A rat model of multicompartmental traumatic injury and hemorrhagic shock induces bone marrow dysfunction and profound anemia

Lauren S. Kelly; Jennifer A. Munley; Erick E. Pons; Kolenkode B. Kannan; Elizabeth M. Whitley; Letitia E. Bible; Philip A. Efron; Alicia M. Mohr

doi:10.1002/ame2.12447

Animal Models and Experimental Medicine (Jun 2024)

A rat model of multicompartmental traumatic injury and hemorrhagic shock induces bone marrow dysfunction and profound anemia

Lauren S. Kelly,
Jennifer A. Munley,
Erick E. Pons,
Kolenkode B. Kannan,
Elizabeth M. Whitley,
Letitia E. Bible,
Philip A. Efron,
Alicia M. Mohr

Affiliations

Lauren S. Kelly: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Jennifer A. Munley: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Erick E. Pons: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Kolenkode B. Kannan: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Elizabeth M. Whitley: Pathogenesis, LLC Gainesville Florida USA
Letitia E. Bible: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Philip A. Efron: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA
Alicia M. Mohr: Department of Surgery and Sepsis and Critical Illness Research Center University of Florida College of Medicine Gainesville Florida USA

DOI: https://doi.org/10.1002/ame2.12447
Journal volume & issue: Vol. 7, no. 3
pp. 367 – 376

Abstract

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Abstract Background Severe trauma is associated with systemic inflammation and organ dysfunction. Preclinical rodent trauma models are the mainstay of postinjury research but have been criticized for not fully replicating severe human trauma. The aim of this study was to create a rat model of multicompartmental injury which recreates profound traumatic injury. Methods Male Sprague–Dawley rats were subjected to unilateral lung contusion and hemorrhagic shock (LCHS), multicompartmental polytrauma (PT) (unilateral lung contusion, hemorrhagic shock, cecectomy, bifemoral pseudofracture), or naïve controls. Weight, plasma toll‐like receptor 4 (TLR4), hemoglobin, spleen to body weight ratio, bone marrow (BM) erythroid progenitor (CFU‐GEMM, BFU‐E, and CFU‐E) growth, plasma granulocyte colony‐stimulating factor (G‐CSF) and right lung histologic injury were assessed on day 7, with significance defined as p values <0.05 (*). Results Polytrauma resulted in markedly more profound inhibition of weight gain compared to LCHS (p = 0.0002) along with elevated plasma TLR4 (p < 0.0001), lower hemoglobin (p < 0.0001), and enlarged spleen to body weight ratios (p = 0.004). Both LCHS and PT demonstrated suppression of CFU‐E and BFU‐E growth compared to naïve (p < 0.03, p < 0.01). Plasma G‐CSF was elevated in PT compared to both naïve and LCHS (p < 0.0001, p = 0.02). LCHS and PT demonstrated significant histologic right lung injury with poor alveolar wall integrity and interstitial edema. Conclusions Multicompartmental injury as described here establishes a reproducible model of multicompartmental injury with worsened anemia, splenic tissue enlargement, weight loss, and increased inflammatory activity compared to a less severe model. This may serve as a more effective model to recreate profound traumatic injury to replicate the human inflammatory response postinjury.

Published in Animal Models and Experimental Medicine

ISSN: 2576-2095 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Medicine (General)
Website: https://onlinelibrary.wiley.com/journal/25762095

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