Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study
Authors
Mitrović, Jelena
Bjelošević Žiberna, Maja
Vukadinović, Aleksandar
Knutson, Daniel E.
Sharmin, Dishary
Kremenović, Aleksandar

Ahlin Grabnar, Pegi
Planinšek, Odon
Lunter, Dominique
Cook, James M
Savić, Miroslav

Savić, Snežana

Article (Published version)
Metadata
Show full item recordAbstract
Recently, nanocrystal dispersions have been considered as a promising formulation strategy to improve the bioavailability of the deuterated pyrazoloquinolinone ligand DK-I-56-1 (7‑methoxy-2-(4‑methoxy-d3-phenyl)-2,5-dihydro-3H-pyrazolo[4,3-c]quinolin-3-one). In the current study, the freeze-drying process (formulation and process parameters) was investigated to improve the storage stability of the previously developed formulation. Different combinations of lyoprotectant (sucrose or trehalose) and bulking agent (mannitol) were varied while formulations were freeze-dried under two conditions (primary drying at -10 or -45 °C). The obtained lyophilizates were characterized in terms of particle size, solid state properties and morphology, while the interactions within the samples were analyzed by Fourier transform infrared spectroscopy. In the preliminary study, three formulations were selected based on the high redispersibility index values (around 95%). The temperature of primary drying h...ad no significant effect on particle size, but stability during storage was impaired for samples dried at -10 °C. Samples dried at lower temperature were more homogeneous and remained stable for three months. It was found that the optimal ratio of sucrose or trehalose to mannitol was 3:2 at a total concentration of 10% to achieve the best stability (particle size < 1.0 μm, polydispersity index < 0.250). The amorphous state of lyoprotectants probably provided a high degree of interaction with nanocrystals, while the crystalline mannitol provided an elegant cake structure. Sucrose was superior to trehalose in maintaining particle size during freeze-drying, while trehalose was more effective in keeping particle size within limits during storage. In conclusion, results demonstrated that the appropriate combination of sucrose/trehalose and mannitol together with the appropriate selection of lyophilization process parameters could yield nanocrystals with satisfactory stability.
Keywords:
Nanocrystals / Freeze-drying / Mannitol / Pyrazoloquinolinone / Sucrose / TrehaloseSource:
European Journal of Pharmaceutical Sciences, 2023, 189Publisher:
- Elsevier B.V.
Funding / projects:
- NanoCellEmoCog - Neuroimmune aspects of mood, anxiety and cognitive effects of leads/drug candidates acting at GABAA and/or sigma-2 receptors: In vitro/in vivo delineation by nano- and hiPSC-based platform (RS-7749108)
- National Institutes of Health, USA (R01 NS076517, R01 MH096463 to JC)
- National Science Foundation, Division of Chemistry (CHE- 1625735 to JC)
DOI: 10.1016/j.ejps.2023.106557
ISSN: 0928-0987
PubMed: 37544333
Scopus: 2-s2.0-85167835144
Institution/Community
PharmacyTY - JOUR AU - Mitrović, Jelena AU - Bjelošević Žiberna, Maja AU - Vukadinović, Aleksandar AU - Knutson, Daniel E. AU - Sharmin, Dishary AU - Kremenović, Aleksandar AU - Ahlin Grabnar, Pegi AU - Planinšek, Odon AU - Lunter, Dominique AU - Cook, James M AU - Savić, Miroslav AU - Savić, Snežana PY - 2023 UR - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4982 AB - Recently, nanocrystal dispersions have been considered as a promising formulation strategy to improve the bioavailability of the deuterated pyrazoloquinolinone ligand DK-I-56-1 (7‑methoxy-2-(4‑methoxy-d3-phenyl)-2,5-dihydro-3H-pyrazolo[4,3-c]quinolin-3-one). In the current study, the freeze-drying process (formulation and process parameters) was investigated to improve the storage stability of the previously developed formulation. Different combinations of lyoprotectant (sucrose or trehalose) and bulking agent (mannitol) were varied while formulations were freeze-dried under two conditions (primary drying at -10 or -45 °C). The obtained lyophilizates were characterized in terms of particle size, solid state properties and morphology, while the interactions within the samples were analyzed by Fourier transform infrared spectroscopy. In the preliminary study, three formulations were selected based on the high redispersibility index values (around 95%). The temperature of primary drying had no significant effect on particle size, but stability during storage was impaired for samples dried at -10 °C. Samples dried at lower temperature were more homogeneous and remained stable for three months. It was found that the optimal ratio of sucrose or trehalose to mannitol was 3:2 at a total concentration of 10% to achieve the best stability (particle size < 1.0 μm, polydispersity index < 0.250). The amorphous state of lyoprotectants probably provided a high degree of interaction with nanocrystals, while the crystalline mannitol provided an elegant cake structure. Sucrose was superior to trehalose in maintaining particle size during freeze-drying, while trehalose was more effective in keeping particle size within limits during storage. In conclusion, results demonstrated that the appropriate combination of sucrose/trehalose and mannitol together with the appropriate selection of lyophilization process parameters could yield nanocrystals with satisfactory stability. PB - Elsevier B.V. T2 - European Journal of Pharmaceutical Sciences T1 - Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study VL - 189 DO - 10.1016/j.ejps.2023.106557 ER -
@article{ author = "Mitrović, Jelena and Bjelošević Žiberna, Maja and Vukadinović, Aleksandar and Knutson, Daniel E. and Sharmin, Dishary and Kremenović, Aleksandar and Ahlin Grabnar, Pegi and Planinšek, Odon and Lunter, Dominique and Cook, James M and Savić, Miroslav and Savić, Snežana", year = "2023", abstract = "Recently, nanocrystal dispersions have been considered as a promising formulation strategy to improve the bioavailability of the deuterated pyrazoloquinolinone ligand DK-I-56-1 (7‑methoxy-2-(4‑methoxy-d3-phenyl)-2,5-dihydro-3H-pyrazolo[4,3-c]quinolin-3-one). In the current study, the freeze-drying process (formulation and process parameters) was investigated to improve the storage stability of the previously developed formulation. Different combinations of lyoprotectant (sucrose or trehalose) and bulking agent (mannitol) were varied while formulations were freeze-dried under two conditions (primary drying at -10 or -45 °C). The obtained lyophilizates were characterized in terms of particle size, solid state properties and morphology, while the interactions within the samples were analyzed by Fourier transform infrared spectroscopy. In the preliminary study, three formulations were selected based on the high redispersibility index values (around 95%). The temperature of primary drying had no significant effect on particle size, but stability during storage was impaired for samples dried at -10 °C. Samples dried at lower temperature were more homogeneous and remained stable for three months. It was found that the optimal ratio of sucrose or trehalose to mannitol was 3:2 at a total concentration of 10% to achieve the best stability (particle size < 1.0 μm, polydispersity index < 0.250). The amorphous state of lyoprotectants probably provided a high degree of interaction with nanocrystals, while the crystalline mannitol provided an elegant cake structure. Sucrose was superior to trehalose in maintaining particle size during freeze-drying, while trehalose was more effective in keeping particle size within limits during storage. In conclusion, results demonstrated that the appropriate combination of sucrose/trehalose and mannitol together with the appropriate selection of lyophilization process parameters could yield nanocrystals with satisfactory stability.", publisher = "Elsevier B.V.", journal = "European Journal of Pharmaceutical Sciences", title = "Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study", volume = "189", doi = "10.1016/j.ejps.2023.106557" }
Mitrović, J., Bjelošević Žiberna, M., Vukadinović, A., Knutson, D. E., Sharmin, D., Kremenović, A., Ahlin Grabnar, P., Planinšek, O., Lunter, D., Cook, J. M., Savić, M.,& Savić, S.. (2023). Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study. in European Journal of Pharmaceutical Sciences Elsevier B.V.., 189. https://doi.org/10.1016/j.ejps.2023.106557
Mitrović J, Bjelošević Žiberna M, Vukadinović A, Knutson DE, Sharmin D, Kremenović A, Ahlin Grabnar P, Planinšek O, Lunter D, Cook JM, Savić M, Savić S. Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study. in European Journal of Pharmaceutical Sciences. 2023;189. doi:10.1016/j.ejps.2023.106557 .
Mitrović, Jelena, Bjelošević Žiberna, Maja, Vukadinović, Aleksandar, Knutson, Daniel E., Sharmin, Dishary, Kremenović, Aleksandar, Ahlin Grabnar, Pegi, Planinšek, Odon, Lunter, Dominique, Cook, James M, Savić, Miroslav, Savić, Snežana, "Freeze-dried nanocrystal dispersion of novel deuterated pyrazoloquinolinone ligand (DK-I-56-1): Process parameters and lyoprotectant selection through the stability study" in European Journal of Pharmaceutical Sciences, 189 (2023), https://doi.org/10.1016/j.ejps.2023.106557 . .