BOOM
Recent additions may not be included but will usually appear in 24 hrs or less.
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Influence of dietary blueberry and broccoli on cecal microbiota activity and colon morphology in mdr1a(-/-) mice, a model of inflammatory bowel diseases. β
Go to Publication β
Nutrition (Burbank, Los Angeles County, Calif.) (Nutrition ) Vol: 28 Issue 3 Pages: 324-30 Pub: 2012 Mar Epub: 2011 Nov 23 Authors Paturi G , Mandimika T , Butts CA , Zhu S , Roy NC , McNabb WC , Ansell J , |
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Human gut bacterial communities are altered by addition of cruciferous vegetables to a controlled fruit- and vegetable-free diet. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 139 Issue 9 Pages: 1685-91 Pub: 2009 Sep Epub: 2009 Jul 29 Authors Li F , Hullar MA , Schwarz Y , Lampe JW , |
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Human gut bacterial communities are altered by addition of cruciferous vegetables to a controlled fruit- and vegetable-free diet. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 139 Issue 9 Pages: 1685-91 Pub: 2009 Sep Epub: 2009 Jul 29 Authors Li F , Hullar MA , Schwarz Y , Lampe JW , |
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Human gut bacterial communities are altered by addition of cruciferous vegetables to a controlled fruit- and vegetable-free diet. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 139 Issue 9 Pages: 1685-91 Pub: 2009 Sep Epub: 2009 Jul 29 Authors Li F , Hullar MA , Schwarz Y , Lampe JW , |
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Consumption of a diet rich in Brassica vegetables is associated with a reduced abundance of sulphate-reducing bacteria: A randomised crossover study. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 61 Issue 9 Pages: Pub: 2017 Sep Epub: 2017 Apr 12 Authors Kellingray L , Tapp HS , Saha S , Doleman JF , Narbad A , Mithen RF , |
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Consumption of a diet rich in Brassica vegetables is associated with a reduced abundance of sulphate-reducing bacteria: A randomised crossover study. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 61 Issue 9 Pages: Pub: 2017 Sep Epub: 2017 Apr 12 Authors Kellingray L , Tapp HS , Saha S , Doleman JF , Narbad A , Mithen RF , |
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Effects of Polyphenols and Glucosinolates in Broccoli Extract on Human Gut Microorganisms Based on Simulation In Vitro. β
Go to Publication β
ACS omega (ACS Omega ) Vol: 7 Issue 49 Pages: 45096-45106 Pub: 2022 Dec 13 Epub: 2022 Dec 2 Authors Zhang Y , Jiang C , Huang S , Sun J , Song X , Nishanbaev SZ , Benito MJ , Wu Y , |
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Effects of Polyphenols and Glucosinolates in Broccoli Extract on Human Gut Microorganisms Based on Simulation In Vitro. β
Go to Publication β
ACS omega (ACS Omega ) Vol: 7 Issue 49 Pages: 45096-45106 Pub: 2022 Dec 13 Epub: 2022 Dec 2 Authors Zhang Y , Jiang C , Huang S , Sun J , Song X , Nishanbaev SZ , Benito MJ , Wu Y , |
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Effects of Polyphenols and Glucosinolates in Broccoli Extract on Human Gut Microorganisms Based on Simulation In Vitro. β
Go to Publication β
ACS omega (ACS Omega ) Vol: 7 Issue 49 Pages: 45096-45106 Pub: 2022 Dec 13 Epub: 2022 Dec 2 Authors Zhang Y , Jiang C , Huang S , Sun J , Song X , Nishanbaev SZ , Benito MJ , Wu Y , |
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Sulforaphane and Sulforaphane-Nitrile Metabolism in Humans Following Broccoli Sprout Consumption: Inter-individual Variation, Association with Gut Microbiome Composition, and Differential Bioactivity. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 68 Issue 4 Pages: e2300286 Pub: 2024 Feb Epub: 2023 Dec 24 Authors Bouranis JA , Beaver LM , Wong CP , Choi J , Hamer S , Davis EW , Brown KS , Jiang D , Sharpton TJ , Stevens JF , Ho E , |
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Sulforaphane and Sulforaphane-Nitrile Metabolism in Humans Following Broccoli Sprout Consumption: Inter-individual Variation, Association with Gut Microbiome Composition, and Differential Bioactivity. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 68 Issue 4 Pages: e2300286 Pub: 2024 Feb Epub: 2023 Dec 24 Authors Bouranis JA , Beaver LM , Wong CP , Choi J , Hamer S , Davis EW , Brown KS , Jiang D , Sharpton TJ , Stevens JF , Ho E , |
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Simulated Digestion and Fermentation In Vitro by Obese Human Gut Microbiota of Sulforaphane from Broccoli Seeds. β
Go to Publication β
Foods (Basel, Switzerland) (Foods ) Vol: 11 Issue 24 Pages: Pub: 2022 Dec 12 Epub: 2022 Dec 12 Authors Sun Y , Tang Z , Hao T , Qiu Z , Zhang B , |
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Broccoli seed extract rich in polysaccharides and glucoraphanin ameliorates DSS-induced colitis via intestinal barrier protection and gut microbiota modulation in mice. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 103 Issue 4 Pages: 1749-1760 Pub: 2023 Mar 15 Epub: 2022 Dec 24 Authors Wu J , Guo W , Cui S , Tang X , Zhang Q , Lu W , Jin Y , Zhao J , Mao B , Chen W , |
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Broccoli seed extract rich in polysaccharides and glucoraphanin ameliorates DSS-induced colitis via intestinal barrier protection and gut microbiota modulation in mice. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 103 Issue 4 Pages: 1749-1760 Pub: 2023 Mar 15 Epub: 2022 Dec 24 Authors Wu J , Guo W , Cui S , Tang X , Zhang Q , Lu W , Jin Y , Zhao J , Mao B , Chen W , |
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Broccoli seed extract rich in polysaccharides and glucoraphanin ameliorates DSS-induced colitis via intestinal barrier protection and gut microbiota modulation in mice. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 103 Issue 4 Pages: 1749-1760 Pub: 2023 Mar 15 Epub: 2022 Dec 24 Authors Wu J , Guo W , Cui S , Tang X , Zhang Q , Lu W , Jin Y , Zhao J , Mao B , Chen W , |
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Broccoli seed extract rich in polysaccharides and glucoraphanin ameliorates DSS-induced colitis via intestinal barrier protection and gut microbiota modulation in mice. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 103 Issue 4 Pages: 1749-1760 Pub: 2023 Mar 15 Epub: 2022 Dec 24 Authors Wu J , Guo W , Cui S , Tang X , Zhang Q , Lu W , Jin Y , Zhao J , Mao B , Chen W , |
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Broccoli seed extract rich in polysaccharides and glucoraphanin ameliorates DSS-induced colitis via intestinal barrier protection and gut microbiota modulation in mice. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 103 Issue 4 Pages: 1749-1760 Pub: 2023 Mar 15 Epub: 2022 Dec 24 Authors Wu J , Guo W , Cui S , Tang X , Zhang Q , Lu W , Jin Y , Zhao J , Mao B , Chen W , |
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Sulforaphane Improves Liver Metabolism and Gut Microbiota in Circadian Rhythm Disorder Mice Models Fed With High-Fat Diets. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 68 Issue 21 Pages: e2400535 Pub: 2024 Nov Epub: 2024 Oct 3 Authors He C , Chen M , Jiang X , Ren J , Ganapathiraju SV , Lei P , Yang H , Pannu PR , Zhao Y , Zhang X , |
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Sulforaphane Improves Liver Metabolism and Gut Microbiota in Circadian Rhythm Disorder Mice Models Fed With High-Fat Diets. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 68 Issue 21 Pages: e2400535 Pub: 2024 Nov Epub: 2024 Oct 3 Authors He C , Chen M , Jiang X , Ren J , Ganapathiraju SV , Lei P , Yang H , Pannu PR , Zhao Y , Zhang X , |
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Sulforaphane Improves Liver Metabolism and Gut Microbiota in Circadian Rhythm Disorder Mice Models Fed With High-Fat Diets. β
Go to Publication β
Molecular nutrition & food research (Mol Nutr Food Res ) Vol: 68 Issue 21 Pages: e2400535 Pub: 2024 Nov Epub: 2024 Oct 3 Authors He C , Chen M , Jiang X , Ren J , Ganapathiraju SV , Lei P , Yang H , Pannu PR , Zhao Y , Zhang X , |
BOOM
All suggestions are computed solely on their predicted microbiome impact. Safety, side-effects etc must be evaluated by your medical professionals before starting. Some items suggests have significant risk of adverse consequences for some people.
Special thanks to David F Morrison and Geert Van Houcke for doing Quality Assurance. Special thanks to Oliver Luk, B.Sc. (Biology) from BiomeSight for spot checking the coding of data from the US National Library of Medicine
This is an Academic site. It generates theoretical models of what may benefit a specific microbiome results.
Copyright 2016-2023 Lassesen Consulting, LLC [2007], DBA, Microbiome Prescription. All rights served.
Permission to data scrap or reverse engineer is explicitly denied to all users. U.S. Code Title 18 PART I CHAPTER 47 Β§β―1030, CETS No.185, CFAA
Use of data on this site is prohibited except under written license. There is no charge for individual personal use. Use for any commercial applications or research requires a written license.
Caveat emptor: Analysis and suggestions are based on modelling (and thus infererence) based on studies. The data sources are usually given for those that wish to consider alternative inferences. theories and models.
Inventions/Methodologies on this site are Patent Pending.
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