The human intestinal ecosystem is characterized by a complex interplay between different microorganisms and the host. The high variation within the human population further complicates the quest toward an adequate understanding of this complex system that is so relevant to human health and well-being. To study host-microbe interactions, defined synthetic bacterial communities have been introduced in gnotobiotic animals or in sophisticated in vitro cell models. This review reinforces that our limited understanding has often hampered the appropriate design of defined communities that represent the human gut microbiota. On top of this, some communities have been applied to in vivo models that differ appreciably from the human host. In this rev...
Abundant microorganisms that inhabit the human intestine are implicated in health and disease. The g...
The application of in vitro synthetic microbial communities is an excellent approach to model the ec...
Our understanding of the human gut microbiome has grown exponentially. Advances in genome sequencing...
While animal models remain essential for inferring causality, they exhibit important limitations, wh...
The intestinal microbiota conveys significant benefits to host physiology. Although multiple chronic...
peer reviewedWhile animal models remain essential for inferring causality, they exhibit important li...
The intestine contains the largest microbial community in the human body, the gut microbiome. Increa...
The microbiota of the gut has many crucial functions in human health. Dysbiosis of the microbiota ha...
It is increasingly apparent that the microbial ecosystems in the mammalian gastrointestinal tract pl...
Bacteria in the human gut exceed the number of cells in our body by a 100-fold. At the level of the ...
The gastrointestinal tract (GIT) hosts the most complex microbial community in the human body. Given...
Humans are not autonomous entities. We are all living in a complex environment, interacting not only...
Dynamic, multicompartment in vitro gastrointestinal simulators are often used to monitor gut microbi...
The human gut contains a diverse microbiota with large potential to influence health. Given the diff...
The human gut microbiome is considered an organ in its entirety and has been the subject of extensiv...
Abundant microorganisms that inhabit the human intestine are implicated in health and disease. The g...
The application of in vitro synthetic microbial communities is an excellent approach to model the ec...
Our understanding of the human gut microbiome has grown exponentially. Advances in genome sequencing...
While animal models remain essential for inferring causality, they exhibit important limitations, wh...
The intestinal microbiota conveys significant benefits to host physiology. Although multiple chronic...
peer reviewedWhile animal models remain essential for inferring causality, they exhibit important li...
The intestine contains the largest microbial community in the human body, the gut microbiome. Increa...
The microbiota of the gut has many crucial functions in human health. Dysbiosis of the microbiota ha...
It is increasingly apparent that the microbial ecosystems in the mammalian gastrointestinal tract pl...
Bacteria in the human gut exceed the number of cells in our body by a 100-fold. At the level of the ...
The gastrointestinal tract (GIT) hosts the most complex microbial community in the human body. Given...
Humans are not autonomous entities. We are all living in a complex environment, interacting not only...
Dynamic, multicompartment in vitro gastrointestinal simulators are often used to monitor gut microbi...
The human gut contains a diverse microbiota with large potential to influence health. Given the diff...
The human gut microbiome is considered an organ in its entirety and has been the subject of extensiv...
Abundant microorganisms that inhabit the human intestine are implicated in health and disease. The g...
The application of in vitro synthetic microbial communities is an excellent approach to model the ec...
Our understanding of the human gut microbiome has grown exponentially. Advances in genome sequencing...