Preparation of liposomes encapsulating β–carotene using supercritical carbon dioxide with ultrasonication

Yukako Tanaka; Chiho Uemori; Tatsuhiko Kon; Masaki Honda; Siti Machmudah; Hideki Kanda; Motonobu Goto

doi:10.1016/j.supflu.2020.104848

Preparation of liposomes encapsulating β–carotene using supercritical carbon dioxide with ultrasonication

Yukako Tanaka, Chiho Uemori, Tatsuhiko Kon, Masaki Honda, Wahyudiono, Siti Machmudah, Hideki Kanda, Motonobu Goto

研究成果: Article › 査読

13 被引用数 (Scopus)

抄録

β –Carotene-loaded liposomes were prepared utilizing ultrasonication and supercritical carbon dioxide (SC-CO₂) as an alternative to organic solvents. Thermally Z–isomerized β–carotene samples containing 2.4, 37, or 87 % Z–isomers were fed with hydrogenated soy phosphatidylcholine. Pressure and temperature were changed in ranges 10–25 MPa and 50–70 °C, respectively, and isomerization ratio was changed. Transmission electron microscopy revealed ∼90–150 nm spherical liposomes. Ultraviolet–visible spectroscopy indicated that β–carotene aqueous nanosuspensions formed more effectively when Z–isomer-rich β–carotene was used as a starting material. Zeta potentials indicated that soy-phosphatidylcholine-based Z–isomer-containing β–carotene aqueous nanosuspensions showed good stability.

本文言語	English
論文番号	104848
ジャーナル	Journal of Supercritical Fluids
巻	161
DOI	https://doi.org/10.1016/j.supflu.2020.104848
出版ステータス	Published - 2020 7月 1
外部発表	はい

ASJC Scopus subject areas

化学工学（全般）
凝縮系物理学
物理化学および理論化学

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10.1016/j.supflu.2020.104848

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title = "Preparation of liposomes encapsulating β–carotene using supercritical carbon dioxide with ultrasonication",

abstract = "β –Carotene-loaded liposomes were prepared utilizing ultrasonication and supercritical carbon dioxide (SC-CO2) as an alternative to organic solvents. Thermally Z–isomerized β–carotene samples containing 2.4, 37, or 87 % Z–isomers were fed with hydrogenated soy phosphatidylcholine. Pressure and temperature were changed in ranges 10–25 MPa and 50–70 °C, respectively, and isomerization ratio was changed. Transmission electron microscopy revealed ∼90–150 nm spherical liposomes. Ultraviolet–visible spectroscopy indicated that β–carotene aqueous nanosuspensions formed more effectively when Z–isomer-rich β–carotene was used as a starting material. Zeta potentials indicated that soy-phosphatidylcholine-based Z–isomer-containing β–carotene aqueous nanosuspensions showed good stability.",

keywords = "Liposome, Supercritical carbon dioxide, Ultrasonication, Z–isomerization, β–Carotene",

author = "Yukako Tanaka and Chiho Uemori and Tatsuhiko Kon and Masaki Honda and Wahyudiono and Siti Machmudah and Hideki Kanda and Motonobu Goto",

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T1 - Preparation of liposomes encapsulating β–carotene using supercritical carbon dioxide with ultrasonication

AU - Tanaka, Yukako

AU - Uemori, Chiho

AU - Kon, Tatsuhiko

AU - Honda, Masaki

AU - Wahyudiono,

AU - Machmudah, Siti

AU - Kanda, Hideki

AU - Goto, Motonobu

PY - 2020/7/1

Y1 - 2020/7/1

N2 - β –Carotene-loaded liposomes were prepared utilizing ultrasonication and supercritical carbon dioxide (SC-CO2) as an alternative to organic solvents. Thermally Z–isomerized β–carotene samples containing 2.4, 37, or 87 % Z–isomers were fed with hydrogenated soy phosphatidylcholine. Pressure and temperature were changed in ranges 10–25 MPa and 50–70 °C, respectively, and isomerization ratio was changed. Transmission electron microscopy revealed ∼90–150 nm spherical liposomes. Ultraviolet–visible spectroscopy indicated that β–carotene aqueous nanosuspensions formed more effectively when Z–isomer-rich β–carotene was used as a starting material. Zeta potentials indicated that soy-phosphatidylcholine-based Z–isomer-containing β–carotene aqueous nanosuspensions showed good stability.

AB - β –Carotene-loaded liposomes were prepared utilizing ultrasonication and supercritical carbon dioxide (SC-CO2) as an alternative to organic solvents. Thermally Z–isomerized β–carotene samples containing 2.4, 37, or 87 % Z–isomers were fed with hydrogenated soy phosphatidylcholine. Pressure and temperature were changed in ranges 10–25 MPa and 50–70 °C, respectively, and isomerization ratio was changed. Transmission electron microscopy revealed ∼90–150 nm spherical liposomes. Ultraviolet–visible spectroscopy indicated that β–carotene aqueous nanosuspensions formed more effectively when Z–isomer-rich β–carotene was used as a starting material. Zeta potentials indicated that soy-phosphatidylcholine-based Z–isomer-containing β–carotene aqueous nanosuspensions showed good stability.

KW - Liposome

KW - Supercritical carbon dioxide

KW - Ultrasonication

KW - Z–isomerization

KW - β–Carotene

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JO - Journal of Supercritical Fluids

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Preparation of liposomes encapsulating β–carotene using supercritical carbon dioxide with ultrasonication

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ASJC Scopus subject areas

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