Analysis of genotoxic N-nitrosamines in active pharmaceutical ingredients and market authorized products in low abundance by means of liquid chromatography - tandem mass spectrometry.

In 2018, high levels of the IARC class IIA carcinogen N-nitrosodimethylamine (NDMA) were analytically verified in the active pharmaceutical ingredient (API) valsartan, resulting in extensive regulatory action on angiotensin-II-receptor antagonists and recall of finished drug products by the pharmaceutical industry to ensure patient safety. The root cause of contamination was the unintended reaction of common reagents utilized during drug synthesis. This lead to serious effects on drug quality and immediate regulatory action. Thus, routine analysis of drug product contents are inevitable and necessitate thoroughly performed work up procedures of the product as well as adequate validated analytical methods. The nature of N-nitrosamines (NA), ranging from small, semi-volatile compounds up to highly polar molecules, effort sophisticated requirements in terms of instrumental analysis. Up today, gas as well as liquid chromatographic devices coupled to mass spectrometers are the most widespread systems for analysis. Gas chromatographic - mass spectrometric (GC-MS) systems, obviously superior towards liquid chromatography - mass spectrometry (LC-MS) for detecting small volatile compounds like NDMA, reach their limits for broadly designed studies including polar or acidic NA. In this study, a complementary and highly sensitive approach by means of liquid chromatography - tandem mass spectrometry (LC-MS/MS) is presented, including detection of 13 NA deduced from major classes of secondary amines. Thereby, the fully validated approach was performed in accordance to ICH and European Medicines Agency (EMA) guidelines. Quantitative proof-of-concept measurements with various APIs and market authorized tablets as representative drug formulations conclude applicability for further presumably contaminated substances. The approach employs organic or inorganic extraction steps with solid phase extraction (SPE). The limit of detection for the most prominent NA, NDMA and N-diethylnitrosamine (NDEA), were both 0.025 parts-per-billion (ppb) per matrix, respectively.

[Cannabis for medicinal use: development of pharmacopoeia monographs as a quality standard]. / Cannabis für medizinische Zwecke: Entwicklung von Arzneibuchmonographien als Qualitätsstandard.

Herbal drugs and extracts, like all pharmaceutical starting materials used in the manufacture of medicinal products, must have an appropriate pharmaceutical quality. Corresponding quality standards are described in the individual monographs of the pharmacopoeia according to § 55 of the German Drug Law. This includes information on ingredients and active substance content, among other things. This article describes the development of the Cannabis Flower Monograph for the German Pharmacopoeia (DAB) and the quality requirements and storage conditions contained therein. The state of development of monographs for the European Pharmacopoeia is also presented.After it was announced that there would be new legal regulations for the medical use of cannabis flowers and cannabis extracts, the first work on the cannabis flower monograph for the DAB began as early as 2015. First, a monograph on cannabis flowers was published in May 2016 in the German Drug Codex (DAC). The monograph was replaced in May 2017 by the publication of the DAB monograph. A revised version of the DAB monograph has been in force since April 2018 as a national quality standard.A harmonised cannabis flower monograph for the European Pharmacopoeia is currently being prepared to replace national quality standards. In addition, the German Pharmacopoeia and subsequently the European Pharmacopoeia develops monographs for preparations from cannabis flowers. In future, harmonised monographs in the European Pharmacopoeia will make it possible to avoid multiple testing according to the respective national standards and to facilitate analyses in laboratories and pharmacies.

Comparison of established and novel purity tests for the quality control of heparin by means of a set of 177 heparin samples.

The widespread occurrence of heparin contaminated with oversulfated chrondroitin sulfate (OSCS) in 2008 initiated a comprehensive revision process of the Pharmacopoeial heparin monographs and stimulated research in analytical techniques for the quality control of heparin. Here, a set of 177 heparin samples from the market in 2008 as well as pure heparin sodium spiked with defined amounts of OSCS and DS were used to evaluate established and novel methods for the quality control of heparin. Besides (1)H nuclear magnetic resonance spectroscopy (NMR), the assessment included two further spectroscopic methods, i.e., attenuated total reflection-infrared spectroscopy (ATR-IR) and Raman spectroscopy, three coagulation assays, i.e., activated partial thromboplastin time (aPTT) performed with both sheep and human plasma and the prothrombin time (PT), and finally two novel purity assays, each consisting of an incubation step with heparinase I followed by either a fluorescence measurement (Inc-PolyH-assay) or by a chromogenic aXa-assay (Inc-aXa-assay). NMR was shown to allow not only sensitive detection, but also quantification of OSCS by using the peak-height method and a response factor determined by calibration. Chemometric evaluation of the NMR, ATR-IR, and Raman spectra by statistical classification techniques turned out to be best with NMR spectra concerning the detection of OSCS. The validity of the aPTT, the current EP assay, could be considerably improved by replacing the sheep plasma by human plasma. In this way, most of the contaminated heparin samples did not meet the novel potency limit of 180 IU/mg. However, also more than 50% of the uncontaminated samples had <180 IU/MG. In contrast to the aPTT, the PT specifically detects OSCS and other heparin mimetics (LOD 3%). About ten times more sensitive are both the Inc-PolyH-assay and the Inc-aXa-assay, two rapid and simple quantification assays for heparin mimetics. The determined OSCS contents of the heparin samples excellently correlated with those calculated from the NMR spectra. In conclusion, NMR proved to be the current spectroscopic method of choice. The two two-step-assays represent options to supplement NMR, especially as tests for the initial screening, since they detect any heparin mimetic without requiring special expertise for interpretation of the results.

Composition of OSCS-contaminated heparin occurring in 2008 in batches on the German market.

In 2008, some 900 cases of adverse events associated with the use of heparin were reported to the Food and Drug Administration of USA and the Federal Institute of Drugs and Medical Devices in Germany. 238 patients died from heparin in the USA. In March 2008, oversulfated chondroitin sulfate (OSCS) was identified to be responsible for these cases. NMR spectroscopic evaluation of heparin samples revealed OSCS, dermatan sulfate (DS), chondroitin sulfate A and C as well as various residual solvents to be present in heparin batches, which could not be identified by means of conventional methods described in various pharmacopoeias at that time. In order to evaluate the situation on the German market, 145 representative samples were collected in 2008 and analyzed by means of 1H NMR spectroscopy, water determination, optical rotation and sheep plasma clotting assay. 66 samples were found to contain pure heparin, 51 samples heparin plus DS, 5 samples heparin plus OSCS, and 23 samples heparin, DS and OSCS, each in varying amounts. In 94 out of 145 batches especially ethanol was found in strongly varying amounts up to about 9.5%. Traces of acetone and formic acid were found with concentrations up to 0.04%, as well as sodium acetate and methanol up to 0.5%. Additionally, in many batches the content of water was found to be relatively high. Whereas the optical rotation was able to identify samples with a high contamination of OCSC, all samples tested fulfilled the requirements of the anticoagulation potency assay of the European Pharmacopoeia 6.0. The presented analysis of a representative set of heparin samples proves the suitability of 1H NMR spectroscopy for the quality control of heparin of both glycosaminoglycans and residual solvents.

Electrochemically induced growth of zinc oxide.

The electrolytically induced precipitation of zinc oxide from zinc nitrate solution on gold surfaces in the presence of water-soluble polymers was examined for reaction times between 0.5 and 600 seconds. Regardless of the additive, polycrystalline films of zinc oxide have formed after 30 seconds, but polymeric additives dramatically change the morphology of the ZnO films. Amperometric analysis and fitting the diffusion reduced the current density-time curve according to Avrami kinetics and it reveals that polymers bearing methacrylic acid groups result in spherical growth whereas such with sulfonic acid groups lead to a platelike growth of crystallites. Without additive prisms grow predominantly in one dimension. These findings are confirmed also by scanning electron microscopy (SEM) and X-ray diffraction (XRD) analysis.