17 research outputs found
THE USE OF SANDWICH-CULTURED RAT HEPATOCYTES TO DETERMINE THE INTRINSIC CLEARANCE OF COMPOUNDS WITH DIFFERENT EXTRACTION RATIOS: 7-ETHOXYCOUMARIN AND WARFARIN
ABSTRACT: The application of sandwich-cultured rat hepatocytes for the identification of the hepatic intrinsic clearance of compounds with widely varying extraction ratios was investigated. We previously showed the applicability of this in vitro system, in combination with a model describing molecular diffusion, hepatocyte/medium partition, and nonsaturated metabolism, which resulted in a successful identification of this parameter for tolbutamide. This approach is further validated using the compounds 7-ethoxycoumarin and warfarin, covering a 100-fold range of extraction ratios. Clearance of these two substrates could be reliably determined, but only if the depletion of the parent compound in medium as well as in the hepatocyte sandwich was measured. Sensitivity analyses showed that the time course of depletion of the parent compound in medium, especially for warfarin, is insensitive to the partition and diffusion parameter values, whereas depletion in the hepatocyte sandwich was far more sensitive. When varying the volumes of collagen in the sandwich culture, it appears that the most reliable kinetic parameters could be obtained by fitting the data with the smaller collagen volume and that these parameters obtained from fitting to data of the larger volumes generally cannot be verified satisfactorily with the data of the smaller volumes. The values of hepatic clearance that were obtained after extrapolation of the intrinsic clearance to the hepatic clearance from blood were comparable within a factor of 2 to hepatic clearance data in the literature. This indicates that this sandwich culture and modeling system can be applied for the identification of the hepatic intrinsic clearance rate of the total range from low to high clearance compounds. Predicting the kinetic parameters of compounds in vivo using data from in vitro experiments is a fast developing area of research Recently, we have successfully developed the alternative approach of using sandwich-cultured rat hepatocytes in determining the in vitro intrinsic clearance of the slowly metabolized compound tolbutamide In this alternative approach, the use of data on substrate depletion was chosen rather than the use of data on metabolite formation. Using data on metabolite formation may cause practical problems when analytical methods or standards to study the kinetics of metabolite Article, publication date, and citation information can be found at http://dmd.aspetjournals.org. doi:10.1124/dmd.105.004390. ABBREVIATIONS: CL bile , biliary clearance (ml/min/kg body weight); CL hep , hepatic clearance (ml/min/kg body weight); CL int , intrinsic clearance (ml/min); C m , concentration medium (M); C s , concentration sandwich (M); D m , diffusion coefficient in medium (cm 2 /min); D s , diffusion coefficient in sandwich (cm 2 /min); f a , fraction of cell activity; f m , free fraction medium; f h , free fraction hepatocytes; f n , fraction of cells; f s , free fraction sandwich; f u , free fraction in blood; f v , fraction of viable cells; K h , specific clearance (Ϫ/min); K l , specific intrinsic clearance of the liver (Ϫ/min; Ϫ/h); K m , Michaelis-Menten constant (M); K ow , partition coefficient octanol-water; K s , first-order metabolism (Ϫ/min); L m , medium layer thickness (cm); L s , sandwich layer thickness (cm); PBPK, physiologically based pharmacokinetics; P cm , collagen-medium partition coefficient; P hm , hepatoyctemedium partition coefficient; P sm , sandwich-medium partition coefficient; P, parameter value; Q h , hepatic blood flow (l/h); s, sensitivity; SRW, standard rat body weight (250 g); V c , volume of collagen (ml); V h , volume of hepatocytes (ml); V m , volume of medium (ml); V max , maximum rate of metabolism (M/min); V s , volume sandwich (ml); DMEM, Dulbecco's modified Eagle's medium; FCS, fetal calf serum; HPLC, high-performance liquid chromatography
A simple steady-state model for carry-over of aflatoxins from feed to cow's milk.
A simple steady-state model is derived from two kinetic one-compartment models for the disposition of aflatoxin B1 (AFB1) and aflatoxin M1 (AFM1) in the lactating cow. The model relates daily intake of AFB1 in feed of dairy cattle and the cow's lactation status to resulting concentrations of AFM1 in milk. Moreover, assuming a linear relationship between the cow's lactation status and feed intake, the model relates daily milk production and AFB1 concentration in total feed to AFM1 levels in milk. The model explains similar experimental outcomes from different investigations into carry-over of aflatoxins from feed to milk. Although it is difficult to set a permanent limit for AFB1 in feed, the European Union (EU) limit of 5 microg AFB1 kg(-1) concentrate has proved, thus far, to be an appropriate level in preventing the EU limit of 0.05 microg AFM1 kg(-1) milk being exceeded
A toxicokinetic model for the carry-over of dioxins and PCBs from feed and soil to eggs.
A mathematical model for the kinetics of carry-over of dioxins and dioxin-like PCBs from feed mixed with contaminated oil to eggs has been developed. This model incorporates uptake of the compounds over the gut wall and their subsequent transport by blood, distribution over the body, hepatic metabolism and excretion through egg yolk fat. The model is analysed with respect to the possibility of identifying as yet unknown model parameters by fitting these to the experimental data. The model was fitted to the experimental data on the carry-over from feed to eggs. The calibrated model was applied to calculate the steady-state concentrations in eggs which were compared to European Maximum Residue Levels for dioxins in feed and eggs, showing that these limits do not match. The feed limit of 0.75 ng TEQ/kg should be reduced to about 0.17 ng TEQ/kg in order to guarantee egg levels below the residue limit of 3 pg TEQ/g fat. Experimental results of carry-over from contaminated soil were used to estimate the absorption of dioxin-like compounds from soils as compared to the absorption from feed, resulting in a value around 40 to 60% absorption from soil as compared to around 90% absorption from feed
Carry-over of dioxins and PCBs from feed and soil to eggs at low contamination levels-- influence of mycotoxin binders on the carry-over from feed to eggs.
Laying hens were fed with compound feed containing six different levels of dioxins, dioxin-like PCBs and indicator PCBs for a period of 56 days. This was followed by a period of 56 days on clean feed. Dioxin levels in feed varied from background levels to three times the current EU tolerance limit of 0.75 ng TEQ/kg. At all dose levels a rapid increase was observed in the dioxin levels in eggs. There was a clear linear dose-response relationship between the dioxin levels in eggs and feed. The feed containing 0.4 ng TEQ dioxins per kg resulted in egg levels just above the EU limit of 3 pg TEQ/g fat. Dioxin-like and indicator PCB residues followed a pattern very similar to that of dioxins. Exposure to the highest indicator PCB level of 32 microg/kg resulted in egg levels around 300 ng/g fat. Exposure to dioxins through contaminated soil, mixed at 10% into the feed, resulted in a similar carry-over as from feed. Mycotoxin binders, mixed at 0.5% into the feed, had little effect on the carry-over of dioxins from the feed to the egg. It can be concluded that consumption of feed or soil with even moderate levels of dioxins and dioxin-like PCBs rapidly results in increased levels in eggs. The current EU dioxin limit for feed cannot guarantee egg dioxin levels below the EU-limit
Transport of Chlorpromazine in the Caco-2 Cell Permeability Assay: A Kinetic Study
The intestinal transport of compounds can be measured
in vitro
with Caco-2 cell monolayers. We took a closer look at the exposure
and fate of a chemical in the Caco-2 cell assay, including the effect
of protein binding. Transport of chlorpromazine (CPZ) was measured
in the absorptive and secretory direction, with and without albumin
basolaterally. Samples were taken from medium, cells, and well plastic.
For the secretory transport experiments with albumin, the free CPZ
concentration at the start of the experiment was measured by negligible
depletion-solid phase microextraction (nd-SPME). Recovery of CPZ from
the medium was low, especially in the absorptive transport direction.
CPZ was found in the cells (≤20%) and bound to the well plastic
(≤25%), and 94% of CPZ was bound to albumin. An initial lag
phase was observed, which was likely caused by partitioning of CPZ
between the donor concentration and the Caco-2 cells; after 20 min,
transport of CPZ to the receiver compartment was linear. The low recovery
and the test compound found both inside the Caco-2 cells and bound
to the well plastic complicate the calculation of the fraction transported
and render reliable estimates of permeability constants impossible.
For a chemical like chlorpromazine, which is hydrophobic in its neutral
form, but in general also for more lipophilic compounds, the Caco-2
cell assay might not be straightforward, and a more detailed study
into the fate and exposure of the test compound might be needed to
arrive at meaningful data for transport and permeability
Risk assessment of titanium dioxide nanoparticles via oral exposure, including toxicokinetic considerations
<p>Titanium dioxide white pigment consists of particles of various sizes, from which a fraction is in the nano range (<100 nm). It is applied in food as additive E 171 as well as in other products, such as food supplements and toothpaste. Here, we assessed whether a human health risk can be expected from oral ingestion of these titanium dioxide nanoparticles (TiO<sub>2</sub> NPs), based on currently available information. Human health risks were assessed using two different approaches: Approach 1, based on intake, i.e. external doses, and Approach 2, based on internal organ concentrations using a kinetic model in order to account for accumulation over time (the preferred approach). Results showed that with Approach 1, a human health risk is not expected for effects in liver and spleen, but a human health risk cannot be excluded for effects on the ovaries. When based on organ concentrations by including the toxicokinetics of TiO<sub>2</sub> NPs (Approach 2), a potential risk for liver, ovaries and testes is found. This difference between the two approaches shows the importance of including toxicokinetic information. The currently estimated risk can be influenced by factors such as absorption, form of TiO<sub>2</sub>, particle fraction, particle size and physico-chemical properties in relation to toxicity, among others. Analysis of actual particle concentrations in human organs, as well as organ concentrations and effects in liver and the reproductive system after chronic exposure to well-characterized TiO<sub>2</sub> (NPs) in animals are recommended to refine this assessment.</p