Е. О. Степанюк scite author profile

Е. О. Степанюк

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Current Approaches to the Abnormal Toxicity Test

Неугодова¹,

Степанюк²,

Сапожникова³

et al. 2020

Vedomosti Nauchnogo tsentra ekspertizy sredstv meditsinskogo pr

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For over 60 years, the Abnormal Toxicity Test (ATT) has been used as an important tool in safety control of some parenteral and veterinary products made from biological materials. In 2017, some of the members of the Pharmacopoeial Committee of the Eurasian Economic Union (EAEU) proposed not to include the ATT in the draft monographs of the EAEU Pharmacopoeia based on the decision of the European Pharmacopoeia Commission to suppress the test. However, this may not be achieved in Russia at this point, because some production sites that manufacture medicinal products for human and veterinary use have not fully implemented GMP principles yet. The main aim of the ATT is to detect any toxicity above the pre-determined acceptable level. The unacceptable toxicity levels can manifest themselves in higher mortality rates or unexpected intoxication effects in laboratory animals. This test makes it possible to detect abnormal (high) toxicity of a medicinal product which may be associated with degradation products or undesirable impurities resulting from changes of the production technology, which are not mentioned in specification documents related to production, transportation, and storage. In 2016—2017 12 batches of veterinary products, including vaccines and sera, were found to be noncompliant, and the Federal Service for Surveillance in Healthcare rejected 16 batches of medicinal products in 2016—2019. The aim of the study was to analyse current approaches to the ATT in the Russian and foreign pharmacopeias, and to develop a programme for phasing out the ATT use depending on the nature and pharmacological properties of medicinal products. Comparative analysis of the monographs of the world leading pharmacopeias showed that the State Pharmacopoeia of the Russian Federation has the most stringent test conditions. As an alternative to suppressing the ATT the authors suggest a phased approach to reduce the use of this test. They determined groups of medicinal products whose pharmacological properties allow for the suppression of the test. The proposed approach to phasing out the use of ATT will make it possible to use the test effectively and reduce the number of performed tests, but will still ensure drug safety. The suppression of the ATT can not be achieved without a comprehensive detailed research by quality control specialists and further discussion by all interested parties.

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Detection of Pyrogens in Hormonal Implants Using the LAL Test

Неугодова¹,

Shapovalova²,

Сапожникова³

et al. 2021

Vedomosti Nauchnogo tsentra ekspertizy sredstv meditsinskogo pr

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The State Pharmacopoeia of the Russian Federation, 14th edition states that implants are a sterile dosage form, and have to be tested for pyrogens. However, it does not provide details on how the test should be performed for this dosage form.The aim of the study was to develop a LAL test procedure for detection of bacterial endotoxins (BE) in implants, using the example of a goserelin product.Materials and methods: BE extraction from the implant surface into an aqueous medium was performed with subsequent BE detection in the extract by turbidimetric kinetic test. The implant was then dissolved in dimethyl sulfoxide, and the obtained goserelin solution was tested for BEs using the gel-clot test.Results: the analysis of the Russian and foreign pharmacopoeial approaches to pyrogenic substance detection in hormonal implants helped to develop two sample preparation procedures for determination of BE content (in the extract and the implant solution). It was demonstrated that the BE content in the water extract did not exceed 0.01 EU/mL and was less than 0.07 EU per implant. The BE content in the implant solution was less than 8.3 EU per 1 mg of goserelin, which is almost eleven-fold lower than the theoretically-derived limit.Conclusions: the authors developed two test procedures for BE detection in hormonal implants using the LAL test, which could be included in manufacturers’ product files. The first procedure involves testing of the water extract from the implant surface and establishes the BE limit of no more than 20 EU/product. The second procedure involves complete dissolution of the implant in dimethyl sulfoxide and establishes the limit of not more than 97.22 EU per 1 mg of goserelin.

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