OBJECTIVE: Type I diabetes mellitus during pregnancy is associated with dysregulation of the oxygen and glucose metabolic pathways, both of which affect placental villous growth and function. Alteration of placental development in women with diabetes may contribute to the increased risk of preeclampsia, macrosomia, or fetal growth restriction. METHODS: To evaluate placental growth in the setting of maternal diabetes, immunohistochemical techniques were used to examine fibroblast growth factor-2 (FGF-2) expression, cell proliferation (Ki67), and apoptosis (Apo-Tag) in placentas from diabetic and nondiabetic patients. RESULTS: Immunostaining for FGF-2 in placentas from diabetic women demonstrated an increase in intensity within the villous stroma and syncytiotrophoblast (P<.05). Associated with these changes in FGF-2 expression, placentas from diabetic women showed no change in villous mitotic activity but did show decreased stromal compartment apoptosis. When expressed as a ratio of Ki67-positive:Apo-Tag-positive nuclei as an index of relative cell turnover, the stromal compartment showed a significant trend towards decreased nuclei turnover (P<.05), suggesting relative tissue growth in diabetic patients. CONCLUSION: Increased FGF-2 expression and decreased stromal cell compartment turnover in the diabetic placenta might be a compensatory mechanism in response to the altered physiologic milieu of maternal diabetes on placental function.
OBJECTIVE:Type I diabetes mellitus during pregnancy is associated with dysregulation of the oxygen and glucose metabolic pathways, both of which affect placental villous growth and function. Alteration of placental development in women with diabetes may contribute to the increased risk of preeclampsia, macrosomia, or fetal growth restriction. METHODS: To evaluate placental growth in the setting of maternal diabetes, immunohistochemical techniques were used to examine fibroblast growth factor-2 (FGF-2) expression, cell proliferation (Ki67), and apoptosis (Apo-Tag) in placentas from diabetic and nondiabeticpatients. RESULTS: Immunostaining for FGF-2 in placentas from diabeticwomen demonstrated an increase in intensity within the villous stroma and syncytiotrophoblast (P<.05). Associated with these changes in FGF-2 expression, placentas from diabeticwomen showed no change in villous mitotic activity but did show decreased stromal compartment apoptosis. When expressed as a ratio of Ki67-positive:Apo-Tag-positive nuclei as an index of relative cell turnover, the stromal compartment showed a significant trend towards decreased nuclei turnover (P<.05), suggesting relative tissue growth in diabeticpatients. CONCLUSION: Increased FGF-2 expression and decreased stromal cell compartment turnover in the diabetic placenta might be a compensatory mechanism in response to the altered physiologic milieu of maternal diabetes on placental function.
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