Add to ORKGThe gut-brain axis represents a bidirectional communication route between the gut and the central nervous system comprised of neuronal as well as humoral signaling. This system plays an important role in the regulation of gastrointestinal as well as homeostatic functions such as hunger and satiety. Recent years also witnessed an increased knowledge on the modulation of this axis under conditions of exogenous or endogenous stressors. The present review will discuss the alterations of neuroendocrine gut-brain signaling under conditions of stress and the respective implications for the regulation of food intake
The importance of the gut–brain axis in regulating stress-related responses has long been appreciate...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The importance of the gutâbrain axis in regulating stress-related responses has long been appreciate...
The gut-brain axis represents a bidirectional communication route between the gut and the central ne...
The gut-brain axis represents a bidirectional communication route between the gut and the central ne...
Over the past few years, scientific interest in the gut-brain axis (i.e., the bidirectional communic...
Communication between the central nervous system (CNS) and the gastrointestinal tract is called the ...
Several areas of research are revealing that the gut microbiome, or the bacteria colonized in human ...
To summarize recent studies on the regulation and the functions of the gut-brain axis. Visual cues o...
Stress can cause a variety of central nervous system disorders, which are critically mediated by the...
The bidirectional neural and hormonal communication system between the brain and the gastrointestina...
Brain-gut axis is of great importance in regulation of appetite and gastrointestinal functions. Impu...
The human gut harbours trillions of symbiotic bacteria that play a key role in programming different...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The importance of the gut–brain axis in regulating stress-related responses has long been appreciate...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The importance of the gutâbrain axis in regulating stress-related responses has long been appreciate...
The gut-brain axis represents a bidirectional communication route between the gut and the central ne...
The gut-brain axis represents a bidirectional communication route between the gut and the central ne...
Over the past few years, scientific interest in the gut-brain axis (i.e., the bidirectional communic...
Communication between the central nervous system (CNS) and the gastrointestinal tract is called the ...
Several areas of research are revealing that the gut microbiome, or the bacteria colonized in human ...
To summarize recent studies on the regulation and the functions of the gut-brain axis. Visual cues o...
Stress can cause a variety of central nervous system disorders, which are critically mediated by the...
The bidirectional neural and hormonal communication system between the brain and the gastrointestina...
Brain-gut axis is of great importance in regulation of appetite and gastrointestinal functions. Impu...
The human gut harbours trillions of symbiotic bacteria that play a key role in programming different...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The importance of the gut–brain axis in regulating stress-related responses has long been appreciate...
The gastrointestinal system can be considered the gateway for food entry in our body. Rather than be...
The importance of the gutâbrain axis in regulating stress-related responses has long been appreciate...