Molecular changes, histopathology, and ultrasonic vocalization acoustic profiles of systemically dehydrated rats
Brooke Rodgers, Naila Cannes do Nascimento, Abigail Cox, Taylor W. Bailey, M. Preeti Sivasankar, Allison J. Schaser

TL;DR
This study shows that mild dehydration in rats affects vocal fold gene expression but does not change their vocalizations or tissue structure.
Contribution
The study reveals gene expression changes in vocal folds due to mild dehydration without observable vocal or histological effects.
Findings
Dehydrated rats showed up-regulated kidney renin gene expression, confirming physiologic dehydration.
Gene expression in vocal folds showed differential changes related to extracellular matrix and inflammation.
No significant differences were found in vocalization acoustics or histopathology between dehydrated and euhydrated rats.
Abstract
Systemic hydration is known to promote optimal functioning of bodily systems—including the vocal folds. The impact of systemic dehydration on the biology of the vocal folds and the downstream effects of dehydration on voice output are not well understood. An in vivo rat model of systemic dehydration was employed to investigate vocal fold gene expression, histological changes, and acoustic changes in vocalization. Ultrasonic vocalizations (USVs) were recorded every day for 5 days (baseline), in male and female Long-Evans rats (N = 36, ages: 3–4 months) using an anticipatory reward paradigm. Next, rats were dehydrated (N = 18) using a published water-restriction model for 5 days or euhydrated (N = 18) and provided ad libitum access to water for 5 days. USVs were recorded daily during the dehydration/euhydration period. The USV variables were averaged at baseline and following…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsThermoregulation and physiological responses
