The effects of gestational diabetes mellitus (GDM) on offspring include macrosomia, hypoglycemia, respiratory distress syndrome, cardiovascular disease, neural and mental injury, etc. The effects of GDM on the health status of offspring are sustained although pregnancy has ended. It has been proposed that fetal reprogramming causes long-term consequences to metabolic health in offspring. An intrauterine high-glucose environment may lead to changes in the multi-differentiation proficiency of intracorporal stem cells, showing decreased proliferation and osteogenic ability, increased adipogenic ability, accelerated apoptosis, and occurrence of premature failure. This environment also reduces the mobilization of bone marrow stem cells, whereas it increases that of medullary cells. This results in pro-inflammatory conditions and sustained inflammation in the body, thereby increasing the risk of obesity, cardiovascular and neurological disorders, and metabolic abnormalities. Stem cells derived from the amniotic membrane, umbilical cord, or placenta may be a reliable predictor of the long-term effects of GDM on offspring. The levels of blood glucose during pregnancy should be effectively controlled to reduce harm to the neonate.

The effects of gestational diabetes mellitus (GDM) on offspring include macrosomia, hypoglycemia, respiratory distress syndrome, cardiovascular disease, neural and mental injury, etc. The effects of GDM on the health status of offspring are sustained although pregnancy has ended. It has been proposed that fetal reprogramming causes long-term consequences to metabolic health in offspring. An intrauterine high-glucose environment may lead to changes in the multi-differentiation proficiency of intracorporal stem cells, showing decreased proliferation and osteogenic ability, increased adipogenic ability, accelerated apoptosis, and occurrence of premature failure. This environment also reduces the mobilization of bone marrow stem cells, whereas it increases that of medullary cells. This results in pro-inflammatory conditions and sustained inflammation in the body, thereby increasing the risk of obesity, cardiovascular and neurological disorders, and metabolic abnormalities. Stem cells derived from the amniotic membrane, umbilical cord, or placenta may be a reliable predictor of the long-term effects of GDM on offspring. The levels of blood glucose during pregnancy should be effectively controlled to reduce harm to the neonate.