Major results of a phase III comparative multicenter study on the follitropin alfa biosimilar (Primapur®) and the original follitropin alfa (Gonal-f®)

A clinical study on the efficacy and safety of follitropin alfa has been conducted. The aim of the study was to confirm the therapeutic equivalence between the follitropin alfa biosimilar (Primapur®) and the reference medication (Gonal-f®) in controlled induction of superovulation within the assisted reproductive technologies (ART) programs. Materials and methods. This multicenter, randomized, blind at the embryological stage, in parallel groups, comparative study of phase III (RCT 754 from 26.10.16/NCT03088137) involved 110 women aged 20-35 years with established causes of infertility (tubal factor, male factor). The patients were randomized into 2 equal groups of 55 participants each. The primary end-point for assessing the therapeutic equivalence was the number of aspirated oocytes. The secondary end-points included the number of fertilized oocytes, the number of days of stimulation, the total dose of the injected drug, the occurrence rate of biochemical and clinical pregnancies. Results. In this study, the follitropin alfa biosimilar was shown to be equivalent to the original follitropin in terms of the number of aspirated oocytes. Also, no statistically significant differences were found in the number of mature and fertilized oocytes, the days of stimulation, the dose of the drug administered during the treatment, and the rate of the onset of biochemical or clinical pregnancy. Conclusion. The therapeutic equivalence between the follitropin alfa containing Primapur® and Gonal-f® has been demonstrated

Injectable Hydrated Calcium Phosphate Bone-like Paste: Synthesis, In Vitro, and In Vivo Biocompatibility Assessment

The injectable hydrated calcium phosphate bone-like paste (hCPP) was developed with suitable rheological characteristics, enabling unhindered injection through standard 23G needles. In vitro assays showed the cytocompatibility of hCPP with mesenchymal embryonic C3H10T1/2 cell cultures. The hCPP was composed of aggregated micro-sized particles with sphere-like shapes and low crystallinity. The ability of hCPP particles to adsorb serum proteins (FBS) was investigated. The hCPP demonstrated high protein adsorption capacity, indicating its potential in various biomedical applications. The results of the in vivo assay upon subcutaneous injection in Wistar rats indicated nontoxicity and biocompatibility of experimental hCPP, as well as gradual resorption of hCPP, comparable to the period of bone regeneration. The data obtained are of great interest for the development of commercial highly effective osteoplastic materials for bone tissue regeneration and augmentation

Composite Remineralization of Bone-Collagen Matrices by Low-Temperature Ceramics and Serum Albumin: A New Approach to the Creation of Highly Effective Osteoplastic Materials

This study examined the effectiveness of coating demineralized bone matrix (DBM) with amorphous calcium phosphate (DBM + CaP), as well as a composite of DBM, calcium phosphate, and serum albumin (DBM + CaP + BSA). The intact structure of DBM promotes the transformation of amorphous calcium phosphate (CaP) into dicalcium phosphate dihydrate (DCPD) with a characteristic plate shape and particle size of 5–35 µm. The inclusion of BSA in the coating resulted in a better and more uniform distribution of CaP on the surface of DBM trabeculae. MG63 cells showed that both the obtained forms of CaP and its complex with BSA did not exhibit cytotoxicity up to a concentration of 10 mg/mL in vitro. Ectopic (subcutaneous) implantation in rats revealed pronounced biocompatibility, as well as strong osteoconductive, osteoinductive, and osteogenic effects for both DBM + CaP and DBM + CaP + BSA, but more pronounced effects for DBM + CaP + BSA. In addition, for the DBM + CaP + BSA samples, there was a pronounced full physiological intrafibrillar biomineralization and proangiogenic effect with the formation of bone-morrow-like niches, accompanied by pronounced processes of intramedullary hematopoiesis, indicating a powerful osteogenic effect of this composite