Non-aqueous bonding of leuprorelin to ochratoxin A for peptide-based solid-phase extraction.

The anticancer therapeutic leuprorelin was found to have excellent affinity to the carcinogen ochratoxin A (OTA), with an equilibrium constant of 2.2 × 108 M-1 at 273 K (dissociation constant Kd = 4.5 nM) when functionalized into a mesoporous polymer. Binding between the surface-bound leuprorelin and mycotoxin was corroborated with DFT calculations, and it was extended to the extraction of OTA from the heavily fatty matrices of coffee, achieving 95% recovery with improved cyclability as compared with immunoaffinity. This work presents the potential of peptide-mycotoxin interactions for durable non-aqueous extraction.

Correlation of theophylline levels in rat exhaled breath and lung tissue after its intravenous injection.

It is important to know the drug level in the target tissue to determine its dose. Some methods rely on blood levels of a drug to estimate its concentration in the tissues, which can be inaccurate. We thought that drug levels in exhaled breath aerosol (EBA) to give a more accurate value of the level of a test drug in the lung. Rats were intravenously injected with the bronchodilator theophylline and exhaled breath was collected up to 10-20 min after administration. Immediately after breath collection, lung, liver, kidney, and blood were collected and the pharmacokinetics were examined using these samples. Awake free-moving rats were used to efficiently collect exhaled breath from rats with low tidal volume. The amount of exhaled breath of rats was estimated by the amount of exhaled water vapor, and the drug concentration in exhaled breath sample was expressed by the amount of water vapor as the denominator. By using the active sampling method in which the adsorbent is sucked by a pump, theophylline in rat exhaled breath could be measured accurately. When the correlation of theophylline concentration in each sample was examined, a high correlation (r2= 0.74) was found only in exhaled breath and lung tissue. EBA was considered better than blood in pharmacokinetic analysis of lung tissue.