SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136998727> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W3136998727 endingPage "101" @default.
W3136998727 startingPage "94" @default.
W3136998727 abstract "The homeostatic relationship between the gut, its microbiome, and the liver is crucial for the regulation of drug metabolism processes. Gut microbes are known to influence human health and disease by enhancing food metabolism and providing a first line of defense against pathogens. In addition to this, the gut microbiome also plays a key role in the processing of exogenous pharmaceutical compounds. Modeling the highly variable luminal gut environment and understanding how gut microbes can modulate drug availability or induce liver toxicity remains a challenge. However, microfluidics-based technologies such as organ-on-chips could overcome current challenges in drug toxicity assessment assays because these technologies are able to better recapitulate complex human responses. Efforts are being made to create in vitro multiorgan platforms, tailored for an individual patient's microbial background. These platforms could be used as a tool to predict the effect of the gut microbiome on pharmacokinetics in a personalized way." @default.
W3136998727 created "2021-03-29" @default.
W3136998727 creator A5016522671 @default.
W3136998727 creator A5030411494 @default.
W3136998727 creator A5043013432 @default.
W3136998727 creator A5076512847 @default.
W3136998727 creator A5083967988 @default.
W3136998727 date "2021-06-01" @default.
W3136998727 modified "2023-09-26" @default.
W3136998727 title "Emulating the gut–liver axis: Dissecting the microbiome's effect on drug metabolism using multiorgan-on-chip models" @default.
W3136998727 cites W1154526730 @default.
W3136998727 cites W1848527143 @default.
W3136998727 cites W1872914239 @default.
W3136998727 cites W1965665318 @default.
W3136998727 cites W1979665070 @default.
W3136998727 cites W1980914602 @default.
W3136998727 cites W1983347814 @default.
W3136998727 cites W2013520568 @default.
W3136998727 cites W2040874707 @default.
W3136998727 cites W2052700237 @default.
W3136998727 cites W2085707483 @default.
W3136998727 cites W2086538253 @default.
W3136998727 cites W2096565553 @default.
W3136998727 cites W2127813400 @default.
W3136998727 cites W2145158133 @default.
W3136998727 cites W2166562121 @default.
W3136998727 cites W2168752825 @default.
W3136998727 cites W2172687959 @default.
W3136998727 cites W2197368019 @default.
W3136998727 cites W2238097650 @default.
W3136998727 cites W2359747920 @default.
W3136998727 cites W2468862097 @default.
W3136998727 cites W2517182458 @default.
W3136998727 cites W2528396364 @default.
W3136998727 cites W2538201653 @default.
W3136998727 cites W2572551054 @default.
W3136998727 cites W2591712778 @default.
W3136998727 cites W2593189168 @default.
W3136998727 cites W2594304125 @default.
W3136998727 cites W2602807759 @default.
W3136998727 cites W2743562019 @default.
W3136998727 cites W2765277717 @default.
W3136998727 cites W2766424371 @default.
W3136998727 cites W2770339693 @default.
W3136998727 cites W2777466035 @default.
W3136998727 cites W2803013275 @default.
W3136998727 cites W2806980256 @default.
W3136998727 cites W2808500562 @default.
W3136998727 cites W2891206452 @default.
W3136998727 cites W2902585499 @default.
W3136998727 cites W2914718086 @default.
W3136998727 cites W2915620743 @default.
W3136998727 cites W2917960454 @default.
W3136998727 cites W2943483885 @default.
W3136998727 cites W2948059713 @default.
W3136998727 cites W2948160364 @default.
W3136998727 cites W2950539609 @default.
W3136998727 cites W2965377824 @default.
W3136998727 cites W2966386552 @default.
W3136998727 cites W2981888733 @default.
W3136998727 cites W2991035654 @default.
W3136998727 cites W2999173212 @default.
W3136998727 cites W3087653149 @default.
W3136998727 doi "https://doi.org/10.1016/j.coemr.2021.03.003" @default.
W3136998727 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8246515" @default.
W3136998727 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34239997" @default.
W3136998727 hasPublicationYear "2021" @default.
W3136998727 type Work @default.
W3136998727 sameAs 3136998727 @default.
W3136998727 citedByCount "9" @default.
W3136998727 countsByYear W31369987272022 @default.
W3136998727 countsByYear W31369987272023 @default.
W3136998727 crossrefType "journal-article" @default.
W3136998727 hasAuthorship W3136998727A5016522671 @default.
W3136998727 hasAuthorship W3136998727A5030411494 @default.
W3136998727 hasAuthorship W3136998727A5043013432 @default.
W3136998727 hasAuthorship W3136998727A5076512847 @default.
W3136998727 hasAuthorship W3136998727A5083967988 @default.
W3136998727 hasBestOaLocation W31369987271 @default.
W3136998727 hasConcept C111472728 @default.
W3136998727 hasConcept C126322002 @default.
W3136998727 hasConcept C138885662 @default.
W3136998727 hasConcept C143121216 @default.
W3136998727 hasConcept C203014093 @default.
W3136998727 hasConcept C2780035454 @default.
W3136998727 hasConcept C29730261 @default.
W3136998727 hasConcept C2993709057 @default.
W3136998727 hasConcept C3019978661 @default.
W3136998727 hasConcept C539455810 @default.
W3136998727 hasConcept C60644358 @default.
W3136998727 hasConcept C64903051 @default.
W3136998727 hasConcept C70721500 @default.
W3136998727 hasConcept C71924100 @default.
W3136998727 hasConcept C86803240 @default.
W3136998727 hasConcept C89311334 @default.
W3136998727 hasConcept C89611455 @default.
W3136998727 hasConcept C98274493 @default.
W3136998727 hasConceptScore W3136998727C111472728 @default.