Blood microsampling in cynomolgus monkey and evaluation of plasma PK parameters in comparison to conventional sampling.

Microsampling, a reduced volume sampling method, has successfully gained attention at the International Conference on Harmonization (ICH) level and established benefits support its use in Toxicokinetic (TK) studies. These improved sampling techniques are less invasive and in large animal species improve animal welfare (refinement). To evaluate if the plasma concentrations of drugs were influenced by the blood sampling method, the traditional method from femoral vein and microsampling from tail vein in Cynomolgus monkeys were compared. The pharmacokinetic parameters (Cmax, Tmax and AUC) of four drugs (selected based on acid-base and volume of distribution properties) in non-human primate were correlated. The plasma samples were quantified using standard LC-MS/MS methods, qualified to evaluate the precision and accuracy before the analysis of real samples. The results reported in this work demonstrated the suitability of microsampling in supporting PK/TK studies in non-human primates. The data show that the exposure of drugs tested after blood collection using standard procedure from femoral vein and microsampling from tail vein is correlated and is not influenced by acid-base characteristics and volume of distribution.

A comparative study of the CYP450 inhibition potential of marketed drugs using two fluorescence based assay platforms routinely used in the pharmaceutical industry.

Semi-automated high throughput screening for the inhibition of major human cytochrome P450 enzymes (1A2, 2C9, 2C19, 2D6 and 3A4) expressed in Escherichia Coli (Cypex bactosomes) or human lymphoblastoid cells (Gentest cDNA microsomes) using fluorescent probes has been evaluated using 68 marketed drugs. In general lower IC50 values were obtained with Cypex bactosomes compared with Gentest cDNA microsomes. This could be due to use of higherconcentration of protein and also the lower activity of Gentest cDNA microsomes. Notably, when compared with in vivo clinical drug-drug interactions (cDDIs) gathered from clinical studies reported in the scientific literature Cypex bactosome data was better at predicting in vivo cDDI. Consequently, from the data obtained in this comparative study, a fluorescence based assay using Cypex bactosomes is more suitable as a front-line screen for the prediction of potential downstream CYP450 driven cDDIs.

Brain penetration of local anaesthetics in the rat: Implications for experimental neuroscience.

Multiple experimental neuroscience techniques rely on the use of general anaesthesia to minimize the discomfort associated to animal restraint and to achieve a more effective control of relevant physiological parameters. In order to minimise potential interference on brain neuronal activity, such studies are typically conducted at low anaesthetic doses. This practice is often coupled to peripheral infiltration of local anaesthetics to provide supplementary analgesia and prevent sub-threshold activation of pain pathways that may confound central measurements of brain function. However, little is known of the effect of peripheral anaesthesia on central measurements of brain activity in small laboratory animal species. In order to begin to address this question, we measured total and free brain exposure of five different local anaesthetics following subcutaneous infiltration of analgesic doses in a surgical protocol widely used in rodent neuroimaging and electrophysiology studies. Notably, all the anaesthetics exhibited detectable total and free brain concentrations at all the time points examined. Lidocaine and mepivacaine showed the highest free brain exposures (>525 ng/g), followed by bupivacaine and ropivacaine (>70 ng/g). The ester-type local anaesthetic tetracaine produced the lowest free brain exposure (<8.6 ng/g). Our data suggest that peripheral administration of local anaesthetics in small laboratory animals could result in pharmacologically active brain exposures that might influence and confound central measurements of brain function. The use of the ester-type anaesthetic tetracaine produced considerably lower brain exposure, and may represent a viable experimental option when local anaesthesia is required.