Title of article
A novel model of polyhydramnios: amniotic fluid volume is increased in aquaporin 1 knockout mice
Author/Authors
Stephanie E. Mann، نويسنده , , Emily A. Ricke، نويسنده , , Elvina A. Torres، نويسنده , , Robert N. Taylor، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
4
From page
2041
To page
2044
Abstract
Objective
To test the hypothesis that amniotic fluid volume is increased in aquaporin 1 knockout mice.
Study design
Transgenic mice deficient in aquaporin 1 protein were generated by targeted gene disruption, as described previously. After a cesarean section was performed, intact, individual gestational sacs were removed from the uterus and weighed. Amniotic fluid volume, osmolality, and fetal and placental weights were determined. Data were analyzed by a 1-way analysis of variance for ranks; Dunnʹs post hoc test was used to analyze significant trends.
Results
Analysis of 16 litters showed 35 wild-type, 52 heterozygote, and 33 aquaporin 1 knockout mice. The knockout mice had a greater volume of amniotic fluid and lower amniotic fluid osmolality than their wild-type and heterozygote counterparts. There were no significant differences in fetal or placental weights among the groups.
Conclusions
Aquaporin 1 null fetuses produce a greater volume of more dilute amniotic fluid. Our findings show that aquaporin 1 water channels in fetal membranes may contribute to amniotic fluid volume regulation. We speculate that idiopathic polyhydramnios may be associated with a deficiency of aquaporin 1 channels in human fetal membranes. Transgenic aquaporin 1 knockout mice provide a unique animal of polyhydramnios.
Keywords
AquaporinPolyhydramniosAmniotic fluidFetal membranes
Journal title
American Journal of Obstetrics and Gynecology
Serial Year
2005
Journal title
American Journal of Obstetrics and Gynecology
Record number
644878
Link To Document