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Κυριακή 15 Ιανουαρίου 2023

Pharmacokinetic and pharmacodynamic study of 3 products of epoetin alfa as single subcutaneous dose in healthy volunteers

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Abstract

Background

Hemax® is an epoetin alfa product developed by Biosidus S.A. in Argentina at the end of the 1980's and has been present in that market since 1991. The initial presentation was a lyophilized powder containing albumin as stabilizer, to best adapt to environmental conditions in developing countries; more recently, a prefilled syringe, albumin-free presentation was developed, since this presentation has become the preferred standard in many markets.

Objective

The primary objective was to compare the pharmacokinetic profile of different formulations of epoetin alfa after a single subcutaneous administration to healthy volunteers of 40,000 IU of Eprex/Erypo® and Hemax® PFS.

Methods

This clinical trial was conceived following an open label, randomized, 3-way 3-period cross-over balanced, and sequential design. The study was conducted on 24 healthy volunteers.

Results

To analyze similarity between Hemax® PFS and the innovator product, Eprex®, AUC and Cmax of both products have been compared. The 90%CI lower limit for the geometric mean ratios was higher than 80% for any comparisons and the 90%CI upper limit for these geometric ratios was below 125% for all the comparisons made, thus demonstrating equivalence between both products.

Conclusion

The comparison between Hemax® PFS and Eprex® resulted in similar 90%CI for Cmax, AUC(0-120 h) and AUC(0-inf) ratios, all of them within the 80-125% interval, with a power above 95% for each ratio. These findings suggest biosimilar patterns for absorption velocity (with Tmax close to 15 h), absorption extent and elimination (with an elimination half-life close to 25-30 h for each formulation)

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Myeloid Phenotypes in Tracheostomy‐Associated Granulation Tissue

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Myeloid Phenotypes in Tracheostomy-Associated Granulation Tissue

In patients with indwelling tracheostomy, granulation tissue is a common, recurrent problem that may lead to multiple surgeries, difficulties with decannulation, and even wound contracture leading to stenosis at the site of prosthesis. This study demonstrates that alternatively activated M2 macrophages are increased in airway granulation tissue as determined by gene expression analysis of canonical biomarkers and cell surface antigens assessed by flow cytometry and immunohistochemistry. The monocyte cell populations associated with granulation tissue are predominantly classical subtype and the majority of macrophages were positive for pro-inflammatory marker S100A8/A9 with 36% of macrophages co-localizing the biomarker CD169+, highlighting these cell population as potential therapeutic targets for airway granulation tissue.


Objective(s)

Tracheostomy-associated granulation tissue is a common, recurrent problem occurring secondary to chronic mucosal irritation. Although granulation tissue is composed of predominantly innate immune cells, the phenotype of monocytes and macrophages in tracheostomy-associated granulation tissue is unknown. This study aims to define the myeloid cell population in granulation tissue secondary to tracheostomy.

Methods

Granulation tissue biopsies were obtained from 8 patients with tracheostomy secondary to laryngotracheal stenosis. Cell type analysis was performed by flow cytometry and gene expression was measured by quantitative real-time polymerase chain reaction. These methods and immunohistochemistry were used to define the monocyte/macrophage population in granulation tissue and were compared to tracheal autopsy control specimens.

Results

Flow cytometry demonstrated macrophages (CD45+CD11b+) and monocytes (CD45+FSClowSSClow) represent 23.2 ± 6% of the granulation tissue cell population. The M2 phenotype (CD206) is present in 77 ± 11% of the macrophage population and increased compared to the M1 phenotype (p = 0.012). Classical monocytes (CD45+CD14highCD16low) were increased in granulation tissue compared to controls (61.2 ± 7% and 30 ± 8.5%, p = 0.038). Eighty-five percent of macrophages expressed pro-inflammatory S100A8/A9 and 36 ± 4% of macrophages co-localized CD169, associated with tissue-resident macrophages. M2 gene expression (Arg1/CD206) was increased in granulation tissue (3.7 ± 0.4, p = 0.035 and 3.5 ± 0.5, p = 0.047) whereas M1 gene expression (CD80/CD86) was similar to controls (p = 0.64, p = 0.3). Immunohistochemistry of gra nulation tissue demonstrated increased cells co-localizing CD11b and CD206.

Conclusions

M2 macrophages are the dominant macrophage phenotype in tracheostomy-associated granulation tissue. The role of this cell type in promoting ongoing inflammation warrants future investigation to identify potential treatments for granulation tissue secondary to tracheostomy.

Level of Evidence

3 Laryngoscope, 2023

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