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Data for the size of cholesterol-fat micelles as a function of bile salt concentration and the physico-chemical properties of six liquid experimental pine-derived phytosterol formulations in a cholesterol-containing artificial intestine fluid.

Publication ,  Journal Article
Yi, J; Knudsen, TA; Nielsen, A-L; Duelund, L; Christensen, M; Hervella, P; Needham, D; Mouritsen, OG
Published in: Data in brief
February 2017

The data in this paper are additional information to the research article entiltled "Inhibition of cholesterol transport in an intestine cell model by pine-derived phytosterols" (Yi et al.,2016) [1]. The data derived from the measurement on six liquid formulations of commercial pine-derived phytosterol (CPP) by dynamic light scattering. The data cover micelle size and the zeta-potential for formulations with cholesterol including monoglyceride, oleic acid, and bile salt. The data demonstrate the critical effect of the bile salt concentration on the size of cholesterol-digested fat micelles.

Duke Scholars

Published In

Data in brief

DOI

EISSN

2352-3409

ISSN

2352-3409

Publication Date

February 2017

Volume

10

Start / End Page

478 / 481
 

Citation

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Chicago
ICMJE
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Yi, J., Knudsen, T. A., Nielsen, A.-L., Duelund, L., Christensen, M., Hervella, P., … Mouritsen, O. G. (2017). Data for the size of cholesterol-fat micelles as a function of bile salt concentration and the physico-chemical properties of six liquid experimental pine-derived phytosterol formulations in a cholesterol-containing artificial intestine fluid. Data in Brief, 10, 478–481. https://doi.org/10.1016/j.dib.2016.12.027
Yi, Jinsoo, Tine A. Knudsen, Anne-Louise Nielsen, Lars Duelund, Morten Christensen, Pablo Hervella, David Needham, and Ole G. Mouritsen. “Data for the size of cholesterol-fat micelles as a function of bile salt concentration and the physico-chemical properties of six liquid experimental pine-derived phytosterol formulations in a cholesterol-containing artificial intestine fluid.Data in Brief 10 (February 2017): 478–81. https://doi.org/10.1016/j.dib.2016.12.027.
Journal cover image

Published In

Data in brief

DOI

EISSN

2352-3409

ISSN

2352-3409

Publication Date

February 2017

Volume

10

Start / End Page

478 / 481