the individuals in each material were grouped according to how many active CYP2D6 alleles they carry in combination with the CYP2C19 genotype, which was divided into six subgroups. We do not currently have any explanation for the differences between the materials.
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