Stulc J, Stulcová B
Department of Pharmacology, Second Faculty of Medicine, Charles University, Prague, Czech Republic.
Am J Physiol. 1996 May;270(5 Pt 2):R984-9. doi: 10.1152/ajpregu.1996.270.5.R984.
A hypothesis that, in the rat, fluid circulates across the placenta, with circulation being maintained by active transport of Na+ from mother to fetus, has been tested. Transfer of 51Cr-EDTA from mother to fetus and from fetus to mother has been measured and the respective unidirectional transfer constants, Kmf and Kfm, have been calculated. Immediately before the transfer measurement, the fetuses were injected intravenously with 10 microliters of isotonic glucose (controls); with 30 or 300 microliters of isotonic saline; or with 10, 30, or 60 microliters of 9% NaCl. In controls, Kmf of 51Cr-EDTA was 2.0 +/- 0.6 microliters/min, and Kfm was 4.3 +/- 1.0 microliters/min. Injecting the fetus with NaCl had no effect on Kmf, whereas the Kfm was increased significantly in a dose-dependent way. In other experiments, 51Cr-EDTA was injected into nephrectomized maternal animals, and the radioactivity of maternal and fetal plasma was followed for 30 h. The time course of fetal plasma radioactivity supported the thesis that the transfer of 51Cr-EDTA across the rat placenta is highly asymmetrical.
一种假说认为,在大鼠中,液体通过胎盘循环,这种循环是由Na⁺从母体到胎儿的主动转运来维持的,该假说已得到验证。已测量了⁵¹Cr - EDTA从母体到胎儿以及从胎儿到母体的转运情况,并计算了各自的单向转运常数Kmf和Kfm。在进行转运测量之前,立即给胎儿静脉注射10微升等渗葡萄糖(对照组);30或300微升等渗盐水;或10、30或60微升9%的NaCl。在对照组中,⁵¹Cr - EDTA的Kmf为2.0±0.6微升/分钟,Kfm为4.3±1.0微升/分钟。给胎儿注射NaCl对Kmf没有影响,而Kfm则以剂量依赖的方式显著增加。在其他实验中,将⁵¹Cr - EDTA注射到肾切除的母鼠体内,并跟踪母鼠和胎儿血浆的放射性30小时。胎儿血浆放射性的时间进程支持了⁵¹Cr - EDTA通过大鼠胎盘的转运是高度不对称的这一论点。
