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Guideline ICH Q3D on elemental impurities (EI) was adopted by the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) and published in December 2014.
The European Medicines Agency (EMA) Committee for Medicinal Products for Human use (CHMP) adopted guideline Q3D in December 2014 and defined the dates for coming into effect .
ICH Q3D is the first globally harmonised guidance to control 24 elemental impurities in drug products administered by oral, parenteral and inhalation routes. The policy entails a paradigm shift, moving away from substance-based testing towards risk-based assessment and control strategy.
In the context of implementing Q3D in Europe, several texts and monographs of the European Pharmacopoeia (Ph. Eur.) were revised, rendering the guideline legally binding in 38 European countries. Ph. Eur. general chapter 5.20. has been modified to reflect ICH Q3D guideline and the old fashioned heavy metals test, Ph. Eur. 2.4.8., has been deleted from individual Ph. Eur. monographs for substances for human use. Furthermore, general chapter Ph. Eur. 2.4.20. Determination of metal catalyst and metal reagent residues has been completely revised and renamed Determination of elemental impurities.
Whatever the chosen analytical method, reference materials with a known content of the target element are required for the quantification of elemental impurities. This led EDQM to consider the establishment of suitable reference materials. However, due to lack of specific experience and technical equipment, external partners were sought. Three key European institutes (JRC, BAM and PTB) were identified and involved in the project.
To mitigate the overall risk at first the project focussed on the elements classified by ICH Q3D as Class 1: lead, cadmium, mercury and arsenic.
A key necessity was the traceability of the element content to the SI (International System of Units Measurement) to allow metrologically reliable and reproducible determination. This required new and specific approaches to be developed by the partners in charge (BAM and PTB).
Since January 2018 lead solution CRS, cadmium solution CRS, mercury solution CRS and arsenic solution CRS are available to the users of the Ph. Eur. .
Small-molecule oxoanions are often imprinted noncovalently as carboxylates into molecularly imprinted polymers (MIPs), requiring the use of an organic counterion. Popular species are either pentamethylpiperidine (PMP) as a protonatable cation or tetraalkylammonium (TXA) ions as permanent cations. The present work explores the influence of the TXA as a function of their alkyl chain length, from methyl to octyl, using UV/vis absorption, fluorescence titrations, and HPLC as well as MD simulations. Protected phenylalanines (Z-L/D-Phe) served as templates/analytes. While the influence of the counterion on the complex stability constants and anion-induced spectral changes shows a monotonous trend with increasing alkyl chain length at the prepolymerization stage, the cross-imprinting/rebinding studies showed a unique pattern that suggested the presence of adaptive cavities in the MIP matrix, related to the concept of induced fit of enzyme−substrate interaction. Larger cavities formed in the presence of larger counterions can take up pairs of Z-X-Phe and smaller TXA, eventually escaping spectroscopic detection. Correlation of the experimental data with the MD simulations revealed that counterion mobility, the relative distances between the three partners, and the hydrogen bond lifetimes are more decisive for the response features observed than actual distances between interacting atoms in a complex or the orientation of binding moieties. TBA has been found to yield the highest imprinting factor, also showing a unique dual behavior regarding the interaction with template and fluorescent monomer. Finally, interesting differences between both enantiomers have been observed in both theory and experiment, suggesting true control of enantioselectivity. The contribution concludes with suggestions for translating the findings into actual MIP development.