The aim of the work. Theoretical and experimental substantiation of a rational technology for obtaining a preparation in the form of capsules based on uridine-5-monophosphate of disodium salt, cytidine-5-monophosphate of disodium salt, vitamin B6, thioctic acid and magnesium lactate dihydrate, determination of process parameters that can affect critical quality characteristics active pharmaceutical ingredients in the product and establishing acceptance criteria for each critical process parameter to be used in batch production and process control. Materials and methods. Objects of the research: masses for encapsulation, granulates and the finished product - capsules with the conventional name “Neuronucleos”. To obtain capsules, active pharmaceutical ingredients (API) were used: uridine-5-monophosphate disodium salt and cytidine-5-monophosphate disodium salt (Shanghai Oripharm Co. Ltd., China), thioctic acid (Shanghai Modern Pharmaceutical Co., Ltd..”, China), pyridoxine hydrochloride (“DSM Nutritional Products GmbH”, Germany), magnesium lactate (“Moes Cantabra S.L.”, Spain). The quality indicators were studied: description, average mass of content and uniformity of mass, uniformity of dosage units, dissolution, accompanying impurities, quantitative content of API. Methods of liquid chromatography and complexometric titration were used. Results. It has been established that the use of the direct mixing method does not allow obtaining a mass for encapsulation corresponding to the indicator "Bulk density". The use of the wet granulation method in a fluidized bed has been substantiated. It has been shown that it is difficult to perform granulation in a fluidized bed of an API mixture containing thioctic acid. It has been established that it is rational to obtain a mass for encapsulation in two stages: obtaining a granulate from magnesium lactate dihydrate and pyridoxine hydrochloride with a moisturizer solution (sorbitol + uridine-5-monophosphate disodium salt + cytidine-5-monophosphate disodium salt) and then obtaining a mass for encapsulation from granulate, thioctic acid, anhydrous colloidal silicon dioxide and magnesium stearate by the direct mixing method. Conclusions. On the basis of the performed technological research and analysis of the quality of the obtained capsules, a method for obtaining a capsule mass using the method of wet granulation in a fluidized bed was chosen. The granulation mode was substantiated and the optimal parameters for obtaining a high-quality product were selected, the acceptance criteria for each critical parameter of the technological process were established
The risk assessment of the combined medicine in the capsule dosage form at the pharmaceutical development stage
Aim. To determine the potential risk factors associated with the critical quality indicators of the combined medicine “Neuronucleos” in the capsule dosage form for the treatment of polyneuropathies using the general risk assessment methodology while planning the drug quality at the stage of pharmaceutical development (PD). Materials and methods. The series of the combined medicine “Neuronucleos” in the capsule dosage form, critical indicators of the drug quality, the flowchart of the drug production, critical control points of the drug manufacturing process were developed. The method of causality was used. The quantitative assessment of risk factors was carriedout using the FMECA methodology. Results and discussion. The main objective of this study was to apply the Quality-by-Design (QbD) approach to PD of the combined medicine in the capsule dosage form based on uridine-5 monophosphate disodium salt (UMP), cytidine-5-monophosphate disodium salt (CMF), vitamin B6, thioctic acid and magnesium lactate dihydrate. For better patient compliance and the product quality, a target quality profile as a base for PD planning, as well as critical quality attributes (CQA) related to the product safety and efficacy were determined. The criticality of each CQA was assessed using a special scale. It was shown that “Quantitative content”, “Uniformity of dosage units”, “Dissolution”, “Impurities” were defined as the most CQA due to the minimum amount of UMF and CMF in the capsule and the possibility of their decomposition and increase in the quantity of impurities. The critical attributes of materials (CMA) were identified, and the characteristics required to control them were determined in order to ensure the expected product quality. The primary assessment of the quality indicator risks of the active ingredients was performed. It was found that the particle size affected the homogeneity, the quantitative content of API and dissolution in FPP, and it was shown that the solubility of active substances had a high risk when performing the “Dissolution” test. To determine the potential factors with a significant impact on the drug quality the maximum number of factors was found, and the Ishikawa diagram was constructed. The risk factors associated with the quality and compatibility of active substances and excipients, the quality of primary packaging, production conditions, the drug quality control and the technological process were identified. These factors are the causes of risk and can lead to a situation with negative consequences for the quality of a medicinal product. The FMECA process assessment allowed us to determine the impact of the manufacturing process on the CQA. Conclusions. At the stage of PD for the combined medicine in the capsule dosage form the potential critical indicators of the drug quality have been determined. The critical parameters of the quality of the initial components and the properties of the product have been assessed; the most probable risks for the drug quality have been identified, analyzed and assessed. Further research is advisable to focus on studying the effect of process parameters on critical parameters of the product quality and assessing risks for quality and creating a validation plan and its implementation.
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