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Aim: To develop, characterize and evaluate an oil/water nanoemulsion with squalene (CTVad1) to be approved as an adjuvant for the SpiN COVID-19 vaccine clinical trials. Materials & methods: Critical process parameters (CPPs) of CTVad1 were standardized to meet the critical quality attributes (CQAs) of an adjuvant for human use. CTVad1 and the SpiN-CTVad1 vaccine were submitted to physicochemical, stability, in vitro and in vivo studies. Results & conclusion: All CQAs were met in the CTVad1 production process. SpiN- CTVad1 met CQAs and induced high levels of antibodies and specific cellular responses in in vivo studies. These results represented a critical step in the process developed to meet regulatory requirements for the SpiN COVID-19 vaccine clinical trial.

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Abstract The current investigation entail systematic Quality by Design (QbD)-enabled approach for the development of Sustained released embedded drug delivery systems of L-Arginine employing ionic gelation technique to attain improved patient compliance. Hence, in this QbD enabled systematic approach; quality target product profile (QTTP) was defined and critical quality attributes (CQAs) were identified. Further the risk assessment studies were undertaken through Ishikawa fish bone diagram to locate the critical material attributes (CMAs) and/or critical process parameters (CPPs) for the formulation of beads that may affect CQAs of drug product. A face centered central composite design (CCD) for two factors at three levels each with α =1 was employed for the optimization process to checkout the impact of concentration of sodium alginate and concentration of chitosan as CMAs which wereprior identified from risk assessment study and further evaluated for CQAs viz. bead size, swelling index and percent drug entrapment. The optimum formulation was embarked upon by using mathematical model being developed yielding desired CQAs. Thereby chitosan coated calcium-alginate delivery system was successfully developed by strategically employing QbD approach.In a nutshell, the presentinvestigation reports the successful development of optimized chitosan coated alginate beads employing QbD approach which can serve as a platform for other drugs too.

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OBJECTIVES: To compare different approaches for the expression of an anti-PCSK9 biosimilar monoclonal antibody (mAb) in CHO cells using IRES-mediated tricistronic plasmid vectors combining different signal peptides, IRES elements and selection markers. RESULTS: Transient transfection indicated a similar level of secreted mAb 48 h post-transfection for all constructs. However, transfections carried out with circular plasmids showed a higher expression than with linearized plasmids. After two months under selection pressure, only part of the transfected pools recovered. The cultures co-transfected using two antibiotics as selection markers for double selection did not recover. Growth, metabolism and mAb production profiles of the only part of the transfected pools recovered resulting stable pools were compared and the stable pool transfected with circular L1-LC-IRES-H7-HC-IRES-NEO plasmid was chosen for further studies, due to higher cell growth and mAb production. Critical quality attributes of the protein A-purified mAb such as purity, homogeneity, binding affinity to PCSK9, and amino acid sequence were assessed confirming the success of the approach adopted in this study. CONCLUSIONS: The expression platform proposed showed to be efficient to produce a high-quality anti-PCSK9 mAb in stable CHO cell pools and provides benchmarks for fast production of different mAbs for characterization, formulation studies and pre-clinical investigation.

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RESUMEN La furosemida es un fármaco poco soluble en agua (0,01825 mg/mL). Debido a su baja solubilidad y baja permeabilidad, se ubica en la clase IV del Sistema de Clasificación Biofarmacéutica (BCS, por sus siglas en inglés). Se absorbe rápida pero incompletamente en el tracto gastrointestinal (GI). Actualmente, este fármaco se comercializa en tabletas, las que para su obtención deben ser sometidas a un proceso de compresión. La fuerza aplicada en dicha compresión puede influenciar algunas de las características de calidad del producto; por ello, la presente investigación estudia el efecto de la fuerza de compresión sobre los atributos críticos de calidad en el proceso de fabricación (dureza, friabilidad y desintegración) y en el producto terminado (uniformidad de dosificación y disolución) de comprimidos de furosemida. El efecto sobre la disolución se determinó por los factores de diferencia (f 1) y de similitud (f 2) de los perfiles de disolución y los parámetros de eficiencia de la disolución (ED) y tiempo medio de disolución (TMD), los cuales se calcularon con el software académico kinetDS®. Los resultados obtenidos permitieron definir el rango de la fuerza de compresión para el cual se obtuvo una ED superior al 85% y un TMD inferior a 7,5 min.

SUMMARY Furosemide is poorly water soluble drug (0.01825 mg/mL). Due to its low solubility and low permeability, it is labeled in class IV of the Biopharmaceutical Classification System (BCS). It is rapidly but incompletely absorbed from the gastrointestinal (GI) tract. Currently, this drug is marketed as tablets, which should be subjected to a compression process. The force applied in this compression can influence some of the quality characteristics of the product. Therefore, this investigation was carried out to determine the effect of compression force on the critical quality attributes of the product in process (hardness, friability and disintegration) and of the finished product (uniformity of dosage and dissolution). The effect on the dissolution was determined by the difference factor (f 1) and similarity factor f 2 ) of the dissolution profiles, the dissolution efficiency (ED) and mean dissolution time (TMD) parameters, which were calculated by kinetDS® academic software. The results obtained allowed to define the range of compression force for which the ED was higher than 85% and the TMD lower than 7.5 min.

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Background: Developing countries have an estimate of ten times more approved biosimilars than developed countries. This disparity demands the need of an objective regulation that incorporates health policies according to the technological and economical capabilities of each country. One of the challenges lies on the establishment of comparability principles based on a physicochemical and biological characterization that should determine the extent of additional non-clinical and clinical studies. This is particularly relevant for licensed biosimilars in developing countries, which have an extensive clinical experience since their approval as generics' in some cases more than a decade. To exemplify the current status of biosimilars in Mexico' a characterization exercise was conducted on licensed filgrastim biosimilars using pharmacopeial and extended characterization methodologies. Results: Most of the evaluated products complied with the pharmacopeial criteria and showed comparability in their Critical Quality Attributes (CQAs) towards the reference product. These results were expected in accordance with their equivalent performance during their licensing as generics. Accordingly' a rational approval and registration renewal scheme for biosimilars is proposed, that considers the proper identification of CQAs and its thoroughly evaluation using selected techniques. Conclusions: This approach provides support to diminish uncertainty of exhibiting different pharmacological profiles and narrows or even avoids the necessity of comparative clinical studies. Ultimately, this proposal is intended to improve the accessibility to high quality biosimilars in Latin America and other developing countries.

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