L.J. Dusci

Antidepressant Toxicity and the Need for Identification and Concentration Monitoring in Overdose

SummaryAntidepressant drugs are among the most commonly encountered causes of self-poisoning. These drugs include tricyclics, tetracyclics, bicyclics and mono-cyclics, as well as monoamine oxidase (MAO) inhibitors and selective serotonin reuptake inhibitors (SSRIs). Of these, the tricyclic antidepressants (TCAs) are generally more toxic in overdose, with major toxicity usually manifesting within the first 6 hours after overdose.Various studies indicate that patients at risk of toxicity from TCA overdose may be identified by neurological, cardiovascular and electrocardiography status, together with a quantitative estimate of the plasma drug concentration. While there are various methods available for such chemical estimations, the most satisfactory appears to be fluorescence polarisation immunoassay which gives rapid quantitative results for a variety of TCAs.The selective MAO-A inhibitor antidepressants and the SSRIs are relatively nontoxic when taken alone. However, overdoses of combinations of MAO inhibitors and either SSRIs or TCAs with serotonin reuptake blocking activity may result in a serotonin syndrome with a severe or fatal outcome. Features of this syndrome include hyperpyrexia, disseminated intravascular coagulation, convulsions, coma and muscle rigidity, which may not develop until 6 to 12 hours after overdose. While qualitative chemical identification of these drugs following overdose is helpful in confirming the diagnosis, it is not mandatory. The increasing use of MAO-A inhibitors and SSRIs in the treatment of depression suggests that careful clinical observation is required when combination overdoses are suspected.

Comparison of cyclosporine measurement in whole blood by high-performance liquid chromatography, monoclonal fluorescence polarization immunoassay, and monoclonal enzyme-multiplied immunoassay

Monitoring of cyclosporine concentrations in whole blood is used routinely as a guide to adjusting dose so as to achieve optimal therapeutic benefit with minimal adverse effects. In the present study, we have compared a specific high-performance liquid chromatography (HPLC) assay with a fluorescence polarization immunoassay (TDx) and an enzyme-multiplied immunoassay (Emit). Both Emit and TDx assays employ a monoclonal antibody to cyclosporin A and therefore have the potential for a high degree of specificity. Blood specimens (EDTA as anticoagulant) were obtained from 113 patients (71 renal transplants, 17 liver transplants, and 25 other categories) taking cyclosporine and analysed by all three methods. There were significant correlations between results for HPLC and Emit (Emit = 10.54 + 1.07 x HPLC; r2 = 0.82, p less than 0.001) and between results for HPLC and TDx (TDx = 9.16 + 1.42 x HPLC; r2 = 0.82, p less than 0.001). Compared to HPLC analysis, 74% and 96%, respectively, of Emit and TDx results were to the left of the line of identity. The TDx monoclonal antibody appears to have a lesser degree of specificity than that used in the Emit assay. Mean concentrations of cyclosporine measured by Emit and TDx were 17% and 51% higher, respectively, than those measured by HPLC. Because of this overestimation, we suggest that both Emit and TDx methods may find their most appropriate use in routine therapeutic monitoring of renal transplant patients in whom metabolite concentrations are less variable over time.

Altered leucocyte trafficking and suppressed tumour necrosis factor alpha release from peripheral blood monocytes after intra-articular glucocorticoid treatment

OBJECTIVES A generalised transient improvement may follow intra-articular administration of glucocorticoids to patients with inflammatory arthropathy. This may represent a systemic anti-inflammatory effect of glucocorticoid released from the joint, mediated through processes such as altered leucocyte trafficking or suppressed release of pro-inflammatory cytokines. Patients, who had received intra-articular injections of glucocorticoids were therefore studied for evidence of these two systemic effects. METHODS Patients with rheumatoid arthritis were studied. Peripheral blood leucocyte counts, tumour necrosis factor α (TNFα) release by peripheral blood monocytes, blood cortisol concentrations, and blood methylprednisolone concentration were measured for 96 hours after intra-articular injection of methylprednisolone acetate. RESULTS Measurable concentrations of methylprednisolone were present in blood for up to 96 hours after injection. Significant suppression of the hypothalamic-pituitary-adrenal axis persisted throughout this time. Altered monocyte and lymphocyte trafficking, as evidenced by peripheral blood monocytopenia and lymphopenia, was apparent by four hours after injection and resolved in concordance with the elimination of methylprednisolone. Granulocytosis was observed at 24 and 48 hours. Release of TNFα by endotoxin stimulated peripheral blood monocytes was suppressed at four hours and thereafter. Suppression was maximal at eight hours and was largely reversed by the glucocorticoid antagonist, mifepristone. CONCLUSIONS After intra-articular injection of methylprednisolone, blood concentrations of glucocorticoid are sufficient to suppress monocyte TNFα release for at least four days and to transiently alter leucocyte trafficking. These effects help to explain the transient systemic response to intra-articular glucocorticoids. Suppression of TNFα is principally a direct glucocorticoid effect, rather than a consequence of other methylprednisolone induced changes to blood composition.

Transfer of methylamphetamine and amphetamine into breast milk following recreational use of methylamphetamine

AIMS To investigate the transfer of amphetamines into breast milk following their recreational use and estimate drug exposure for the breastfed infant. METHODS Two breastfeeding mothers who were occasional recreational users of intravenous amphetamines were studied. A urine sample was collected 4 h after dose, and milk samples were collected over 24 h. Drug in urine was qualitatively identified by gas chromatography-mass spectrometry and quantification in milk was by high-performance liquid chromatography. Absolute infant dose via milk was estimated. RESULTS The urines contained predominantly methylamphetamine together with smaller amounts of amphetamine. In the 24 h after dose, average concentrations in milk were 111 microg l(-1) and 281 microg l(-1) for methylamphetamine and 4 microg l(-1) and 15 microg l(-1) for amphetamine in cases 1 and 2, respectively. Absolute infant doses for methylamphetamine plus amphetamine (as methylamphetamine equivalents) were 17.5 microg kg(-1) day(-1) and 44.7 microg kg(-1) day(-1), respectively, for cases 1 and 2. CONCLUSION These limited data suggest that breastfeeding should be withheld for 48 h after recreational amphetamine use.

A Comparison of High-performance Liquid Chromatography and Fluorescence Polarization Immunoassay for Therapeutic Drug Monitoring of Tricyclic Antidepressants

Although the manufacturer of the polyclonal fluorescence polarization immunoassay (FPIA) for tricyclic antidepressants (TCA) only recommends its use in the diagnosis of overdose, the assay is nevertheless widely used in therapeutic drug monitoring. Using plasma samples from 337 patients taking one of eight different tricyclic antidepressants, the authors investigated the performance of the TDx assay procedure for eight different TCAs by comparison to specific high-performance liquid chromatography (HPLC) assay methods. The regression correlation between the TDx assay value and that for active tricyclic measured by HPLC was poor (r2 < 0.9) for amitriptyline, clomipramine, dothiepin, and doxepin. The regression line for amitriptyline also had a significant positive y-axis intercept. Moreover, the TDx method overestimated the concentration of active drug to an extent that varied considerably between different TCAs and within the usual therapeutic range for a single TCA. The authors conclude that the TDx assay is probably satisfactory for routine TDM of desipramine, imipramine, nortriptyline, and trimipramine. However, it significantly overestimates therapeutic concentrations of amitriptyline, clomipramine, dothiepin, and doxepin. The use of TDx and HPLC assay methods by different laboratories for sequential therapeutic drug monitoring of TCAs in the same patient may confuse physicians and confound dose adjustment and patient management. Although their study shows that the TDx assay can give satisfactory therapeutic drug monitoring results for some drugs, the authors conclude that its use should be restricted to the evaluation of overdose as recommended by the manufacturer.

Investigation of Target Plasma Concentration-Effect Relationships for Olanzapine in Schizophrenia

Olanzapine is an atypical antipsychotic effective in the treatment of schizophrenia. The present study has examined the potential use of target concentration monitoring of olanzapine in plasma as a marker of clinical response and an aid in patient management. Fifty-three patients (mean age 32 years; 40 M, 13 F) with a DSM-IVR diagnosis of schizophrenia completed a 6-week trial of oral olanzapine. Participants received once-daily olanzapine, and their psychotic symptoms were measured with the PANSS (Positive and Negative Symptom Scale) on admission and again after 6 weeks. Responders were classified as having a ≥20% decrease in PANSS scores. Plasma olanzapine was quantified by high-performance liquid chromatography. Receiver operator characteristic (ROC) curve analysis was used to identify a break point in plasma olanzapine that might serve as a surrogate for PANSS classification, and the two methods were compared using the McNemar &khgr;2 test. After 6 weeks the median olanzapine dose was 15 mg/d (range 5–30 mg/d), and the mean plasma olanzapine was 32 &mgr;g/L at a mean of 13.5 hours after dose. With the PANSS (total), there were 42 responders and 11 nonresponders. ROC curve analysis for total PANSS identified a break point at 23 &mgr;g/L plasma olanzapine, with the proportions of responders and nonresponders identified by PANSS and the plasma break point being similar. Similar break points were found for the positive, negative, and global PANSS subscores. Nevertheless, these relationships were very modest, and at best the target plasma olanzapine concentration identified only 20% more responders than nonresponders. We suggest that plasma olanzapine monitoring can be used for dose–response optimization, but only to complement the normal clinical evaluation process.

Population pharmacokinetics of felbamate in children.

Information about the pharmacokinetics of felbamate in children is limited. Even though it is claimed that monitoring of felbamate concentrations is unnecessary, many neurologists have requested therapeutic drug monitoring (TDM) for various reasons. This study used the NONMEM program to describe the pharmacokinetics and the influence of other anticonvulsants on the pharmacokinetics of felbamate. Felbamate, carbamazepine (CBZ), phenytoin (PHY), valproate (VPA), and barbiturate serum levels were obtained by our TDM service as requested by the clinician. The clearance and volume of distribution of felbamate were 41.1 ml/h/kg and 908 ml/kg, respectively. CBZ and PHY increased the clearance 49 and 40% while VPA decreased it 21%. Barbiturate had no significant effect. Clearance also decreased with age.

Disposition of dothiepin after overdose : effects of repeated-dose activated charcoal

Although the tricyclic antidepressant dothiepin is often encountered in deliberate self-poisonings, there are no published studies of its disposition in overdose. In the present study, we have documented the plasma disposition of dothiepin and its major metabolites in eight overdose patients. All had high initial levels of dothiepin (819-3,851 micrograms/L), dothiepin-S-oxide (655-2,162 micrograms/L), nordothiepin (88-422 micrograms/L), and nordothiepin-S-oxide (176-530 micrograms/L) that were considerably above steady-state therapeutic concentrations. In three patients who received treatment with repeated-dose activated charcoal, dothiepin half-lives were 10.6, 12.5, and 13.1 h compared with the literature range of 18.5-24 h. All patients survived and none experienced any significant cardiovascular event despite exhibiting clinical signs of tricyclic antidepressant overdose. We suggest that repeated-dose activated charcoal treatment may decrease the dothiepin half-life after overdose.

Quantification of naltrexone and 6,β-naltrexol in plasma and milk using gas chromatography-mass spectrometry. Application to studies in the lactating sheep

A selective gas chromatography-mass spectrometry method using solid-phase extraction has been developed for the detection and quantification of naltrexone and its metabolite, 6,beta-naltrexol in plasma and milk from humans and sheep at pharmacologically relevant concentrations. Di- or tri-acetyl derivatives were formed and quantified by selected-ion monitoring. Recoveries of naltrexone (30 microg/l) and 6,beta-naltrexol (250 microg/l) from both human plasma and milk were greater than 70%. Intra-assay and inter-day precision ranged from 3 to 21% for naltrexone and 2-18% for 6,beta-naltrexol for all matrices investigated, with an overall mean accuracy of 104% for naltrexone, and 99% for 6,beta-naltrexol. Human samples containing these analytes were stable for at least 3 weeks at -20 degrees C or 6 weeks at -80 degrees C. Analysis of the plasma and milk from the lactating sheep showed mean milk-to-plasma ratios of 55 for naltrexone and 3 for 6,beta-naltrexol.

High-performance liquid chromatographic method for measurement of pentamidine in plasma and its application in an immunosuppressed patient with renal dysfunction.

Summary A rapid method for the quantitation of pentamidine in plasma by high-performance liquid chromatography is described. Pentamidine was extracted from plasma using a mixed solvent of 40% acetonitrile in chloroform. Reversed-phase chromatography was then performed on a μ Bondapak C-18 column, using a mobile phase of acetonitrile containing 0.1% H3PO4 and 0.1% NaCl (20:80) and the eluting peaks detected by their UV absorbance at 262 nm. The assay had a within-day coefficient of variation of less than 3.8%, an absolute recovery of 92%, and a limit of detection of 15 nmol/L. The method was applied during pentamidine mesylate treatment (4 mg/kg/day) for Pneumocystis carinii pneumonia in an immunosuppressed patient with impaired renal function. Plasma levels rose slowly to a plateau (range 530–880 nmol/L) after 7 days of treatment, suggesting a half-life of around 1.5–2 days.