Effects of magnesium on isolated human fetal and maternal uteroplacental vessels

Abstract

The effects of Mg²⁺were studied in human umbilical arteries, stem villous arteries and maternal intramyometrial arteries. The vessels were dissected and mounted in organ baths, and isometric tension was recorded. In all fetal preparations investigated, Mg²⁺(0.5–6.0 mM) in a concentration‐related way decreased pD₂values for prostaglandin F_2αresponses. The maximum response to prostaglandin F_2awas depressed in umbilical arteries, but remained unaffected in stem villous artery preparations. In stem villous arteries pretreated in Ca²⁺‐free medium, increasing concentrations of Mg²⁺markedly depressed the response to Ca²⁺after stimulation with K+ or prostaglandin F_2αsuggesting that Mg²⁺inhibited transmembrane calcium influx and interfered with intracellular calcium effects. In both stem villous and intramyometrial arteries, increasing concentrations of Mg²⁺increased EC₅₀values for responses to K+, whereas E_maxvalues were unaffected. Mg²⁺produced relaxation of agonist‐induced contractions by up to 60% in stem villous arteries and up to 40% in intramyometrial artery preparations. The relaxant effect of Mg²⁺did not seem to be mediated through the endothelium or through changes in the synthesis of prostanoids, since endothelial disruption and treatment with indomethacin left the responses to Mg²⁺unaffected.Relaxation of vessels important for resistance regulation in the human uteroplacental vascular bed may be of benefit when uteroplacental blood flow is impaired, and the present results support the established use of magnesium sulphate in the treatment of pre‐eclampsia.