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Potency Estimates (potency + estimate)

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Medical Sciences75%

Selected Abstracts

Predictive identification of human skin sensitization thresholds

CONTACT DERMATITIS, Issue 5 2005
David A. Basketter
For years, methods have been available for the predictive identification of chemicals that possess the intrinsic potential to cause skin sensitization. However, many have proven less suitable for the determination of relative sensitizing potency. In this respect, the local lymph node assay (LLNA) has been shown to have a number of important advantages. Through interpolation of LLNA dose,response data, the concentration of a chemical required to produce a threshold positive response (a 3-fold increase in activity compared with concurrent vehicle controls, the EC3 value) can be measured. The robustness of this parameter has been demonstrated rigorously in terms of inter- and intralaboratory reproducibility. Additionally, the relationship between potency estimates from the LLNA and an appreciation of human potency based on clinical experience has been reported previously. In the present investigations, we have sought to consolidate further our understanding of the association between EC3 values and human skin-sensitization potency by undertaking a thorough and extensive analysis of existing human predictive assays, particularly where dose,response information is available, from historical human repeated insult patch tests (HRIPTs). From these human data, information on the approximate threshold for the induction of skin sensitization in the HRIPT was determined for 26 skin-sensitizing chemicals. These data were then compared with LLNA-derived EC3 values. The results from each assay, expressed as dose per unit area (,g/cm2), revealed a clear linear relationship between the 2 values, thereby substantiating further the utility of LLNA EC3 values for prediction of the relative human sensitizing potency of newly identified skin sensitizers. [source]

Transplacental mutagenicity of N -ethyl- N -nitrosourea at the hprt locus in T-lymphocytes of exposed B6C3F1 mice

ENVIRONMENTAL AND MOLECULAR MUTAGENESIS, Issue 1 2001
Hillary E. Sussman
Abstract Previous studies have compared age-related differences in total mutagenic burden in mice of differing age (preweanling, weanling, or young adult) after single intraperitoneal (i.p.) injections of ethylnitrosourea (ENU). The purpose of the present investigation was to determine the effects of time elapsed since treatment on the frequency of hprt mutant T-cells (Mf) from mice treated transplacentally with single acute vs. multiple split doses of ENU. To this end, pregnant C57BL/6 mice (n = 13,16/group), which had been bred to C3H males, were given i.p. injections of 40 mg ENU/kg bw in a single dose on day 18 of gestation, in a split dose of 6 mg ENU/kg bw on days 12 through 18 of gestation, or DMSO vehicle alone. Groups of pups were necropsied on days 10, 13, 15 (single dose only), 17, 20, 40, and 70 postpartum for T-cell isolations and hprt Mf measurements using the T-cell cloning assay. The time required to reach maximum Mfs in T-cells isolated from thymus of transplacentally treated animals was 2 weeks, the same time span as previously observed after ENU treatment of adult, weanling, and preweanling mice. Mfs in T-cells isolated from spleens of control animals averaged 2.1 ± 0.3 (SE) × 10,6. In spleens of mice treated transplacentally with ENU in a single dose, Mfs reached a maximum at 15 days postpartum [84.7 ± 15.8 (SE) × 10,6] and decreased to lower but still elevated levels at 40 days postpartum. In spleens of mice treated transplacentally with ENU in a split dose, Mfs reached a maximum at 13 days postpartum [74.0 ± 16.3 (SE) × 10,6] and decreased to background levels at 40 days postpartum. The areas under the curves describing the change in hprt Mfs over time for ENU-treated vs. control mice estimate the mutagenic potency for transplacental single- and split-dose exposures to be 1.9 and 0.8 × 103, respectively. Comparison of the mutagenic potency estimates for mice exposed to ENU in utero to 4-week-old mice given a similar dose of the same lot number of ENU indicates that the mouse is more susceptible to ENU-induced mutagenesis during fetal life. Environ. Mol. Mutagen. 38:30,37, 2001 © 2001 Wiley-Liss, Inc. [source]

Development of a Lyophilization Formulation that Preserves the Biological Activity of the Platelet-inducing Cytokine Interleukin-11 at Low Concentrations

JOURNAL OF PHARMACY AND PHARMACOLOGY: AN INTERNATI ONAL JOURNAL OF PHARMACEUTICAL SCIENCE, Issue 1 2000
CHRISTOPHER PAGE
Recombinant human interleukin-11 (rhIL-11) is a licensed biological therapeutic product in at least one country and is used to combat thrombocytopenia during chemotherapeutic regimens, as well as undergoing clinical trials for a range of other disorders. Following attempts to lyophilize IL-11 at low concentrations, it was clear that a significant loss of recoverable biological activity occurred. Investigation of a variety of factors, including the type of container in which the rhIL-11 was lyophilized, revealed that surface adsorption to glass was a major factor resulting in loss of activity of rhIL-11 in solution (> 40% reduction after 3 h at room temperature), in addition to losses of activity post-lyophilization. To overcome this problem, different formulations containing combinations of human serum albumin (HSA), trehalose and Tween-20 have been investigated. Two formulations were successful in entirely preserving the biological activity of rhIL-11 through lyophilization and subsequent reconstitution (potency estimates of formulated relative to original material being ,0.97). Accelerated degradation studies, performed at intervals over a six-month period, demonstrated the stability of freeze-dried rhIL-11 using these formulations (predicted annual reduction in potency after storage at ,20°C ,1.4%). In conclusion, we have developed a working combination of excipients (0.5% HSA, 0.1% trehalose and 0.02% Tween-20 in potassium phosphate buffer (pH 7.4)) to formulate a stable rhIL-11 freeze-dried product in glass containers, with no loss in potency. These findings should facilitate development of low dose rhIL-11 products and be an indicator of caution to those using this and other material with similar physical properties, without taking appropriate precautions to avoid losses through adsorption. [source]

Pharmacokinetics of sertindole and its metabolite dehydrosertindole in rats and characterization of their comparative pharmacodynamics based on in vivo D2 receptor occupancy and behavioural conditioned avoidance response

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 4 2009
Christoffer Bundgaard
Abstract The objectives of this study were to characterize the pharmacokinetics of sertindole and its active metabolite dehydrosertindole in rats and to evaluate the central modulatory and behavioural pharmacodynamics including a competitive interaction model between the compounds. Following oral administration of sertindole or dehydrosertindole, the plasma concentration,time courses were determined in conjunction with striatal dopamine D2 receptor binding. In addition, the behavioural effects were recorded in the conditioned avoidance response (CAR) paradigm. A one-compartment model with Michaelis-Menten elimination best described the pharmacokinetics of sertindole. Formation of dehydrosertindole was incorporated into the pharmacokinetic model and exhibited first-order elimination. PK/PD modelling after administration of dehydrosertindole resulted in potency estimates of 165 and 424,ng/ml for D2 -occupancy (Kd) and CAR measurements (EC50), respectively. The pharmacokinetics of the parent,metabolite system was integrated into a competitive pharmacodynamic Emax model in order to quantitate the potency of sertindole with the pharmacodynamic parameters of the metabolite taken into account. Based on this approach, effect compartment concentrations of sertindole needed to attain 50% occupancy and half-maximal effect in the CAR paradigm were 133 and 338,ng/ml, respectively. The corresponding potency-estimates obtained after conventional modelling of the sertindole data without accounting for the metabolite amounted to 102 and 345,ng/ml. Based on competitive PK/PD analysis of the parent,metabolite interaction, the relative contribution of dehydrosertindole to the overall pharmacological effect after sertindole administration in rats appeared to be of minor significance. This could mainly be ascribed to the relatively low extent of bioconversion of sertindole into dehydrosertindole in this species. Copyright © 2009 John Wiley & Sons, Ltd. [source]