BOOM
Recent additions may not be included but will usually appear in 24 hrs or less.
| Rational | Source |
|---|---|
|
Dominant and diet-responsive groups of bacteria within the human colonic microbiota. β
Go to Publication β
The ISME journal (ISME J ) Vol: 5 Issue 2 Pages: 220-30 Pub: 2011 Feb Epub: 2010 Aug 5 Authors Walker AW , Ince J , Duncan SH , Webster LM , Holtrop G , Ze X , Brown D , Stares MD , Scott P , Bergerat A , Louis P , McIntosh F , Johnstone AM , Lobley GE , Parkhill J , Flint HJ , |
|
|
Curated database of commensal, symbiotic and pathogenic microbiota β
Generative Bioinformatics (Center of Excellence in Generative Medicine ) Vol: Issue Pages: Pub: 2014 Jun Epub: Authors D'Adamo Peter , |
|
|
Curated database of commensal, symbiotic and pathogenic microbiota β
Generative Bioinformatics (Center of Excellence in Generative Medicine ) Vol: Issue Pages: Pub: 2014 Jun Epub: Authors D'Adamo Peter , |
|
|
Potato resistant starch inhibits diet-induced obesity by modifying the composition of intestinal microbiota and their metabolites in obese mice. β
Go to Publication β
International journal of biological macromolecules (Int J Biol Macromol ) Vol: 180 Issue Pages: 458-469 Pub: 2021 Mar 9 Epub: 2021 Mar 9 Authors Liang D , Zhang L , Chen H , Zhang H , Hu H , Dai X , |
|
|
Dietary resistant starch modifies the composition and function of caecal microbiota of broilers. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 100 Issue 3 Pages: 1274-1284 Pub: 2020 Feb Epub: 2019 Nov 30 Authors Zhang Y , Liu Y , Li J , Xing T , Jiang Y , Zhang L , Gao F , |
|
|
Dietary resistant starch modifies the composition and function of caecal microbiota of broilers. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 100 Issue 3 Pages: 1274-1284 Pub: 2020 Feb Epub: 2019 Nov 30 Authors Zhang Y , Liu Y , Li J , Xing T , Jiang Y , Zhang L , Gao F , |
|
|
Dietary resistant starch modifies the composition and function of caecal microbiota of broilers. β
Go to Publication β
Journal of the science of food and agriculture (J Sci Food Agric ) Vol: 100 Issue 3 Pages: 1274-1284 Pub: 2020 Feb Epub: 2019 Nov 30 Authors Zhang Y , Liu Y , Li J , Xing T , Jiang Y , Zhang L , Gao F , |
|
|
The Capacity of the Fecal Microbiota From Malawian Infants to Ferment Resistant Starch. β
Go to Publication β
Frontiers in microbiology (Front Microbiol ) Vol: 10 Issue Pages: 1459 Pub: 2019 Epub: 2019 Jun 26 Authors Wang Y , Mortimer EK , Katundu KGH , Kalanga N , Leong LEX , Gopalsamy GL , Christophersen CT , Richard AC , Shivasami A , Abell GCJ , Young GP , Rogers GB , |
|
|
Prevotella-rich enterotype may benefit gut health in finishing pigs fed diet with a high amylose-to-amylopectin ratio. β
Go to Publication β
Animal nutrition (Zhongguo xu mu shou yi xue hui) (Anim Nutr ) Vol: 7 Issue 2 Pages: 400-411 Pub: 2021 Jun Epub: 2021 Feb 25 Authors Ren W , Yan H , Yu B , Walsh MC , Yu J , Zheng P , Huang Z , Luo J , Mao X , He J , Yan H , Chen D , Luo Y , |
|
|
Resistant Starch is Actively Fermented by Infant Faecal Microbiota and Increases Microbial Diversity. β
Go to Publication β
Nutrients (Nutrients ) Vol: 11 Issue 6 Pages: Pub: 2019 Jun 14 Epub: 2019 Jun 14 Authors Gopalsamy G , Mortimer E , Greenfield P , Bird AR , Young GP , Christophersen CT , |
|
|
High Amylose Starch with Low In Vitro Digestibility Stimulates Hindgut Fermentation and Has a Bifidogenic Effect in Weaned Pigs. β
Go to Publication β
The Journal of nutrition (J Nutr ) Vol: 145 Issue 11 Pages: 2464-70 Pub: 2015 Nov Epub: 2015 Sep 16 Authors Fouhse JM , Gänzle MG , Regmi PR , van Kempen TA , Zijlstra RT , |
|
|
Microbiome-Metabolomics Analysis Investigating the Impacts of Dietary Starch Types on the Composition and Metabolism of Colonic Microbiota in Finishing Pigs. β
Go to Publication β
Frontiers in microbiology (Front Microbiol ) Vol: 10 Issue Pages: 1143 Pub: 2019 Epub: 2019 May 29 Authors Yu M , Li Z , Chen W , Rong T , Wang G , Ma X , |
|
|
In vitro utilization of amylopectin and high-amylose maize (Amylomaize) starch granules by human colonic bacteria. β
Applied and environmental microbiology (Appl Environ Microbiol ) Vol: 65 Issue 11 Pages: 4848-54 Pub: 1999 Nov Epub: Authors Wang X , Conway PL , Brown IL , Evans AJ , |
|
|
Consumption of resistant potato starch produces changes in gut microbiota that correlate with improvements in abnormal bowel symptoms: a secondary analysis of a clinical trial. β
Go to Publication β
BMC nutrition (BMC Nutr ) Vol: 10 Issue 1 Pages: 152 Pub: 2024 Nov 27 Epub: 2024 Nov 27 Authors Bush JR , Alfa MJ , |
|
|
Consumption of resistant potato starch produces changes in gut microbiota that correlate with improvements in abnormal bowel symptoms: a secondary analysis of a clinical trial. β
Go to Publication β
BMC nutrition (BMC Nutr ) Vol: 10 Issue 1 Pages: 152 Pub: 2024 Nov 27 Epub: 2024 Nov 27 Authors Bush JR , Alfa MJ , |
|
|
Microbiota characterization throughout the digestive tract of horses fed a high-fiber vs. a high-starch diet. β
Go to Publication β
Frontiers in veterinary science (Front Vet Sci ) Vol: 11 Issue Pages: 1386135 Pub: 2024 Epub: 2024 May 14 Authors Raspa F , Chessa S , Bergero D , Sacchi P , Ferrocino I , Cocolin L , Corvaglia MR , Moretti R , Cavallini D , Valle E , |
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.
Microbiome Prescription do not make any representations that data or analyses available on this site is suitable for human diagnostic purposes, for informing treatment decisions, or for any other purposes and accept no responsibility or liability whatsoever for such use.
This site is not Health Insurance Portability and Accountability Act of 1996 (HIPAA) compliant.
