High-intensity infrasound effects on glucose metabolism in rats

Gonçalo Martins Pereira,Maria João Oliveira,José Brito,Madalena Santos,Gonçalo Borrecho,Pedro Oliveira,Sofia S Pereira,António Oliveira De Carvalho,Artur Águas,Diamantino Freitas,Francisco Tortosa

doi:10.1038/s41598-021-96796-5

Gonçalo Martins Pereira, Maria João Oliveira + Show 9 more

Open Access

https://doi.org/10.1038/s41598-021-96796-5

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Abstract

Recent focus has been given on the effects of high-intensity infrasound (HII) exposure, and whether it induces changes in pancreatic morphology and glucose metabolism is still unknown. As such, we have studied the impact of HII exposure on glucose tolerance, insulin sensitivity, pancreatic islet morphology, muscle GLUT4 and plasma insulin and corticosterone levels. Normal and glucose intolerant wild-type Wistar rats were randomly divided in two groups: one group not exposed to HII and the other continuously exposed to HII. Animals were sacrificed at three timepoints of exposure (1, 6 or 12 weeks). An intraperitoneal glucose tolerance test was performed, blood samples were collected and the pancreas and the quadriceps femoris muscle were excised. Circulating insulin and corticosterone levels were determined and pancreatic and muscular tissue were routinely processed for histochemistry and immunohistochemistry with an anti-GLUT4 antibody. Animals exposed to HII had higher corticosterone levels than animals not exposed. No differences were found on insulin concerning HII exposure or glucose intolerance. Glucose intolerant animals had pancreatic islet fibrosis and no differences were found in GLUT4 ratio concerning HII exposure. In conclusion, we found that continuous exposure to HII increases stress hormone levels without inducing glucose intolerance in rats.

Highlights

Recent focus has been given on the effects of high-intensity infrasound (HII) exposure, and whether it induces changes in pancreatic morphology and glucose metabolism is still unknown
We have studied the morphophysiological impact of high-intensity infrasound exposure on glucose metabolism of normal and glucose intolerant rats
Concerning glucose intolerance before high-intensity infrasound exposure, we found that G2, glucose intolerant, animals presented higher glycemia than G1, normal, animals (p < 0.001)

Summary

Introduction

Recent focus has been given on the effects of high-intensity infrasound (HII) exposure, and whether it induces changes in pancreatic morphology and glucose metabolism is still unknown. We have studied the impact of HII exposure on glucose tolerance, insulin sensitivity, pancreatic islet morphology, muscle GLUT4 and plasma insulin and corticosterone levels. Glucose intolerant animals had pancreatic islet fibrosis and no differences were found in GLUT4 ratio concerning HII exposure. Considering the different frequencies in the sound spectrum, whether high-intensity infrasound exposure induces changes in glucose metabolism is still unknown. For this reason, we have studied the morphophysiological impact of high-intensity infrasound exposure on glucose metabolism of normal and glucose intolerant rats. We have studied the impact of this exposure on the rat hypothalamic–pituitary–adrenal endocrine axis, a main element in stress response, by measuring plasma corticosterone levels

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Conclusion