Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development

Standard

Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development. / Drannikov, Aleksandr A.; Tretiakova, Ekaterina V.; Gribchenko, Inna B. et al.

In: Chimica Techno Acta, Vol. 12, No. 4, 9128, 2025.

Research output: Contribution to journal › Article › peer-review

Harvard

Drannikov, AA, Tretiakova, EV, Gribchenko, IB, Саейди, А, Golovin, ED, Kitova, TD, Гончарова, ЕП, Zemlyakova, EO, Pestov, AV & Litvinova, EA 2025, 'Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development', Chimica Techno Acta, vol. 12, no. 4, 9128. https://doi.org/10.15826/chimtech.9128

APA

Drannikov, A. A., Tretiakova, E. V., Gribchenko, I. B., Саейди, А., Golovin, E. D., Kitova, T. D., Гончарова, Е. П., Zemlyakova, E. O., Pestov, A. V., & Litvinova, E. A. (2025). Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development. Chimica Techno Acta, 12(4), [9128]. https://doi.org/10.15826/chimtech.9128

Vancouver

Drannikov AA, Tretiakova EV, Gribchenko IB, Саейди А, Golovin ED, Kitova TD et al. Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development. Chimica Techno Acta. 2025;12(4):9128. doi: 10.15826/chimtech.9128

Author

Drannikov, Aleksandr A. ; Tretiakova, Ekaterina V. ; Gribchenko, Inna B. et al. / Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development. In: Chimica Techno Acta. 2025 ; Vol. 12, No. 4.

BibTeX

@article{a41c51cb465d45a2b148dd40ea4f52c5,

title = "Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development",

abstract = "The development of targeted drug delivery systems increasingly utilizes natural polymers like chitosan, prized for their biocompatibility and versatility. Due to its structure, chitosan demonstrates enhanced manufacturabilityб resulting in vast array of drug delivery formats produced from its gel states. However, due to the lack of the information regarding the powdered forms of such compositions, in the present work we aimed to investigate the cryoprocessed drug delivery system produced from diglycidyl ether of butanediol-1,4 cross-linked chitosan, providing some insights into its practical manufacturability and applicability for solid formulations. The resulted powder was successfully characterized by Fourier-transform infrared spectroscopy, elemental analysis, and scanning electron microscopy, which revealed its particle morphology that disables the cryogel flow thus requiring grinding. After fractionation, the powder was evaluated in regard to its applicability for solid forms. Good flow was observed for the cryogel within the size range of 0.2–0.5 mm and 0.5–1.0 mm with the angle of repose of 28.770±0.785 degrees and 30.149±0.399 degrees, Hausner Ratio of 1.248±0.003 and 1.155±0.015 and compressibility index 19.847±0.217 and 13.428±1.080, respectively, demonstrating the bulk and tapped density in the range of 0.573–0.593g/cm3 and 0.685–0.714 g/cm3. The results demonstrate that 0.2–0.5 mm and 0.5–1.0 mm fractions can be accepted for solid formulation development. Therefore, a more detailed investigation into the compressibility of the samples is required to optimize the solid dosage manufacturing parameters.",

keywords = "biopolymer, chitosan, cross-linking, cryogel, flowability, bulk density, powder flow",

author = "Drannikov, {Aleksandr A.} and Tretiakova, {Ekaterina V.} and Gribchenko, {Inna B.} and Арсалан Саейди and Golovin, {Evgeniy D.} and Kitova, {Taisiia D.} and Гончарова, {Елена Петровна} and Zemlyakova, {Ekaterina O.} and Pestov, {Alexander V.} and Litvinova, {Ekaterina A.}",

note = "The work was carried out within the framework of the agreement on the provision of a grant in the form of subsidies from the regional budget of Novosibirsk oblast in accordance with paragraph 4 of Article 78.1 of the Budget Code of the Russian Federation dated October 26, 2023 no. 0000005406995998235121722/no. ML-3, signedbetween the Ministry of Science and Innovation Policy of Novosibirsk oblast and Novosibirsk State Technical University (Sibbionots project).",

year = "2025",

doi = "10.15826/chimtech.9128",

language = "English",

volume = "12",

journal = "Chimica Techno Acta",

issn = "2409-5613",

publisher = "Ural Federal University",

number = "4",

}

RIS

TY - JOUR

T1 - Evaluation of chitosan cross-linked with diglycidyl ether of butanediol-1,4 cryogel powder flow parameters for solid formulations development

AU - Drannikov, Aleksandr A.

AU - Tretiakova, Ekaterina V.

AU - Gribchenko, Inna B.

AU - Саейди, Арсалан

AU - Golovin, Evgeniy D.

AU - Kitova, Taisiia D.

AU - Гончарова, Елена Петровна

AU - Zemlyakova, Ekaterina O.

AU - Pestov, Alexander V.

AU - Litvinova, Ekaterina A.

N1 - The work was carried out within the framework of the agreement on the provision of a grant in the form of subsidies from the regional budget of Novosibirsk oblast in accordance with paragraph 4 of Article 78.1 of the Budget Code of the Russian Federation dated October 26, 2023 no. 0000005406995998235121722/no. ML-3, signedbetween the Ministry of Science and Innovation Policy of Novosibirsk oblast and Novosibirsk State Technical University (Sibbionots project).

PY - 2025

Y1 - 2025

N2 - The development of targeted drug delivery systems increasingly utilizes natural polymers like chitosan, prized for their biocompatibility and versatility. Due to its structure, chitosan demonstrates enhanced manufacturabilityб resulting in vast array of drug delivery formats produced from its gel states. However, due to the lack of the information regarding the powdered forms of such compositions, in the present work we aimed to investigate the cryoprocessed drug delivery system produced from diglycidyl ether of butanediol-1,4 cross-linked chitosan, providing some insights into its practical manufacturability and applicability for solid formulations. The resulted powder was successfully characterized by Fourier-transform infrared spectroscopy, elemental analysis, and scanning electron microscopy, which revealed its particle morphology that disables the cryogel flow thus requiring grinding. After fractionation, the powder was evaluated in regard to its applicability for solid forms. Good flow was observed for the cryogel within the size range of 0.2–0.5 mm and 0.5–1.0 mm with the angle of repose of 28.770±0.785 degrees and 30.149±0.399 degrees, Hausner Ratio of 1.248±0.003 and 1.155±0.015 and compressibility index 19.847±0.217 and 13.428±1.080, respectively, demonstrating the bulk and tapped density in the range of 0.573–0.593g/cm3 and 0.685–0.714 g/cm3. The results demonstrate that 0.2–0.5 mm and 0.5–1.0 mm fractions can be accepted for solid formulation development. Therefore, a more detailed investigation into the compressibility of the samples is required to optimize the solid dosage manufacturing parameters.

AB - The development of targeted drug delivery systems increasingly utilizes natural polymers like chitosan, prized for their biocompatibility and versatility. Due to its structure, chitosan demonstrates enhanced manufacturabilityб resulting in vast array of drug delivery formats produced from its gel states. However, due to the lack of the information regarding the powdered forms of such compositions, in the present work we aimed to investigate the cryoprocessed drug delivery system produced from diglycidyl ether of butanediol-1,4 cross-linked chitosan, providing some insights into its practical manufacturability and applicability for solid formulations. The resulted powder was successfully characterized by Fourier-transform infrared spectroscopy, elemental analysis, and scanning electron microscopy, which revealed its particle morphology that disables the cryogel flow thus requiring grinding. After fractionation, the powder was evaluated in regard to its applicability for solid forms. Good flow was observed for the cryogel within the size range of 0.2–0.5 mm and 0.5–1.0 mm with the angle of repose of 28.770±0.785 degrees and 30.149±0.399 degrees, Hausner Ratio of 1.248±0.003 and 1.155±0.015 and compressibility index 19.847±0.217 and 13.428±1.080, respectively, demonstrating the bulk and tapped density in the range of 0.573–0.593g/cm3 and 0.685–0.714 g/cm3. The results demonstrate that 0.2–0.5 mm and 0.5–1.0 mm fractions can be accepted for solid formulation development. Therefore, a more detailed investigation into the compressibility of the samples is required to optimize the solid dosage manufacturing parameters.

KW - biopolymer

KW - chitosan

KW - cross-linking

KW - cryogel

KW - flowability

KW - bulk density

KW - powder flow

U2 - 10.15826/chimtech.9128

DO - 10.15826/chimtech.9128

M3 - Article

VL - 12

JO - Chimica Techno Acta

JF - Chimica Techno Acta

SN - 2409-5613

IS - 4

M1 - 9128

ER -

ID: 72153760