Influence of age and sex on physical, cardiac electrical and functional alterations in progressive hyperoxia treatment: A time course study in a murine model

Autor: Yashwant Ayalasomayajula, Anagha Hesaraghatta, Neha Dantuluri, Jenna Yassine, Faizan Saleem, Hussein Mansour, Chayapatou Chayawatto, Nishank Rangarajan, Sashank Rangarajan, Smrithi Krishnan, Siva Kumar Panguluri
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Experimental Gerontology, Vol 191, Iss , Pp 112435- (2024)
Druh dokumentu: article
ISSN: 1873-6815
DOI: 10.1016/j.exger.2024.112435
Popis: Oxygen supplementation is a widely used treatment for ICU patients. However, it can lead to hyperoxia, which in turn can result in oxidative stress, cardiac remodeling, and even mortality. This paper expands upon previous research conducted by our lab to establish time-dependent cardiac changes under hyperoxia. In this study, both young and aged mice (male and female) underwent 72 h of hyperoxia exposure and were monitored at 24-hour intervals for cardiac electrophysiological and functional parameters using ECG and electrocardiogram data. Our analysis showed that young male mice experienced significant weight loss as well as significant lung edema by 48 h. Although young male mice were highly susceptible to physical changes, they were resistant to early cardiac functional and electrophysiological changes compared to the other groups. Both young and aged female and aged males developed functional impairments by 24 h of hyperoxia exposure. Furthermore, sex and age differences were noted in the onset of electrophysiological changes. While some groups could resist early cardiac remodeling, our data suggests that 72 h of hyperoxia exposure is sufficient to induce significant cardiac remodeling across all age and sex groups. Our data establishes that time-dependent cardiac changes due to oxygen supplementation can have devastating consequences even with short exposure periods. These findings can aid in developing clinical practices for individuals admitted to the ICU by elucidating the impact of aging, sex, and length of stay under mechanical ventilation to limit hyperoxia-induced cardiac remodeling.
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