Susanne Lühn scite author profile

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.

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Development and evaluation of a fluorescence microplate assay for quantification of heparins and other sulfated carbohydrates

Lühn¹,

Schräder²,

Sun³

et al. 2010

Journal of Pharmaceutical and Biomedical Analysis

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Simple fluorescence assay for quantification of OSCS in heparin

2010

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In 2008, heparin contaminated with oversulfated chondroitin sulfate (OSCS) penetrated the worldwide market and was associated with severe adverse effects. Feasible and reliable methods to test heparin for adulteration are needed. The objective was to develop a simple approach based on a microplate assay for quantification of heparin and sulfated glycans using the fluorescent heparin sensor polymer-H (polymer-H assay). However, both heparin and OSCS concentration-dependently increase the fluorescence intensity (FI) of polymer-H, so that OSCS in heparin cannot be detected. The idea was a two-step procedure including, first, separation of heparin by degradation with heparinase I, and then measurement of the remaining OSCS. To achieve complete heparin (unfractionated heparin (UFH), enoxaparin) degradation, several conditions (e.g. incubation time and heparinase I concentration) were optimized by using the aXa assay for monitoring. Defined UFH/OSCS mixtures incubated in this way showed a concentration-dependent FI increase in the polymer-H assay (λ ((em)) 330 nm, λ ((ex)) 510 nm). The sensitivity was unexpectedly high with an LOD/LOQ of 0.5%/0.6% OSCS content in heparin. Further experiments testing UFH/OSCS mixtures in the aXa assay confirmed our hypothesis: OSCS inhibits heparinase I resulting in incomplete heparin degradation and thus an additional FI increase of polymer-H by intact heparin. This two-step microplate fluorescence assay is a sensitive, rapid, and simple method for quantification of OSCS in heparin. In contrast with (1)H NMR and CE, neither expensive equipment nor much experience are required. It could be applied not only in the quality control of heparin, but also in clinical practice, to check the applied heparin preparation when a patient suffers any adverse effect.

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Combination of a two-step fluorescence assay and a two-step anti-Factor Xa assay for detection of heparin falsifications and protein in heparins

2010

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There are several methods for sensitive detection of oversulfated chondroitin sulfate (OSCS) in heparin. Although contamination with OSCS is unlikely to be repeated, use of other compounds to counterfeit heparin must be considered. We have previously developed a two-step fluorescence microplate assay (two-step FI assay) for detection of OSCS. First, the heparin sample is incubated with heparinase I, then its increasing effect on the fluorescence intensity (FI) of the sensor molecule Polymer-H is measured (PolyH assay). The high sensitivity of the assay is shown to be based on heparinase I inhibition by OSCS. The objective of this study was to evaluate another assay option - indirect quantification of OSCS after heparinase I incubation by means of the anti-Factor Xa (aXa) activity of the remaining undegraded heparin (two-step aXa assay). We also examined, whether other heparin mimetics (HepM), direct Factor Xa inhibitors (DXI), and protein impurities are detectable by use of these assays. Heparin was spiked with different amounts of HepM including OSCS, pentosan polysulfate, dextran sulfate, curdlan sulfate, the natural contaminant dermatan sulfate, the DXI rivaroxaban, and BSA as a protein. These samples were compared with pure heparin in the two-step FI assay, the two-step aXa assay, and in the PolyH assay and the aXa assay without heparinase I incubation. Both two-step assays sensitively measured contamination with all the HepM (LOD ≤ 0.5%, LOQ ≤ 0.7%). The two-step aXa assay also detected rivaroxaban (LOD 0.3%, LOQ 0.4%), whereas the two-step FI assay was shown to be suited to determination of protein impurities (LOD 0.11%, LOQ 0.13%). Use of two different heparinase I inactivation procedures enabled clear differentiation between protein, HepM, and both contaminants. Finally, with the aXa assay the heparin potency can be determined in the same assay run, whereas the FI increase in the PolyH assay was shown to be useful for identification. In conclusion, both the two-step FI assay and the two-step aXa assay are sensitive, rapid, and simple tests for the detection of counterfeit heparin. Comprehensive information about heparin quality can be obtained by their combined use and the parallel measurement of non-incubated heparin samples.

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Prothrombin Time for Detection of Contaminated Heparins

Alban¹,

Lühn²

2008

N Engl J Med

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Susanne Lühn

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

Development and evaluation of a fluorescence microplate assay for quantification of heparins and other sulfated carbohydrates

Simple fluorescence assay for quantification of OSCS in heparin

Combination of a two-step fluorescence assay and a two-step anti-Factor Xa assay for detection of heparin falsifications and protein in heparins

Prothrombin Time for Detection of Contaminated Heparins

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