Impact of age, sex and cytochrome P450 genotype on quetiapine and N-desalkylquetiapine serum concentrations: A study based on real-world data from 8118 patients.

AIMS: To investigate the effect of aging, sex and cytochrome P450 (CYP) genotypes on the exposure of quetiapine (QUE) and the pharmacologically active metabolite N-desalkylquetiapine (NDQ). METHODS: Patients with serum concentrations of QUE and NDQ were included retrospectively from a therapeutic drug monitoring service. The outcome measures were concentration:dose (C:D) ratios of QUE and NDQ, and NDQ:QUE metabolic ratio. Linear mixed model analyses were used to evaluate the effects of age, sex and, subsequently, CYP2D6/3A genotypes. RESULTS: The average age of the included population (n = 8118 patients) was 44 years (13.5% ≥65 years). The C:D ratio of QUE and NDQ gradually increased in patients aged >50 years compared to those aged 18-30 years, with 28 and 29% increase, respectively, for patients aged >70 years (P < .001). Compared to males, females had 15% lower QUE C:D ratio and 10% higher C:D ratio of NDQ (both P < .001). The NDQ:QUE metabolic ratio was 30% higher in females than in males (P < .001). For females ≥65 years, the NDQ C:D ratio was 36% higher compared to males <65 years (P < .001). A significantly higher NDQ C:D ratio was observed for CYP2D6 intermediate (+7%, P = .012) and poor (+17%, P = .001) compared to normal metabolizers. No effects of CYP3A4*22 and CYP3A5*1 allele variants were observed. CONCLUSION: This study shows an increase of the QUE and NDQ exposures during aging. Old age, female sex and CYP2D6 allele variants encoding reduced activity are factors associated with high NDQ exposure. Therefore, females ≥65 years carrying CYP2D6 allele variants encoding reduced activity have the highest risk of dose-dependent side effects of NDQ during QUE treatment.

Genotyping of patients treated with selective serotonin reuptake inhibitors. / Genotyping av pasienter behandlet med selektive serotoninreopptakshemmere.

BACKGROUND: Selective serotonin reuptake inhibitors (SSRIs) are used by over 180,000 people in Norway. The enzymes CYP2D6 and CYP2C19 are key in the metabolism of SSRI antidepressants. The serotonin transporter coded by SLC6A4 may be significant for the efficacy of the drugs. MATERIAL AND METHOD: All patients who had undergone genotyping for CYP2D6, CYP2C19 and SLC6A4 at the Centre for Psychopharmacology in 2020 were included, irrespective of indication. For those patients where data were available, CYP2C19 genotype was linked to serum concentration measurement of escitalopram, which is the most commonly used SSRI drug. RESULTS: Out of 3,492 patients, 432 (12.4 %) had a combination of genotypes of CYP2D6, CYP2C19 and SLC6A4 considered to lead to the most favourable metabolism and efficacy of SSRI antidepressants. The dose requirement in patients with poor CYP2C19 metabolism was more than halved to achieve the same concentration of escitalopram compared to patients with normal metabolism. INTERPRETATION: Our findings demonstrate the low prevalence of the most favourable genotype combination for response to SSRIs. Genotype combinations probably contribute to the wide variation between individuals in the efficacy of these drugs and the fact that treatment does not produce the desired outcome in many patients.

Impact of CYP2D6 on serum concentrations of flupentixol, haloperidol, perphenazine and zuclopenthixol.

AIMS: To investigate the impact of cytochrome P450 2D6 (CYP2D6) on dose-adjusted serum concentrations of flupentixol, haloperidol, perphenazine and zuclopenthixol in a therapeutic drug monitoring (TDM) cohort of psychiatric patients. We also studied the functional impact of CYP2D6*41 on dose-adjusted serum concentrations in the perphenazine-treated patients. METHODS: Serum concentrations of flupentixol, haloperidol, perphenazine and zuclopenthixol from CYP-genotyped patients were extracted retrospectively from a routine TDM database in the period March 2005 to May 2019. Samples were divided into three CYP2D6 phenotype subgroups according to genotype; normal metabolizers (NMs), intermediate metabolizers (IMs) and poor metabolizers (PMs). The effect of CYP2D6 phenotype on dose-adjusted serum concentrations of the four antipsychotics was evaluated by multivariable mixed model analyses. RESULTS: Mean dose-adjusted serum concentrations of perphenazine (564 samples) were 3.9-fold and 1.6-fold higher in CYP2D6 PMs and IMs, respectively, compared with NMs (P < .001 and P < .01). For zuclopenthixol (658 samples), mean dose-adjusted serum concentrations were about 1.5-fold and 1.3-fold higher in CYP2D6 PMs and IMs, respectively, compared with NMs (P < .01 and P < .001). CYP2D6 was of minor or no importance to haloperidol (320 samples) and flupentixol (115 samples). In our data material, the genotype CYP2D6 *1/*41 appears to have a similar impact on dose-adjusted serum concentrations of perphenazine as *1/null (null = variant allele encoding no enzyme function). CONCLUSIONS: This study shows that CYP2D6 is important for the metabolism of perphenazine and zuclopenthixol, but not for haloperidol and flupentixol. The CYP2D6*41 allele appears to have a reduced function close to nonfunctional variant alleles.

Individual variability in clinical effect and tolerability of opioid analgesics - Importance of drug interactions and pharmacogenetics.

BACKGROUND: As pain is often a comorbid condition, many patients use opioid analgesics in combination with several other drugs. This implies a generally increased risk of drug interactions, which along with inherent pharmacogenetic variability and other factors may cause differences in therapeutic response of opioids. AIM: To provide an overview of interactions and pharmacogenetic variability of relevance for individual differences in effect and tolerability of opioid analgesics, which physicians and other healthcare professionals should be aware of in clinical practice. METHODS: The article was based on unsystematic searches in PubMed to identify literature highlighting the clinical impact of drug interactions and pharmacogenetics as sources of variable response of opioid analgesics. RESULTS: Cytochrome P450 (CYP)-mediated metabolism is an important process for both clinically relevant interactions and pharmacogenetic variability of several opioids. Concomitant use of CYP inhibitors (e.g. paroxetine, fluoxetine and bupropion) or inducers (e.g. carbamazepine, phenobarbital and phenytoin) could counteract the clinical effect or trigger side effects of analgesics in the same manner as genetically determined differences in CYP2D6-mediated metabolism of many opioids. Moreover, combination treatment with drugs that inhibit or induce P-glycoprotein (ABCB1), a blood-brain barrier efflux transporter, may alter the amount ('dose') of opioids distributed to the brain. At the pharmacodynamic level, it is crucial to be aware of the potential risk of interaction causing serotonergic syndrome when combining opioids and serotonergic drugs, in particular antidepressants inhibiting serotonin reuptake (SSRIs and SNRIs). Regarding pharmacogenetics at the receptor level of pain treatment, the knowledge is currently scarce, but an allelic variant of the µ1 opioid receptor (OPRM1) gene has been associated with higher dosage requirement to achieve analgesia. CONCLUSIONS AND IMPLICATIONS: Drug interactions and pharmacogenetic differences may lead to therapeutic failure or serious side effects of opioid analgesics. Many interactions involve combinations with antidepressants and antiepileptics, which are highly relevant drugs in patients suffering from pain. To prevent unfavourable drug interactions it is important that clinicians pay close attention and use electronic drug interaction checkers when treatments are initiated or discontinued. For the management of issues related to pharmacogenetic differences, blood-based CYP genotyping is available as routine test at many laboratories, and provide a valuable tool for proper choice of drugs and doses for treatment of pain and other diseases.

Characterisation of non-warfarin-associated bleeding events reported to the Norwegian spontaneous reporting system.

OBJECTIVE: The aim of the study was to analyse non-warfarin-associated bleeding adverse drug events reported to the Norwegian spontaneous reporting system, with characterisation of the bleeding locations, outcome and drug interactions. In addition, concordance in assessments between reporters and evaluators, trend shifts in reporting, and detection of potentially new adverse drug interaction signals were studied. METHODS: Data on bleeding events reported between 1 January 2003 and 31 December 2005 were retrieved from the Norwegian spontaneous reporting system database. RESULTS: Of 327 case reports of non-warfarin-associated bleeding events, 270 reports (82.6 %) were characterised as serious and 69 (21.1 %) had a fatal outcome. One hundred and eighty-seven bleeds (57.5 %) were gastrointestinal, 57 (17.4 %) were cerebral, and 81 (24.8 %) were from other bleeding sites. The bleeding sites differed with respect to the patient's age, drug use, diagnoses and outcomes. Of drugs associated with bleeding, nonsteroidal anti-inflammatory drugs (NSAIDs)/COX-2 inhibitors (145 reports) and acetylsalicylic acid (128 reports) were most frequently used. Only fibrinolytics were associated with increased mortality. There was a 67.4 % correlation between reporters and evaluators in assessment of drugs associated with bleeding (P < 0.001), with considerable variation in concordance between drug groups. CONCLUSION: Non-warfarin-associated bleeding events are associated with substantial mortality. Old age, cerebral bleeds, number of drugs used, and use of fibrinolytics are all independently associated with increased mortality. The recognition of the bleeding risk of commonly used drugs such as acetylsalicylic acid and heparins may be insufficient among prescribers.

Warfarin-associated bleeding events and concomitant use of potentially interacting medicines reported to the Norwegian spontaneous reporting system.

AIMS: To study warfarin associated bleeding events reported to the Norwegian spontaneous reporting system and evaluate the differences in assessment of potentially interacting medicines between reporters and evaluators. METHODS: Data on bleeding events on warfarin were retrieved from the Norwegian spontaneous reporting system database. Key measurements were time to bleeding, use of concomitant medications and the evaluation done by reporters. RESULTS: In 289 case reports a total of 1261 medicines (median 4.0 per patient, range 1-17) was used. The evaluators (authors of this article) identified 546 medicines including warfarin (median 2.0 per patient, range 1-7) that could possibly cause bleeding alone or in combination. Reporters assessed 349 medicines (median 1.0 per patient, range 1-4) as suspect. Evaluators identified 156 pharmacokinetic and 101 pharmacodynamic interactions, compared with 19 pharmacokinetic and 56 pharmacodynamic interactions reported as suspected by the reporters. Time to bleeding was stated in 224 reports. Among the early bleeding events, the reports on warfarin without interacting medicines showed the highest INR (international normalized ratio). Heparin was used in 17/21 reported bleeding events during the first week on warfarin. Among the late bleeding events, reports with pharmacokinetic interacting medicines had the highest INR. CONCLUSIONS: Concomitant use of potentially interacting medicines was involved in the majority of the warfarin-associated bleeding events reported to the Norwegian spontaneous reporting system. Reporters assessed mostly warfarin as the only contributor to bleeding. In particular, pharmacokinetically interacting medicines were not suspected as contributing to bleeding.

[Cranberries for prevention of recurrent urinary tract infections]. / Tranebaer til forebygging av residiverende urinveisinfeksjoner.

BACKGROUND: Cranberries have been used for prevention and treatment of urinary tract infections for decades. The berries contain proanthocyanidins that may reduce the susceptibility to infection by preventing bacteria from attaching to uroepithelial cells. Several clinical trials have been published during recent years. This article reviews documentation of cranberries on clinical effect, adverse events, drug interactions and use during pregnancy and lactation. MATERIAL AND METHODS: Clinical effects of cranberries have been assessed based on the Cochrane review from January 2007 and literature on clinical trials retrieved from a systematic search of PubMed and Embase (from 1 January 2007 to 29 October 2008) with the search terms "cranberry", "Vaccinium macrocarpon", "Vaccinium oxycoccus". RESULTS AND INTERPRETATION: Some evidence exists on cranberries' preventive effect on recurrent symptomatic urinary tract infections in women. The evidence is inconclusive for children, men and older people (both men and women). Studies of people with neuropathic bladder are contradictory. Most of the clinical trials published have several flaws and have not used standardised products. More evidence is needed to determine the optimum dosage, method of administration and the minimum length of treatment. Cranberries should not be used during pregnancy and lactation due to lack of safety data. Further, properly designed studies with standardised products and relevant outcomes are needed.

A human whole blood model of LPS-mediated suppression of T cell activation.

BACKGROUND: Lipopolysaccharide (LPS) is the main initiator of the early signaling events leading to sepsis caused by Gram-negative bacteria. Late stages of sepsis are associated with impairments of T lymphocyte function, a condition associated with nosocomial infection and poor outcome. The molecular basis for septic immunosuppression is not fully understood. MATERIAL/METHODS: Human whole blood was incubated ex vivo with purified LPS. Cytokine responses and T cell proliferation were assessed, and the role of cyclic 3',5'-adenosine monophosphate (cAMP) in T cell suppression by LPS was studied using a cAMP-antagonist (Rp-8-Br-cAMPS). RESULTS: Adding LPS (0.01 to 10 microg/ml) to human blood ex vivo caused a release of prostaglandin E2 (PGE2) in a concentration- and time-dependent manner, with maximal levels of PGE2 obtained with 10 microg LPS per ml blood after 10 hours of incubation. Adding PGE2-concentrations ranging from 0.03 to 10 microM to purified T cells completely abrogated T cell activation and proliferative response, which was largely reversed by adding Rp-8-Br-cAMPS. Peripheral blood mononuclear cells (PBMC) and T cells harvested from whole blood cultured in the presence of LPS ex vivo showed attenuated proliferative response (30-70%) (purified T cells and PBMC) and reduced IL-2 production (85%) upon T cell receptor (TCR)/CD3 activation with anti-CD3. The proliferation in T cells and PBMC was in part restored by Rp-8-Br-cAMPS. CONCLUSIONS: The human whole blood model of LPS-mediated T lymphocyte suppression described in this paper is time and cost efficient, as well as easy to use.