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Query: UMLS:C0948265 (
metabolic syndrome
)
24,271
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The prevalence of both obesity and gestational diabetes mellitus (GDM) is rising worldwide. The complications of diabetes affecting the mother and fetus are well known. Maternal complications include preterm labor, pre-eclampsia, nephropathy, birth trauma, cesarean section, and postoperative wound complications, among others. Fetal complications include fetal wastage from early pregnancy loss or congenital anomalies, macrosomia, shoulder
dystocia
, stillbirth, growth restriction, and hypoglycemia, among others. The presence of obesity among diabetic patients compounds these complications. The above-mentioned short-term complications can be mediated by achieving the desired level of glycemic control during pregnancy. However, GDM during pregnancy is associated with increased risk of early obesity, type 2 diabetes during adolescence and the development of
metabolic syndrome
in early childhood. Additionally, GDM is a marker for the development of overt type 2 diabetes and
metabolic syndrome
for the mother in the early future.
...
PMID:Obesity, gestational diabetes and pregnancy outcome. 1892 84
Macrosomic infants (birth weight >4000 g) show increased risk for shoulder
dystocia
and associated injuries, hypoglycemia and respiratory distress. Higher risk is directly related to neonatal birth weight. High birth weight is also associated with increased risk of developing
metabolic syndrome
later in life. However the relation between birth weight and later-life
metabolic syndrome
in not linear, but "U" shaped.
...
PMID:[Macrosomic infants: clinical problems at birth and afterward]. 2109 75
Nutritional status is known to control female reproductive physiology. Many reproductive pathologies such as anorexia nervosa,
dystocia
and preeclampsia, have been linked to body mass index and to
metabolic syndrome
. Lipid metabolism has also been associated with ovarian, uterine and placental functions. Among the regulators of lipid homeostasis, the Liver X Receptors (LXRs) and the Liver Receptor Homolog-1 (LRH-1), two members of the nuclear receptor superfamily, play a central role. LXRs are sensitive to intracellular cholesterol concentration and decrease plasma cholesterol, allowing to considering them as "cholesterol sensors". LRH-1 shares many target-genes with LXRs and has been considered for a long time as a real orphan nuclear receptor, but recent findings showed that phospholipids are ligands for this nuclear receptor. Acting in concert, LXRs and LRH-1 could thus be sensitive to slight modifications in cellular lipid balance, tightly maintaining their cellular concentrations. These last years, the use of transgenic mice clarified the roles of these nuclear receptors in many physiological functions. This review will be focused on the roles of LXRs and LRH-1 on female reproduction. Their contribution to ovarian endocrine and exocrine functions, as well as uterine and placental physiology will be discussed. The future challenge will thus be to target these nuclear receptors to prevent lipid-associated reproductive diseases in women.
...
PMID:Emerging roles for LXRs and LRH-1 in female reproduction. 2275 99
Obesity and Gestational Diabetes Mellitus (GDM) are the most frequent pathologies affecting mothers and offspring during pregnancy. Both conditions have shown a sustained increase in their prevalence in recent years, and they worsen the outcome of pregnancy and the long-term health of mothers. Obesity increases the risk of GDM and preeclampsia during pregnancy and elevates the risk of developing
metabolic syndrome
in later life. Offspring of obese mothers have an increased risk of obstetric morbidity and mortality and, consistent with the developmental origins of health and disease, a long term risk of childhood obesity and metabolic dysfunction. On the other hand, GDM also increases the risk of pre-eclampsia, caesarean section, and up to 50% of women will develop type 2 diabetes later in life. From a fetal point of view, it increases the risk of macrosomia, large-for-gestational-age fetuses, shoulder
dystocia
and birth trauma. The insulin resistance and inflammatory mediators released by a hypoxic trophoblast are mainly responsible for the poor pregnancy outcome in obese or GDM patients. The adequate management of both pathologies includes modifications in the diet and physical activity. Drug therapy should be considered when medical nutrition therapy and moderate physical activity fail to achieve treatment goals. The antenatal prediction of macrosomia is a challenge for physicians. The timing and the route of delivery should consider adequate metabolic control, gestational age, and optimal conditions for a vaginal birth. The best management of these pathologies includes pre-conception planning to reduce the risks during pregnancy and improve the quality of life of these patients.
...
PMID:Obesity and gestational diabetes in pregnant care and clinical practice. 3259 60
