Bioanalysis of the Bicycle toxin conjugate BT5528 and released monomethyl auristatin E via liquid chromatography-tandem mass spectrometry.

The Bicycle toxin conjugate BT5528 is a novel peptide therapeutic conjugated to the cytotoxic agent monomethyl auristatin E (MMAE). A bioanalytical assay was developed to quantify BT5528 and unconjugated MMAE in human plasma. BT5528 quantitation used a protein precipitation procedure followed by LC-MS/MS detection.

Bioanalysis of Targeted Nanoparticles in Monkey Plasma via LC-MS/MS.

This work represents the first reporting of a comprehensive bioanalytical GLP methodology detailing the mass spectrometric quantitation of PF-05212384 dosed as a targeted polymeric encapsulated nanoparticle (PF-07034663) to monkeys. Polymeric nanoparticles are a type of drug formulation that enables the sustained release of an active therapeutic agent (payload) for targeted delivery to specific sites of action such as cancer cells. Through the careful design and engineering of the nanoparticle formulation, it is possible to improve the biodistribution and safety of a given therapeutic payload in circulation.

Boston Society's 11th Annual Applied Pharmaceutical Analysis conference.

Boston Society's 11th Annual Applied Pharmaceutical Analysis conference, Hyatt Regency Hotel, Cambridge, MA, USA, 14-16 September 2015 The Boston Society's 11th Annual Applied Pharmaceutical Analysis (APA) conference took place at the Hyatt Regency hotel in Cambridge, MA, on 14-16 September 2015. The 3-day conference affords pharmaceutical professionals, academic researchers and industry regulators the opportunity to collectively participate in meaningful and relevant discussions impacting the areas of pharmaceutical drug development. The APA conference was organized in three workshops encompassing the disciplines of regulated bioanalysis, discovery bioanalysis (encompassing new and emerging technologies) and biotransformation.

Automated supported liquid extraction using 2D barcode processing for routine toxicokinetic portfolio support.

Background: A new bioanalytical sample preparation approach has been developed to enhance the efficiency, reduce errors and improve the data quality supporting routine toxicokinetic (TK) study samples analysis, via the implementation of 2D barcode processing coupled with fully automated supported liquid extraction (SLE).

Results: A fully automated SLE was validated and used to determine TK drug concentrations of over 500 unknown samples via 2D barcode processing. Assay performance calculated from a total of 291 quality control samples over the period of validation through sample analysis demonstrated inter-day precision and accuracy within 10 and 7.

Automated sample preparation for regulated bioanalysis: an integrated multiple assay extraction platform using robotic liquid handling.

Background: A novel approach for regulated bioanalytical sample preparation has been developed to combine multiple types of extraction techniques into one integrated and automated sample-preparation suite that pairs a graphical user interface with the Hamilton Microlab(®) STAR robotic liquid handler.

Results: The multi-assay sample-preparation suite is composed of three bioanalytical extraction techniques: protein precipitation, solid-phase extraction and liquid-liquid extraction. Validation data provided highly reproducible and robust results for each respective automated extraction technique.