The gut–brain axis is a bidirectional communication network connecting the gastrointestinal
tract and central nervous system. The axis keeps track of gastrointestinal activities and …

Increasing evidence links the gut microbiome and the nervous system in health and disease.
This narrative review discusses current views on the interaction between the gut microbiota …

The gut microbiota (GM) plays an important role in the physiology and pathology of the host.
Microbiota communicate with different organs of the organism by synthesizing hormones …

The multifaceted microbiota characterizing our gut plays a crucial role in maintaining
immune, metabolic and tissue homeostasis of the intestine as well as of distal organs …

Neurological diseases, such as Parkinson's disease, Alzheimer's disease, amyotrophic
lateral sclerosis (ALS) and multiple sclerosis, are often associated with functional …

It has been shown that the gut microbiota plays a crucial role in the maintenance of intestinal
homeostasis. Additionally, it has been demonstrated that dysbiosis is closely correlated with …

Simple Summary For millennia, humankind has had a symbiotic relationship with different
bacterial species, called the microbiota. Our microbiota can affect the homeostasis, the …

Neuroplasticity refers to the ability of brain circuits to reorganize and change the properties
of the network, resulting in alterations in brain function and behavior. It is traditionally …

The gut microbiome has attracted increasing attention from researchers in recent years. The
microbiota can have a specific and complex cross-talk with the host, particularly with the …

The human microbiota comprises trillions of symbiotic microorganisms and is involved in
regulating gastrointestinal (GI), immune, nervous system and metabolic homeostasis …