1 / 18

Infants of Diabetic Mothers

Infants of Diabetic Mothers. Jennifer Bromley Newborn Nursery Presentation 3.25.2011. Introduction. Diabetes = most common medical complication of pregnancy 4% of pregnant women in the US 88% gestational 12% pregestational. Prenatal complications: Preeclampsia Prematurity Stillbirth

diane
Télécharger la présentation

Infants of Diabetic Mothers

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Infants of Diabetic Mothers Jennifer Bromley Newborn Nursery Presentation 3.25.2011

  2. Introduction • Diabetes = most common medicalcomplication of pregnancy • 4% of pregnant women in the US • 88% gestational • 12% pregestational • Prenatal complications: • Preeclampsia • Prematurity • Stillbirth • Congenital anomalies • LGA/macrosomia • Neonatal complications: • Hypoglycemia • Hyperbilirubinemeia • Hypocalcemia • Polycythemia • RDS • Longer-term outcomes

  3. Prenatal Management • Treatment: self-glucose monitoring, diet + exercise, insulin, oral anti-hyperglycemic agents • Antenatal testing: twice weekly non-stress tests with amniotic fluid index starting at 32 weeks gestation • Single third trimester ultrasound to screen for macrosomia • Scheduled C/S if the estimated fetal weight > 4500g • Elective induction of labor… • …for medically controlled GDM at 39 weeks • …for diet controlled GDM at 40 weeks • Lower rates of macrosomia and LGA infants • Lower rates of shoulder dystocia • Lower C/S rates

  4. Diabetic Embryopathy • Hyperglycemia in the 6-7 weeks of gestation • Yolk sac failure  • Spontaneous abortions • Major fetal malformations • Other teratogens may also be linked to hyperglycemia including ketones, and reduced levels of arachidonic acid with overproduction of oxygen radicals that leaves to abnormalities in prostaglandin metabolism • Disrupting the vascularization of developing tissues

  5. Diabetic Fetopathy • Intermittent maternal hyperglycemia  Fetal hyperglycemia  Premature maturation of fetal pancreatic islets Hypertrophy of beta cells Hyperinsulinemia • Fetal hyperinsulinemia  Stimulates glycogen storage in the liver Increased activity of hepatic enzymes of lipid synthesis “Fatty liver” • Increased hepatic enzymes for lipid synthesis  Elevated metabolic rate  Increased oxygen demand  Fetal hypoxemia

  6. Fetal Growth • Excessive nutrients  Increased fetal growth(particularly of insulin-sensitive tissues – liver, muscle, cardiac muscle, subQ fat)and macrosomia • After 24 weeks gestation,hyperglycemia causesdisproportionally increasedabdominal circumferencedue to fat deposition andvisceromegaly, while thehead growth remainsnormal

  7. Neonatal Effects • Congenital anomalies • Prematurity • Perinatal asphyxia • Respiratory Distress Syndrome • Metabolic

  8. Neonatal Effects: Congenital Anomalies • A large case-control study showed the relative risk for major malformations in infants of mothers with type 1 DM versus the risk in infants of nondiabetic mothers: 7.9 • Another case-control study showed increased prevalence of birth defects in infants of mothers with pregestational andgestational DM • Congenitalmalformationsaccount for 50% ofperinatal deaths todiabetic mothers

  9. Neonatal Effects: Congenital Anomalies • 2/3 of the anomalies involve cardiac or CNS • Anencephaly and spina bifida occur 13-20x more frequently in infants of diabetic mothers • GU, GI, and skeletal anomalies also occur at increased rates • Small left colon syndrome: transientinability to pass meconium that resolvesspontaneously • Unique to infants of diabetic mothers • Caudal regression syndrome 200x more commonin infants of diabetic mothers

  10. Neonatal Effects: Premature Delivery • Spontaneous premature labor occurs more frequently in diabetic pregnancies • Poor glycemic control is associated with a high rate of UTIs • Maternal preeclampsia, which also occurs more commonly in diabetic pregnancies, also contributes to premature delivery

  11. Neonatal Effects: Perinatal Asphyxia • Increased risk of… • fetal heart rate abnormalities during labor • Low Apgar scores • Intrauterine death • As many as 27% of infants born to diabetic mothers had perinatal asphyxia • Hypothesis: maternal vascular disease, manifested by nephropathy, contributes to fetal hypoxia and subsequent perinatal asphyxia

  12. Neonatal Effects: Macrosomia • Macrosomia = birth weight > 4000g • More likely to have hyperbilirubinemia,hypoglycemia, acidosis, respiratory distress,shoulder dystocia, and brachial plexus injuries • Infants usually appear large and plethoric withexcessive fat accumulation in the abdominal andscapular regions and visceromegaly • Occurrence is 4 times higher in infants born todiabetic mothers • Other end of the spectrum: mothers with vasculopathy causing intrauterine growth restriction

  13. Neonatal Effects: Respiratory Distress Syndrome • Hypothesis: hyperinsulinemia may cause delayed maturation of surfactant synthesis by interfering with the glucocorticoids normally responsible for induction of lung maturation • To ensure lung maturity, can preform an amniocentesis and look at the lechitin to sphingomyelin ratio which is >2 in mature lungs • DDX of respiratory distress in infants of diabetic mothers: pneumonia, hypertrophic cardiomyopathy, transient tachypnea of the newborn • In contrast, fetal lung maturation may occur early in diabetic pregnancies complicated by vasculopathy

  14. Neonatal Effects: Metabolic • Hypoglycemia • Blood glucose <40 mg/dL • Occurs in as many as 1/3 of all infants of diabetic mothers • Within the first few hours after birth • Hyperinsulinemic state typically lasts 2-4 days • Hypocalcemia • Total calcium < 7 mg/dL or ionized calcium < 4 mg/dL • Occurs in 10-50% of infants of diabetic mothers • Usually bottoms out between 24-72 hours after birth • Higher serum ionized Ca++ in utero can suppress fetal parathyroid glands • Hypomagnesemia • Magnesium < 1.5 mg/dL • Occurs in 40% of infants of diabetic mothers in the first 3 days of life • Maternal hypomagnesimia caused by increased urinary loss secondary to diabetes • Fix Mg before you can fix Ca

  15. Neonatal Effects: Other Complications • Polycythemia and hyperviscosity syndrome • 13-33% of infants of diabetic mothers • Chronic fetal hypoxemia  increased erythropoietin • Hyperbilirubinemia • 11-29% of infants of diabetic mothers • Increased hemolysis secondary to glycosylation of erythrocyte membranes • Hypertrophic cardiomyopathy • Transient, resolves as insulin concentrations normalize

  16. Neurodevelopmental Outcome • Poorly controlled diabetes may result in developmental abnormalities • Studies of 3 and 6-9 year olds have showed cognitive and developmental differences between children of diabetic mothers and their peers

  17. Long-term Metabolic Risk • Inheritance of pregestational diabetes is genetically linked • Children of diabetic mothers are more likely to be diabetic and more likely to be obese

  18. Conclusion • Tight maternal glycemic control is associated with improved outcomes in infants of diabetic mothers • Regardless of glycemic control, these infants are at higher risks for birth defects, abnormal growth, metabolic complications and even neurodevelopmental delay as compared to their peers of non-diabetic mothers.

More Related