Population pharmacokinetics of levetiracetam in neonates with seizures.

WHAT IS KNOWN AND OBJECTIVE: This study developed a population pharmacokinetic (PK) model of levetiracetam (LEV) for treating neonatal seizures (NS) and determined the influence of clinically relevant covariates to explain the interindividual variability and residual error. METHODS: Twenty newborns admitted to the Neonatal Intensive Care Unit at the Hospital Central "Dr. Ignacio Morones Prieto" were included. LEV doses were administered by intermittent infusion. Blood samples were drawn 3 times post-infusion. Levetiracetam was quantified by a chromatographic technique. NONMEM software was used to determine the population PK model of LEV in neonates and the influence of clinical covariates on drug disposition. RESULTS AND DISCUSSION: The LEV PK in neonates is described by a one-compartment open model with first-order elimination. The influence of creatinine clearance (CRCL) and body weight (BW) on clearance (CL[L/h] = 0.47*CRCL), as well as the volume of the distribution (Vd[L] = 0.65*BW) of LEV, were confirmed, considering interindividual variabilities of 36% and 22%, respectively, and a residual error of 13%. WHAT IS NEW AND CONCLUSION: Based on the PK of LEV in neonates and the influence of the final PK model, a priori dosing guidelines are proposed considering CRCL, BW and LEV plasma concentrations between 6 and 20 mg/L for NS treatment.

Induction of transcription factors, miRNAs and cytokines involved in T lymphocyte differentiation in BCG-vaccinated subjects.

The BCG vaccine induces a Th1 phenotype, which is essential for protection against Mycobacterium tuberculosis. However, the effects of BCG vaccination over time on the T helper subpopulation and the microRNAs involved in adulthood have not been studied. In the present study, we explored the involvement of microRNAs, transcription factors and multifunctional cytokines in BCG vaccination by examining their levels both before and after vaccination of healthy adults. Peripheral blood mononuclear cells were obtained at 0, 2 and 6 months after vaccination. Cells were cultured in the presence or absence of ESAT-6 and CFP-10 or M. tuberculosis filtrate. The expression levels of miRNAs and transcription factors were evaluated using qRT-PCR. Cytokine production in supernatants and serum samples was evaluated using ELISA. Multifunctional CD4+ T cells were analyzed using multiparametric flow cytometry. We observed a decrease in the expression levels of T-BET, GATA3 and FOXP3 at 2 months and miR-146a, miR-326 and miR-155 at 6 months after receiving the vaccine. In the supernatant, the production of IL-17 was increased after 6 months, with both stimuli. In contrast, IL-10, TNF-α and IFN-γ increased at 2 months. In the serum, high levels of IL-10 were found after 2 months compared to time 0 and 6 months. The production of multifunctional cells that expressed the cytokine profiles CD4+TNF-α+IFN-γ-IL-10-, CD4+TNF-α+IL-1IFN-γ-, CD4+IL-10+IFN-γ-TNF-α- and CD4+IL-17+IFN-γ- predominantly increased after 2 months with and without the stimulus. Correlation analysis revealed a negative association between FOXP3 and miR-155 (r=-0.5120, p=0.0176) and between IL-17 and miR-326 (r=-0.5832, p=0.0364). This study is the first to demonstrate roles for microRNAs, transcription factors and cytokines in the T helper differentiation lineage and to describe the possible mechanism by which their expression is modulated by the presence of the BCG vaccine in adulthood. In conclusion, our results suggest that the BCG vaccine induces a modulation in transcription factors and miRNAs with high production of multifunctional cells CD4+TNF-α+IL-10+IFN-γ-.

Clinical Pharmacokinetics of Rifampin in Patients with Tuberculosis and Type 2 Diabetes Mellitus: Association with Biochemical and Immunological Parameters.

Tuberculosis (TB) remains a major public health issue due to the increasing incidence of type 2 diabetes mellitus (T2DM), which exacerbates the clinical course of TB and increases the risk of poor long-term outcomes. The aim of this study was to characterize the pharmacokinetics of rifampin (RIF) and its relationship with biochemical and immunological parameters in patients with TB and T2DM. The biochemical and immunological parameters were assessed on the same day that the pharmacokinetic evaluation of RIF was performed. Factors related to the metabolic syndrome that is characteristic of T2DM patients were not detected in the TB-T2DM group (where predominant malnutrition was present) or in the TB group. Percentages of CD8(+) T lymphocytes and NK cells were diminished in the TB and TB-T2DM patients, who had high tumor necrosis factor alpha (TNF-α) and low interleukin-17 (IL-17) levels compared to healthy volunteers. Delayed RIF absorption was observed in the TB and TB-T2DM patients; absorption was poor and slower in the latter group due to poor glycemic control. RIF clearance was also slower in the diabetic patients, thereby prolonging the mean residence time of RIF. There was a significant association between glycemic control, increased TNF-α serum concentrations, and RIF pharmacokinetics in the TB-T2DM patients. These altered metabolic and immune conditions may be factors to be considered in anti-TB therapy management when TB and T2DM are concurrently present.

Expression of NAT2 in immune system cells and the relation of NAT2 gene polymorphisms in the anti-tuberculosis therapy in Mexican mestizo population.

Arylamine N-acetyltransferase 2 (NAT2) metabolizes isoniazid (INH) and Single Nucleotide Polymorphisms (SNP) responsible for its activity has been reported. The aim of this study in the Mexican mestizo population was to evaluate NAT2 expression at the protein level in immune cells, as well as the distribution and frequency of six NAT2 SNPs and their association with anti-TB therapy, by measuring the plasma levels of INH and Acetyl-INH (AcINH). We performed genotyping assays of NAT2 SNPs in 40 TB patients and 121 healthy volunteers by real-time PCR. A method for detecting NAT2 in immune cells using flow cytometry was developed. Plasma concentrations of INH and AcINH were obtained by HPLC in TB patients and the Metabolic Ratio (MR) was calculated. The phenotypes obtained in the healthy volunteers were as follows; 18.87 % of subjects had the rapid acetylator phenotype, 45.45 % had the intermediate phenotype and 39.66 % exhibited the slow acetylator phenotype. In the TB patient group, 35 % of patients had the rapid acetylator phenotype, 32.5 % were intermediate and 32.5 % showed the slow acetylator phenotype. A higher expression level of NAT2 in innate immune cells from TB patients compared to those from healthy volunteers was detected (P < 0.013). In TB patients the MR showed a bimodal distribution with an antimode of 0.7, which was used as a threshold value for acetylator classification. A high correspondence between the rapid and slow acetylator phenotype with MR was demonstrated. In conclusion, the 282C>T, 341T>C, 481C>T, 590G>A, 803A>G, 857G>A SNPs of NAT2 gene provides accurate for prediction of the acetylator phenotype in Mexican mestizo population. A statistical difference was found in frequency of rapid metabolizer phenotype, which was higher in TB patients. In addition, the expression of NAT2 protein in immune cells can lead to further studies related to its functional role in the innate immune response against M. tuberculosis and other xenobiotics metabolized by this enzyme.

Relative bioavailability of isoniazid in a fixed-dose combination product in healthy Mexican subjects.

SETTING: Subtherapeutic plasma isoniazid (INH) concentrations and the development of bacterial resistance may be attributed to poor quality and reduced bioavailability of fixed-dose combination (FDC) formulations. The bioavailability of INH from a generic and that of a branded FDC formulation had not been compared in the Mexican population. OBJECTIVE: To evaluate the bioequivalence of a generic three-drug FDC formulation (3FDC) in comparison with a 3FDC reference with doses of 300 mg INH in 20 healthy Mexican adults, and to generate data regarding the oral relative bioavailability of the drug in this population. DESIGN: A single-dose, randomised-sequence, open-label, two-period crossover study. RESULTS: Both formulations were well tolerated. The pharmacokinetic parameters of INH showed wide inter-individual variability. The average relative bioavailability calculated for maximum serum concentration area under the concentration-time curve (AUC), AUC(0-24h) and AUC(0-∞) of the test 3FDC formulation vs. the 3FDC reference were respectively 64.84% (90%CI 56.01-75.06), 59.05% (90%CI 50.27-69.36) and 57.26% (90%CI 46.93-69.84). CONCLUSIONS: The 3FDC test and reference formulations were not bioequivalent because the 90%CI for the geometric mean ratios did not meet the regulatory requirements for bioequivalence (range 80-125%) based on the rate and extent of absorption.

Population pharmacokinetics of rifampicin in Mexican patients with tuberculosis.

WHAT IS KNOWN AND OBJECTIVE: Rifampicin (RIF) shows wide variability in its pharmacokinetics. The purpose of this study was to develop and validate a population pharmacokinetic model to characterize the inter- and intra-individual variability in pharmacokinetic parameters of RIF in Mexican patients. METHODS: Ninety-four patients receiving antituberculosis therapy participated in this prospective study. Plasma concentration-time data were described using a one-compartment model with lag time, absorption and first-order elimination. The potential influence of demographic and clinical characteristics of the patients, and the pharmaceutical formulation (A, B, C and D) on the pharmacokinetics parameters, was evaluated by non-linear mixed-effect modelling (nonmem). Seventy-seven additional patients participated in the validation of the model. RESULTS AND DISCUSSION: The final population pharmacokinetic model obtained was as follows: apparent clearance CL/F = 8·17 L/h (1·40 as high for males), apparent distribution volume V(d)/F = 50·1 L (1·29 as high for males), absorption rate constant K(aA) = 0·391/h, K(aB,C,D) = 2·70/h, relative bioavailability F(A) = 0·468, F(B,C,D) = 1, lag time in the absorption phase T(lag) = 0·264 h. The final model improved the precision on the parameter estimates (CL/F, V(d) /F and K(a) by 31·9%, 16·7% and 92·9%, respectively). The residual variability was 27·3%. WHAT IS NEW AND CONCLUSION: Gender was associated with changes in CL/F and V(d) /F whereas the pharmaceutical formulation was associated with changes in F and altered the K(a) . The validation data set showed that the model could be used in clinical practice for Bayesian dose adjustment of RIF in TB patients.

Relationship among changes in hematocrit, albumin and corticosteroid dose on the disposition of tacrolimus during the first six months following renal transplantation.

Tacrolimus is a macrolide immunosuppressant that is safe and effective for the prevention of rejection after kidney transplantation. The oral bioavailability of tacrolimus averages 20% to 25%; however, the inter-individual variability in this parameter is large. Because of the poor correlation of dose to blood concentration between patients, the variability in pharmacokinetics and a relatively narrow therapeutic window, therapeutic drug monitoring of tacrolimus trough whole blood concentrations must be a standard practice. The objective of this evaluation was to determine the relationship among changes in hematocrit, albumin, and corticosteroid dosing on the disposition of tacrolimus during 6 months of treatment in renal transplant recipients. Blood samples for the determination of trough tacrolimus concentrations were taken immediately prior to the morning dose, samples were collected according to the request of the attending physician. Clinical and dosage data were reviewed 6 months after transplantation. The analysis was conducted including 11 patients who were analyzed for hematocrit and albumin at the same time they are measured tacrolimus blood levels. The mean age was 25.3 years (range 17 to 41 years) 4 of the patients were female. Levels of tacrolimus, hematocrit and albumin over the first 24 weeks post-transplant were documented and the estimated relative clearance of tacrolimus were calculated. Statistical evaluation of the data indicates poor correlation between relative clearance and both hematocrit and albumin levels and the mean oral steroid dose. This observation is of clinical significance because dose adjustment may be required to maintain blood concentrations within thetherapeutic range in patients in whom hematocrit or albumin concentrations are changing.

Relative bioavailability of rifampicin in a three-drug fixed-dose combination formulation.

SETTING: In a previous monitoring study of rifampicin (RMP) in tuberculosis (TB) patients treated with a generic formulation of a three-drug fixed-dose combination (3FDC), very low RMP levels were found. This led us to investigate the bioavailability of the product. OBJECTIVE: To investigate the relative bioavailability of RMP from a generic 3FDC formulation used in the Mexican health care system, in comparison to the reference product, in healthy volunteers. DESIGN: Two-period, two-sequence crossover study. RESULTS: Mean pharmacokinetic parameter values obtained for the test and reference product were respectively 3.13 ± 2.01 µg/ml and 9.95 ± 2.66 µg/ml for peak plasma concentration (C(max)), 15.51 ± 9.77 µg.h/ml and 58.03 ± 16.1 µg.h/ml for area under the concentration (AUC) time curve to the last measurable concentration (AUC(0-12h)) and 17.92 ± 10.66 and 68.43 ± 22.39 µg.h/ml for AUC up to time infinity (AUC(0-∞)). The test/reference ratio of the means (90%CI) was 25.36% (17.33-37.10) for C(max), 21.25% (14.61-30.89) for AUC(0-12h) and 22.08% (15.44-31.56) for AUC(0-∞). These results did not meet the criteria for bioequivalence. CONCLUSION: The test product displayed delayed absorption and markedly inferior RMP bioavailability in comparison to the reference product. RMP-containing generic formulations should only be used if their bioavailability has been evaluated to ensure interchangeability with the reference product and to avoid the risk of markedly inferior RMP exposure through the use of such a product.

Quantitative analysis of regulatory T cells in kidney graft recipients: a relationship with calcineurin inhibitor level.

BACKGROUND: Monitoring of immunosuppressive drug levels can prevent some adverse effects in patients with solid organ transplantation. However, the possible relationship between these drug levels and their biological effect on immune cells has not been studied in depth. The aim of this work was to assess the possible effect of immunosuppressive therapy with calcineurin inhibitors on the levels of regulatory T cells in patients with kidney transplantation. METHODS: Serial samples of peripheral blood were obtained from six patients that underwent kidney transplantation and received a triple pharmacological therapy, which included a calcineurin inhibitor (Cyclosporine A or Tacrolimus). Levels of CD4+CD25(high), CD4+Foxp3+ and CD8+CD28- cells and calcineurin inhibitors were evaluated by flow cytometry, and by radioimmunoassay, respectively. In addition, we assessed the in vitro effect of cyclosporine and tacrolimus on the number of T regulatory cells in peripheral blood mononuclear cells from healthy subjects. RESULTS: Diminished levels of total CD8+ T cells were found at week 1 after kidney transplantation, with a recovery of this subpopulation at week twelve. In addition, a significant decrease in CD8+CD28- T cell levels was observed at weeks 4 and 12 after transplantation. In contrast, no significant differences were observed in the levels and function of CD4+CD25(high) or CD4+Foxp3+ regulatory T cells. Furthermore, no significant correlation between the level/dose ratios of calcineurin inhibitors and the percentages of regulatory cells was detected. On the other hand, in vitro assays showed that cyclosporine (5.0 ug/mL) and tacrolimus (100 ng/mL) diminished the percentages of CD8+CD28- cells, with no significant effect on natural T regulatory cells. CONCLUSIONS: Our results suggest that although calcineurin inhibitors do not have a significant effect on the level and function of CD4+CD25(high) or CD4+Foxp3+ regulatory T cells in patients with kidney transplantation, these drugs seem to exert a down-regulatory effect on CD8+CD28- lymphocytes.

Population pharmacokinetics of cefepime in neonates with severe nosocomial infections.

OBJECTIVE: To define the pharmacokinetic behaviour of cefepime in neonates with severe nosocomial infections using a mixed effects model. PATIENTS AND METHODS: Thirty-one newborn infants were included in the study; 10 additional infants participated in the validation of the pharmacokinetic model. Cefepime CL and V were determined using an open monocompartmental model with first-order elimination. The influence of demographic and clinical characteristics on the model was evaluated. The non-linear mixed effect model (nonmem) program was used to determine the pharmacokinetic population model. RESULTS: The mean corrected gestational age for infants participating in the construction and validation of the model were 35 and 33 weeks, respectively. Factors included in the final pharmacokinetic model were body surface area (BSA) and calculated CL(CR). The final population model was CL (L/h) = 0.457 BSA (m(2)) + 0.243 CL(CR) (L/h) and V(L) = 4.12 BSA (m(2)). This model explains 33.3% of the interindividual variability for CL and 12.8% for V. This model was validated in ten neonates with nosocomial infections by assessing the predictive capacity of plasma cefepime concentrations using a priori and Bayesian strategies. CONCLUSIONS: The predictive performance of this population model for cefepime plasma concentrations was adequate for clinical purposes and can be used for individualizing cefepime therapy in newborn infants with severe infections. Cefepime plasma concentrations can be predicted based on BSA and calculated CL(CR). Cefepime therapy using a 250 mg/m(2) dose administered every 12 h is adequate to achieve plasma concentrations greater than 8 mug/mL during more than 60% of the dosing interval and is expected to be effective in the treatment of bloodstream infections caused by most gram negative organisms in newborn infants. A dose of 550 mg/m(2) would be required for the treatment of infections caused by Pseudomonas sp.