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. 2025 Jan 8;26(1):38.
doi: 10.1007/s10522-024-10180-0.

Oxygen transport across the lifespan of male Sprague Dawley rats

William H Nugent  1 Aleksander S Golub  1 Roland N Pittman  2 Bjorn K Song  3
Affiliations

Oxygen transport across the lifespan of male Sprague Dawley rats

William H Nugent et al. Biogerontology. .

Abstract

Human populations are experiencing unprecedented growth and longevity with lingering knowledge gaps of the characteristics, mechanisms, and pathologies of senescence. Invasive measurements and long-term control conditions for longitudinal studies are infeasible, necessitating the need for surrogate animal models. Rats have short lifespans (2-3 years) with translatable cardiovascular systems, and Sprague Dawley microcirculatory preparations are key to studying the oxygen transport mechanisms critical to the loss of skeletal muscle function in aging. Here we present baseline physiological data of 61 male, Sprague Dawley rats at 3, 6, 12, 18, and 24 months of age. Anesthetized animals were surgically prepared for femoral arterial and venous cannulations, tracheal intubation, and exteriorization of the spinotrapezius muscle. Measurements included cardiovascular function, blood gases, and peripheral tissue interstitial oxygen tension (PISFO2) using phosphorescence quenching microscopy. Intrinsic heart rates decreased with age without significant changes to blood pressure. Arterial oxygen tension declined 17% by 18 and 24 Months (p < 0.05) while pACO2 and PISFO2 were unchanged. Lactate was elevated at 12 and 18 Months along with an alkaline shift in blood pH. Heart rate and decreased pAO2 decoupled from pACO2 are conserved phenomena in human aging. The continuity of resting PISFO2 despite an anaerobic shift in metabolism may be due to declining mitochondrial function and dysregulation of the vascular response to hypoxemia, which are also present in aged humans. These physiological and microcirculatory data offer a useful experimental model for investigating the detailed changes in oxygen supply and demand that affect senescing skeletal muscles in rats and humans.

Keywords: Aging; Microcirculation; Oxygen; Phosphorescence quenching method; Spinotrapezius muscle; Sprag Dawley rat.

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Conflict of interest statement

Declarations. Conflict of interest: The authors declare no competing interests.

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