Dissolution rate improvement of valsartan by low temperature recrystallization in compressed CO2: Prevention of excessive agglomeration

Authors
Youn, Yong-SukOh, Jin HeeAhn, Ki HoKim, MinsooKim, JaehoonLee, Youn-Woo
Issue Date
2011-11
Publisher
ELSEVIER
Citation
JOURNAL OF SUPERCRITICAL FLUIDS, v.59, pp.117 - 123
Abstract
In this study, the recrystallization of valsartan by ASES (Aerosol Solvent Extraction System), a supercritical micronization process, using compressed CO2 was carried out to improve the bioavailability of valsartan through preparation of micro sized particles without excessive agglomeration. Fine valsartan particles from an ethyl acetate (EA) solution were precipitated using compressed CO2 as an antisolvent at low temperature. The EA was considered a proper organic solvent to prevent agglomeration of the prepared valsartan associating to the solubility parameters of the solvents. Ultra fine valsartan particles with a mean diameter of 0.1 mu m were obtained without excessive agglomeration at the subcritical CO2 of 70 bar and 5 degrees C. When the supercritical CO2 was at 100 bar and 40 degrees C, valsartan was precipitated to fine particles that tended to agglomerated due to the melting point depression produced by CO2. During the agglomeration process, particles were sintered by the Ostwald ripening mechanism, which resulted in an increase in particle size. Agglomeration of the particles was shown to be prevented at low temperature, where remelting of the precipitated valsartan particles is minimized. Hence, processed valsartan with compressed CO2 at a low temperature improved its dissolution rate due to the small size of the particles attributing to low level of particle agglomeration. (C) 2011 Elsevier B.V. All rights reserved.
Keywords
SUPERCRITICAL ANTISOLVENT PRECIPITATION; SOLID-LIQUID-GAS; FINE PARTICLES; CRYSTALLIZATION; MICRONIZATION; PARAMETERS; MORPHOLOGY; FLUIDS; SIZE; SUPERCRITICAL ANTISOLVENT PRECIPITATION; SOLID-LIQUID-GAS; FINE PARTICLES; CRYSTALLIZATION; MICRONIZATION; PARAMETERS; MORPHOLOGY; FLUIDS; SIZE; Valsartan; Compressed CO2; ASES; Dissolution rate; Melting point depression; Agglomeration; Ostwald ripening
ISSN
0896-8446
URI
https://pubs.kist.re.kr/handle/201004/129832
DOI
10.1016/j.supflu.2011.07.008
Appears in Collections:
KIST Article > 2011
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