Sex differences in Acute Lung Injury (ALI)-Induced Respiratory Functional Changes in a Bleomycin Rat Model

Abstract

Introduction: Acute lung injury (ALI) is a pathology characterized primarily by profound disruption of the epithelial-endothelial interface, leukocyte migration into the alveolar space, leading to disordered gas exchange and consequential respiratory failure. There exist several animal models to study the pathophysiology of ALI. Bleomycin, a cancer therapeutic, has been shown to consistently induce the ALI phenotype in rodent models. We have previously shown that intra-tracheal bleomycin instillation in rats produces deleterious changes in respiratory function in both acute and recovery phases of ALI. In this study, we sought to elucidate the effect of sex bleomycin-induced ALI. Methods: To do this, cohorts of male and female Sprague-Dawley rats were measured using whole-body plethysmography (WBP) where the following respiratory parameters were recorded prior to bleomycin exposure (Week 0): Volume of Oxygen consumed normalized to body weight (VO2/kg), Respiratory rate (RR), Tidal Volume normalized to body weight (TV/kg), Minute Ventilation normalized to body weight (MV/kg), enhanced pause (Penh), pause (PAU), ratio rate of achieving peak expiatory flow (Rpef), peak inspiratory flow (box) (PIFb), peak expiratory flow box (PEFb), inspiratory time (Ti), expiratory time (Te), expiratory flow at the point of 50%TV (EF50), end-inspiratory pause (EIP), end-expiratory pause (EEP), relaxation time (Tr) and time of brake (TB). A single dose of intra-tracheal bleomycin (2.5mg/kg) was instilled and subsequent WBP recordings were performed weekly during the acute phase of ALI (Week 1), and the recovery phase of ALI (Week 4). Results: Our results show that bleomycin-induced ALI resulted in greater DTE (Weeks 1-3) and DTR (Weeks 1-2) in females compared to males. Measures of airway obstruction were also shown to be sex-dependent, as DRpef (Week 1), DPAU (Weeks 2-4), and DPenh (Weeks 2-4) were significantly different between males and females. EF50, a metric highly correlated with lung pathologies, remained unchanged between sexes post-ALI. While inducing ALI did not alter DPIFb between the sexes, DPEFb was elevated among males compared to females (Weeks 2,4). DEIP and DEEP both showed sex-dependent changes post-ALI, with females displaying a greater decrease compared to males. Additionally, there was a greater decrease in DTV/kg among females compared to males post-ALI (Weeks 1-3). DRR, DMV/kg, and DVO2/kg were unchanged across the 4 weeks post-ALI between sexes. Conclusion: Our study reveals sex-specific nuances in bleomycin-induced acute lung injury (ALI) in Sprague-Dawley rats. Differential responses in airway obstruction measures and distinct impacts on respiratory dynamics underscore the importance of considering sex in researching ALI. This work is supported by NIH R01HL152160-01. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.