Yueying Lu scite author profile

Background Adequate sunlight exposure helps reduce bone loss and is important to bone health. Currently, about 90% of the world population spends a major portion of daily life under artificial lighting. Unlike sunlight, LED white light, the main source of artificial lighting, has no infrared radiation, which is known to be beneficial to human health. In artificial lighting environments, infrared supplementation may be used to simulate the effects of sunlight on bone metabolism. Results Here, we supplemented white LED exposure with infrared light in normal and ovariectomized rats for three consecutive months and examined bone turnover, bone mass, and bone density. We also analyzed the structure and function of gut microbiota in the rats. Infrared supplementation significantly reduced the abundance of Saccharibacteria and increased the abundance of Clostridiaceae 1 and Erysipelotrichaceae bacteria. Our results indicate that changes in the gut microbiome correlate well with bone mass and bone metabolism.Conclusions Our work demonstrates that infrared supplementation can have a positive effect on rat bone metabolism by affecting gut microbiota. Our findings will be important considerations in the future design of healthy lighting environments that prevent or possibly ameliorate osteoporosis.

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Combined effect of simulated microgravity and low-dose ionizing radiation on structure and antibiotic resistance of a synthetic community model of bacteria isolated from spacecraft assembly room

Lu¹,

Fu²,

Chen³

et al. 2023

Life Sciences in Space Research

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Yueying Lu

Gut microbiome-mediated changes in bone metabolism upon infrared light exposure in rats

Study of Complete Oxidation of Formaldehyde Over MnOx–CeO2 Mixed Oxide Catalysts at Ambient Temperature

Characteristics of bacterial community and ARG profiles in the surface and air environments in a spacecraft assembly cleanroom

Gut Microbiome-Mediated Changes in Bone Metabolism Upon Infrared Light Exposure in Rats

Combined effect of simulated microgravity and low-dose ionizing radiation on structure and antibiotic resistance of a synthetic community model of bacteria isolated from spacecraft assembly room

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