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The physiological effects of creatine supplementation in fetal sheep before, during, and after umbilical cord occlusion and global hypoxia.

Nhi Thao TranAnna M MucciniRod J SnowIlias NitsosNadia HaleDavid W WalkerStacey J Ellery
Published in: Journal of applied physiology (Bethesda, Md. : 1985) (2021)
The aim of this study was to investigate the effects of direct creatine infusion on fetal systemic metabolic and cardiovascular responses to mild acute in utero hypoxia. Pregnant ewes (n = 28) were surgically instrumented at 118 days gestation (dGa). A constant intravenous infusion of creatine (6 mg·kg-1·h-1) or isovolumetric saline (1.5 mL·h-1) began at 121 dGa. After 10 days, fetuses were subjected to 10-min umbilical cord occlusion (UCO) to induce mild global hypoxia (saline-UCO, n = 8; creatine-UCO, n = 7) or sham UCO (saline-control, n = 6; creatine-control, n = 7). Cardiovascular, arterial blood gases and metabolites, and plasma creatine were monitored before, during, and then for 72 h following the UCO. Total creatine content in discrete fetal brain regions was also measured. Fetal creatine infusion increased plasma concentrations fivefold but had no significant effects on any measurement pre-UCO. Creatine did not alter fetal physiology during the UCO or in the early recovery stage, up to 24 h after UCO. During the late recovery stage, 24-72 h after UCO, there was a significant reduction in the arterial oxygen pressure and saturation in creatine fetuses (PUCO × TREATMENT = 0.02 and 0.04, respectively). At 72 h after UCO, significant creatine loading was detected in cortical gray matter, hippocampus, thalamus, and striatum (PTREATMENT = 0.01-0.001). In the striatum, the UCO itself increased total creatine content (PUCO = 0.019). Overall, fetal creatine supplementation may alter oxygen flux following an acute hypoxic insult. Increasing total creatine content in the striatum may also be a fetal adaptation to acute oxygen deprivation.NEW & NOTEWORTHY Direct fetal creatine supplementation increased plasma and cerebral creatine concentrations but did not alter fetal body weight, basal cardiovascular output, or blood chemistry. Creatine-treated fetuses displayed changes to arterial oxygenation 24-72 h after acute global hypoxia. An increase in striatum total creatine levels following UCO was also noted and suggests that increasing creatine tissue availability may be an adaptive response against the effects of hypoxia.
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