Comparison of Binary Alcohol/Water Solvent Systems to Blood for Extractions of Blood-Contacting Medical Devices.

The analysis of extractables and leachables and subsequent risk assessment is an important aspect of the determination of biocompatibility for many medical devices. Leachable chemicals have the potential to pose a toxicological risk to patients, and therefore it is required that they be adequately characterized and assessed for potential safety concerns. One important consideration in the assessment of leachables is the choice of a suitable simulating solvent intended to replicate the use condition for the device and its biological environment.

An Analytical Strategy Based on Multiple Complementary and Orthogonal Chromatographic and Detection Methods (Multidetector Approach) to Effectively Manage the Analytical Evaluation Threshold (AET).

To address patient safety, a drug product is chromatographically screened for organic leachables. Similarly, medical device and packaging system extracts are chromatographically screened for organic extractables as probable leachables. To protect patient health, the screening methods must respond to all potentially unsafe substances.

Reducing relative response factor variation using a multidetector approach for extractables and leachables (E&L) analysis to mitigate the need for uncertainty factors.

Characterization of Extractables and Leachables (E&Ls) is an important aspect of product quality in important fields such as pharmaceuticals, medical devices and food contact materials. The main goal of an E&L study is identification and quantification of those species which may leach from packaging materials used to contain pharmaceuticals or which may leach directly out of a medical device or food contact material and thus may result in patient exposure. It is common practice to perform relative quantitation of extractables and leachables using surrogate standards due to the large diversity of species observed and the lack of available reference standards.

Qualitative assessment of extractables from single-use components and the impact of reference standard selection.

The advent of single-use bioprocess systems used for the delivery, storage or manufacture of biopharmaceuticals has introduced a new potential source for extractables and leachables (E&L) as these systems are comprised of polymeric materials. Several industry working groups, the FDA and USP have issued guidance and draft guidance on E&L analyses for a variety of applications. These documents typically indicate that mass spectrometry should be applied for discovery of E&L's but provide little guidance as to the exact analytical methodology which should be used.

Quantitative determination of the chemical composition of silica-poly(norbornene) nanocomposites.

Nanoparticle hybrid materials consisting of a silica core surrounded by a poly(norbornene) brush have been prepared by ring opening metathesis polymerization (ROMP). A quantitative determination of each stage of composite formation has been accomplished, including a determination of the density of surface-bound functional groups, catalyst molecules, and polymer chains. This analysis has enabled the determination of the reaction efficiency between the catalyst and the surface-bound functional groups as well as the determination of the fraction of metal-mediating species that initiate a polymer chain.