Suitability of a batch in vitro fermentation model using human faecal microbiota for prediction of conversion of flaxseed lignans to enterolactone with reference to an in vivo rat model

被引：0

作者：

A.-M. Aura

S. Oikarinen

M. Mutanen

S.-M. Heinonen

H. C. T. Adlercreutz

H. Virtanen

K. S. Poutanen

机构：

[1] VTT Biotechnology,Dept. of Applied Chemistry and Microbiology

[2] Division of Nutrition University of Helsinki,Division of Clinical Chemistry

[3] Biomedicum University of Helsinki,undefined

来源：

European Journal of Nutrition | 2006年 / 45卷

关键词：

lignans; nondigestible carbohydrates; faecal fermentation; rat model;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

引用

页码：45 / 51

页数：6

共 15 条

[1] Suitability of a batch in vitro fermentation model using human faecal microbiota for prediction of conversion of flaxseed lignans to enterolactone with reference to an in vivo rat model
Aura, AM
Oikarinen, S
Mutanen, M
Heinonen, SM
Adlercreutz, HCT
Virtanen, H
Poutanen, KS
EUROPEAN JOURNAL OF NUTRITION, 2006, 45 (01) : 45 - 51
[2] Discrepancies in microbiota composition along the pig gastrointestinal tract between in vivo observations and an in vitro batch fermentation model
Boudry, C.
Poelaert, C.
Portetelle, D.
Thewis, A.
Bindelle, J.
JOURNAL OF ANIMAL SCIENCE, 2012, 90 : 393 - 396
[3] Comparison of Fermentation and Fecal Microbiota Profiles of Wheat Dextrin, Inulin and Partially Hydrolyzed Guar Gum Using an In Vitro Digestion Pretreatment and In Vitro Batch Fermentation System Model
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Timm, Derek A.
Hospattankar, Ashok
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GASTROENTEROLOGY, 2012, 142 (05) : S391 - S391
[4] INVESTIGATING MECHANISMS OF TMA PRODUCTION FROM CHOLINE, L-CARNITINE AND RELATED PRECURSORS BY THE HUMAN GUT MICROBIOTA USING OF AN IN-VITRO BATCH FERMENTATION (HUMAN COLON) MODEL
Day-Walsh, P.
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Speranza, J.
Narbad, A.
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ATHEROSCLEROSIS, 2022, 355 : E122 - E122
[5] Sugarcane polyphenol and fiber to affect production of short-chain fatty acids and microbiota composition using in vitro digestion and pig faecal fermentation model
Loo, Yit Tao
Howell, Kate
Suleria, Hafiz
Zhang, Pangzhen
Gu, Chunhe
Ng, Ken
FOOD CHEMISTRY, 2022, 385
[6] In vitro fermentation of onion cell walls and model polysaccharides using human faecal inoculum: Effects of molecular interactions and cell wall architecture
Lu, Shiyi
Flanagan, Bernadine M.
Mikkelsen, Deirdre
Williams, Barbara A.
Gidley, Michael J.
FOOD HYDROCOLLOIDS, 2022, 124
[7] The use of an in-vitro batch fermentation (human colon) model for investigating mechanisms of TMA production from choline, l-carnitine and related precursors by the human gut microbiota
Day-Walsh, Priscilla
Shehata, Emad
Saha, Shikha
Savva, George M.
Nemeckova, Barbora
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Narbad, Arjan
Kroon, Paul A.
EUROPEAN JOURNAL OF NUTRITION, 2021, 60 (07) : 3987 - 3999
[8] The use of an in-vitro batch fermentation (human colon) model for investigating mechanisms of TMA production from choline, l-carnitine and related precursors by the human gut microbiota
Priscilla Day-Walsh
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George M. Savva
Barbora Nemeckova
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European Journal of Nutrition, 2021, 60 : 3987 - 3999
[9] Modulation of human gut microbiota by dietary fibers from unripe and ripe papayas: Distinct polysaccharide degradation using a colonic in vitro fermentation model
Prado, Samira Bernardino Ramos do
Minguzzi, Beatriz Toledo
Hoffmann, Christian
Fabi, Joao Paulo
FOOD CHEMISTRY, 2021, 348
[10] A model system for prediction of the in vivo metabolism of designer drugs using three-dimensional culture of rat and human hepatocytes
Kanamori, Tatsuyuki
Kuwayama, Kenji
Tsujikawa, Kenji
Miyaguchi, Hajime
Togawa-Iwata, Yuko
Inoue, Hiroyuki
FORENSIC TOXICOLOGY, 2011, 29 (02) : 142 - 151

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