Highly Purified Conjugates of Natural Chlorin with Cobalt Bis(dicarbollide) Nanoclusters for PDT and BNCT Therapy of Cancer

To combine the neutron-capturing and photodynamic properties of boron nanoclusters and derivatives of natural chlorins, respectively, in one molecule, conjugate of chlorin e6 methyl ester with cyclen and dioxane and nitrile derivatives of cobalt bis(dicarbollide) were synthesized. The conditions for the purification of compounds by HPLC were selected since the work with natural compounds is complicated by the production of closely related impurities.

The sodium 5-butyl-1,2-diphenyl-6-oxo-1,6-dihydropyrimidine-4-olate quantitative content determination in a standard sample

Introduction. The standard samples (SS) use is a necessary condition for the medicines' quality control implementation. Their development is an urgent problem for the pharmaceutical industry, especially for new biologically active compounds that can be further used as pharmaceuticals.Aim. This work aim is to establish the 5-butyl-1,2-diphenyl-6-oxo-1,6-dihydro pyrimidone-4-olate sodium quantitative content, for which anti-inflammatory and analgesic activity was previously proven, in a standard sample.Materials and methods. This work aim is to establish the 5-butyl-1,2-diphenyl-6-oxo-1,6-dihydro pyrimidone-4-olate sodium quantitative content, for which anti-inflammatory and analgesic activity was previously proven, in a standard sample. The main method for establishing a substance quantitative content in the SS is the material balance method. The water determination was carried out according to K. Fisher's method (semimicro method). Sulphated ash was determined according to the XIV edition Russian Federation State Pharmacopoeia General Pharmacopoeia Monograph "Sulphated ash". Related impurities and their content were assessed using the HPLC method on a Flexar liquid chromatograph equipped with a diode array detector (Perkin Elmer, USA). The residual solvents' determination was carried out by the headspace method using a gas chromatograph GC-2010Plus Shimadzu with a flame ionization detector. As an additional method for establishing the main component quantitative content, acidimetric titration with the equivalence point potentiometric indication was carried out.Results and discussion. The percentage was determined for the following indicators: water, residual organic solvents, related impurities, sulphated ash. Using the material balance method, it was found that the 5-butyl-1,2-diphenyl-6-oxo-1,6-dihydropyrimidin-4-olate sodium percentage in a standard sample is 96.01 ± 0.50 %. It was found by acidimetric titration that the 5-butyl-1,2-diphenyl-6-oxo 1,6-dihydropyrimidin- 4-olate sodium quantitative content in SS is 95.12 ± 0.02 %. The difference in the certified value can be explained by the fact that during titration, the SS aciform is released, which precipitates in an aqueous medium and contributes to a shift in the equilibrium and pH value. Consequently, the equivalence point is reached somewhat earlier. However, the data are practically comparable, but it is necessary to use the value obtained by the material balance method.Conclusion. A standard sample certification parameters were determined: water content, residual organic solvents, sulphated ash, related impurities. The main component quantitative content was determined using the material balance method and titrimetry (acidimetry with the equivalence point potentiometric indication).

Equivalent Method Development and Cross Validation of Pharmacopoeial Method of Montelukast Sodium

The purpose of this exploration research work article is to develop equivalent method and evaluate its equivalency (Cross validation) against pharmacopoeial method of Montelukast sodium for the evaluation and assessment of process related impurities i.e. Methyl MLK impurity in Montelukast sodium by HPLC method and its principles. The method mentioned in European Pharmacopoeia (EP) and United States Pharmacopoeia (USP) does not sufficiently separates impurity C and impurity D , as these impurities elutes under the main peak and the pharmacopoeial methods were also not able to detect the Methyl MLK impurity which is not listed in USP monograph. So our prime design of experiment is to develop of new high-performance liquid chromatographic (HPLC) method which eliminates the drawback of two pharmacopoeial methods and this proposed created strategy is fit for recognition and detection of Methyl MLK impurity and separation of all process related impurities of Montelukast sodium mentioned in EP and USP monographs. An efficient strategy screening and scouting in which various C-18 columns were tried and tested. LUNA C-18 column utilized in RP HPLC mode ended up being the phenomenal decision for the technique streamlining. The proportion of acetonitrile and trifluoroacetic acid (TFA) in water and in the mobile phase, column temperature, flow rate and diluents were considered as basic strategy boundary. The method developed equivalency was checked in terms of Specificity, LOD, Quantitation (LOQ), Precision, Linearity, Relative response factor (RRF), and Accuracy.

Determination of Vancomycin B and Vancomycin Impurities by Liquid Chromatography

The preferred test methods for control of product-related impurities in medicinal products are high-performance liquid chromatography (HPLC) with a fine sorbent, and ultra-performance liquid chromatography (UPLC), which allow for better chromatographic separation of active substances and related impurities, reduction of time costs, and saving of material resources. The aim of the study was to develop HPLC and UPLC test procedures and assess the chromatographic separation capacity and efficiency in order to improve determination of the main vancomycin component and related impurities. Materials and methods: vancomycin hydrochloride lyophilisate for oral solution and solution for injection, and vancomycin hydrochloride reference standard (USP RS) were used as test objects. Agilent 1290 Infinity liquid chromatography system, and Chromolith® Performance RP-18e, Kinetex C18, Nucleodur C18 Isis, Zorbax RRHD Eclipse Plus C18, and LiChrospher® RP-18 columns were used for the testing. Results: HPLC analysis using a Chromolith® column (100×4.6 mm) reduces the testing time by 10 minutes compared to the USP test procedure, and by 15 minutes compared to the British Pharmacopoeia procedure. The proposed test procedure requires less eluent and increases chromatographic separation efficiency. UPLC analysis using a Kinetex C18 column (50×4.6 mm, 2.6 μm) made it possible to reduce the testing time by two thirds compared to the British Pharmacopoeia procedure. The use of isocratic elution greatly simplified the testing. The testing time under the proposed chromatographic conditions was 10 minutes. Conclusions: the selected HPLC and UPLC test conditions made it possible to significantly reduce the time of testing, minimise the use of expensive reagents, and increase efficiency of chromatographic separation in the determination of vancomycin impurities and the main component Vancomycin B.

Separation and Characterization of Novel Degradation and Process Related Impurities of Bedaquiline Bulk Drug

Bedaquiline (BDQ) is a new drug approved by United States Food and Drug Administration (USFDA) in 2012 for the treatment of drug-resistant tuberculosis, which has become a major threat globally. The manuscript presents the development of three liquid chromatography (LC) based analytical methods. The first is a stability indicating RP-HPLC (reverse phase-high performance liquid chromatography) method to analyze the BDQ in presence of its degradation products. Another UPLC/ESI–MS (ultra-performance liquid chromatography/electron spray ionization–mass spectrometry) method was developed for the identification of different degradation based and process related impurities and the third, preparative HPLC method was developed for the isolation of major degradation products. Eleven degradation products and one process related impurity were identified using UPLC/ESI–MS whereas preparative HPLC was used to isolate two degradation products and their chemical structure was elucidated using nuclear magnetic resonance, mass and infra-red spectral data.

Monitoring process-related impurities in biologics–host cell protein analysis

During biologics development, manufacturers must demonstrate clearance of host cell impurities and contaminants to ensure drug purity, manufacturing process consistency, and patient safety. Host cell proteins (HCPs) are a major class of process-related impurities and require monitoring and documentation of their presence through development and manufacturing. Even in residual amounts, they are known to affect product quality and efficacy as well as patient safety. HCP analysis using enzyme-linked immunosorbent assay (HCP-ELISA) is the standard technique, due to its simple handling, short analysis time, and high sensitivity for protein impurities. Liquid chromatography mass spectrometry (LC–MS) is an orthogonal method for HCP analysis and is increasingly included in regulatory documentation. LC–MS offers advantages where HCP-ELISA has drawbacks, e.g., the ability to identify and quantify individual HCPs. This article summarizes the available knowledge about monitoring HCPs in biologics and presents the newest trends in HCP analysis with current state-of-the-art HCP measurement tools. Through case studies, we present examples of HCP control strategies that have been used in regulatory license applications, using an MS-based coverage analysis and HCP-ELISA and LC–MS for HCP quantification. This provides novel insight into the rapid evolving strategy of HCP analysis. Improvements in technologies to evaluate HCP-ELISA suitability and the implementation of orthogonal LC–MS methods for HCP analysis are important to rationally manipulate, engineer, and select suitable cell lines and downstream processing steps to limit problematic HCPs.

Separation and Determination of Process Related Impurities in Palbociclib: A Rp-hplc Study

Aims: A new gradient RP-HPLC method was developed for the separation and determination of process related impurities in Palbociclib. Methodology: The chromatographic separation was achieved on a Inert sustain swift (C18) column using a mobile phase comprising of perchloric acid and acetonitrile in a gradient mode at a flow rate of 1 mL/min. over a runtime of 50 minutes. All the eluants were monitored at 230 nm. The optimized method was validated as per ICH guidelines for various parameters. Results: The linearity of the method was proposed in the range of LOQ to 250 % for the drug and its impurities by subjecting the data obtained to statistical analysis using correlation coefficient model (r > 0.99). The method also gave acceptable recovery of all the four impurities at each level and was found to be accurate. The % RSD obtained in the method precision and intermediate precision were less than 2% depicting the precision of the method. The LOD and LOQ values were calculated based on the signal to noise ratio and are indicating the sensitivity of the method. The specificity of the method was checked in the presence of process related impurities and also degradants generated by exposing to a variety of forced degradation conditions. Conclusion: The proposed RP-HPLC method for the determination of process related impurities of Palbociclib could be routinely used in the quality control testing.