Abstract 16S rRNA sequencing of human fecal samples has been tremendously successful
in identifying microbiome changes associated with both aging and disease. A number of …

The gut microbiota could influence the pathophysiology of age-related sarcopenia through
multiple mechanisms implying modulation of chronic inflammation and anabolic resistance …

Background Several studies have examined gut microbiota and sarcopenia using 16S
ribosomal RNA amplicon sequencing; however, this technique may not be able to identify …

The continuous population increase of older adults with metabolic diseases may contribute
to increased prevalence of sarcopenia and obesity and requires advocacy of optimal …

Inadequate nutrition and physical inactivity are the mainstays of primary sarcopenia–
physiopathology in older individuals. Gut microbiota composition is strongly dependent on …

Background and aims Despite animal studies revealing a causal link between the gut
microbiota and skeletal muscle mass, the role of the gut microbiome and its metabolites in …

Skeletal muscle mass plays a critical role in a healthy lifespan by helping to regulate
glucose homeostasis. As seen in sarcopenia, decreased skeletal muscle mass impairs …

Background Gut microbiota dysbiosis and sarcopenia commonly occur in the elderly.
Although the concept of the gut–muscle axis has been raised, the casual relationship is still …

Sarcopenia is a multifactorial disease related to aging, chronic inflammation, insufficient
nutrition, and physical inactivity. Previous studies have suggested that there is a relationship …

Human gut microbiota is able to influence the host physiology by regulating multiple
processes, including nutrient absorption, inflammation, oxidative stress, immune function …