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Women with insulin-treated diabetes are at significantly greater risk of preterm birth and of delivering babies who are large for gestational age (LGA), regardless of prepregnancy body weight, new findings suggest.
Researchers examined the role of maternal diabetes and weight on pregnancy outcomes in the population-based cohort study. The study comprised 649,043 live births in Finland between Jan. 1, 2004, and Dec. 31, 2014, including 4,000 in women with insulin-treated diabetes, 3,740 in women with type 2 diabetes, and 98,568 women with gestational diabetes.
Prepregnancy body mass index was normal for nearly 60% of mothers, while 4% were underweight, 21% were overweight, 8% were moderately obese, and 4% were severely obese.
Overall, the researchers found that women with insulin-treated diabetes had a 43-fold higher odds of having an LGA infant, compared with the reference group of women of normal BMI without diabetes (adjusted odds ratio [aOR], 43.80; 95% confidence interval, 40.88-46.93). And there was an 11-fold greater odds of having a preterm birth in this group (aOR, 11.17; 95% CI, 10.46-11.93).
The findings were published in JAMA Pediatrics.
“Smaller, but clearly statistically significant, increased LGA risks were found also for mothers with type 2 diabetes and gestational diabetes not treated with insulin, especially in combination with prepregnancy overweight or obesity that were stronger for type 2 diabetes than gestational diabetes,” wrote Linghua Kong, MSc, of the department of molecular medicine and surgery at Karolinska Institutet, and coauthors.
The aOR for LGA among women with type 2 diabetes was 9.57 (95% CI, 8.65-10.58), compared with the reference group. And for women with maternal gestational diabetes, the aOR for LGA was 3.80 (95% CI, 3.66-3.96).
Looking at the risk for preterm birth, the researchers found that the aOR among women with type 2 diabetes was 2.12 (95% CI, 1.90-2.36), while there was no association between gestational diabetes and preterm birth.
The researchers also reported that for women with gestational diabetes or no diabetes, the odds of preterm birth increased slightly as maternal prepregnancy BMI increased.
“Maternal glucose metabolism during pregnancy differs from that in the non-pregnant state; insulin resistance is increased, directing fat as the mother’s energy source to ensure adequate carbohydrate supply for the growing fetus,” the researchers wrote. “This increase in insulin resistance is mediated by a number of factors, such as increased levels of progesterone, estrogen, and human placental lactogen.”
The authors noted that their data did not include information on congenital anomalies, maternal complications such as preeclampsia, and grade of diabetes control during pregnancy. In addition, the data on maternal BMI was derived from a single time point.
“These findings may have implications for counseling and managing pregnancies to prevent adverse birth outcomes,” they wrote.
The study and some authors were supported by the THL National Institute for Health and Welfare, the Swedish Research Council, Stockholm County Council, the China Scholarship Council, and the Swedish Brain Foundation.
SOURCE: Kong L et al. JAMA Pediatr. 2019 Feb 25. doi: 10.1001/jamapediatrics.2018.5541.
Women with insulin-treated diabetes are at significantly greater risk of preterm birth and of delivering babies who are large for gestational age (LGA), regardless of prepregnancy body weight, new findings suggest.
Researchers examined the role of maternal diabetes and weight on pregnancy outcomes in the population-based cohort study. The study comprised 649,043 live births in Finland between Jan. 1, 2004, and Dec. 31, 2014, including 4,000 in women with insulin-treated diabetes, 3,740 in women with type 2 diabetes, and 98,568 women with gestational diabetes.
Prepregnancy body mass index was normal for nearly 60% of mothers, while 4% were underweight, 21% were overweight, 8% were moderately obese, and 4% were severely obese.
Overall, the researchers found that women with insulin-treated diabetes had a 43-fold higher odds of having an LGA infant, compared with the reference group of women of normal BMI without diabetes (adjusted odds ratio [aOR], 43.80; 95% confidence interval, 40.88-46.93). And there was an 11-fold greater odds of having a preterm birth in this group (aOR, 11.17; 95% CI, 10.46-11.93).
The findings were published in JAMA Pediatrics.
“Smaller, but clearly statistically significant, increased LGA risks were found also for mothers with type 2 diabetes and gestational diabetes not treated with insulin, especially in combination with prepregnancy overweight or obesity that were stronger for type 2 diabetes than gestational diabetes,” wrote Linghua Kong, MSc, of the department of molecular medicine and surgery at Karolinska Institutet, and coauthors.
The aOR for LGA among women with type 2 diabetes was 9.57 (95% CI, 8.65-10.58), compared with the reference group. And for women with maternal gestational diabetes, the aOR for LGA was 3.80 (95% CI, 3.66-3.96).
Looking at the risk for preterm birth, the researchers found that the aOR among women with type 2 diabetes was 2.12 (95% CI, 1.90-2.36), while there was no association between gestational diabetes and preterm birth.
The researchers also reported that for women with gestational diabetes or no diabetes, the odds of preterm birth increased slightly as maternal prepregnancy BMI increased.
“Maternal glucose metabolism during pregnancy differs from that in the non-pregnant state; insulin resistance is increased, directing fat as the mother’s energy source to ensure adequate carbohydrate supply for the growing fetus,” the researchers wrote. “This increase in insulin resistance is mediated by a number of factors, such as increased levels of progesterone, estrogen, and human placental lactogen.”
The authors noted that their data did not include information on congenital anomalies, maternal complications such as preeclampsia, and grade of diabetes control during pregnancy. In addition, the data on maternal BMI was derived from a single time point.
“These findings may have implications for counseling and managing pregnancies to prevent adverse birth outcomes,” they wrote.
The study and some authors were supported by the THL National Institute for Health and Welfare, the Swedish Research Council, Stockholm County Council, the China Scholarship Council, and the Swedish Brain Foundation.
SOURCE: Kong L et al. JAMA Pediatr. 2019 Feb 25. doi: 10.1001/jamapediatrics.2018.5541.
Women with insulin-treated diabetes are at significantly greater risk of preterm birth and of delivering babies who are large for gestational age (LGA), regardless of prepregnancy body weight, new findings suggest.
Researchers examined the role of maternal diabetes and weight on pregnancy outcomes in the population-based cohort study. The study comprised 649,043 live births in Finland between Jan. 1, 2004, and Dec. 31, 2014, including 4,000 in women with insulin-treated diabetes, 3,740 in women with type 2 diabetes, and 98,568 women with gestational diabetes.
Prepregnancy body mass index was normal for nearly 60% of mothers, while 4% were underweight, 21% were overweight, 8% were moderately obese, and 4% were severely obese.
Overall, the researchers found that women with insulin-treated diabetes had a 43-fold higher odds of having an LGA infant, compared with the reference group of women of normal BMI without diabetes (adjusted odds ratio [aOR], 43.80; 95% confidence interval, 40.88-46.93). And there was an 11-fold greater odds of having a preterm birth in this group (aOR, 11.17; 95% CI, 10.46-11.93).
The findings were published in JAMA Pediatrics.
“Smaller, but clearly statistically significant, increased LGA risks were found also for mothers with type 2 diabetes and gestational diabetes not treated with insulin, especially in combination with prepregnancy overweight or obesity that were stronger for type 2 diabetes than gestational diabetes,” wrote Linghua Kong, MSc, of the department of molecular medicine and surgery at Karolinska Institutet, and coauthors.
The aOR for LGA among women with type 2 diabetes was 9.57 (95% CI, 8.65-10.58), compared with the reference group. And for women with maternal gestational diabetes, the aOR for LGA was 3.80 (95% CI, 3.66-3.96).
Looking at the risk for preterm birth, the researchers found that the aOR among women with type 2 diabetes was 2.12 (95% CI, 1.90-2.36), while there was no association between gestational diabetes and preterm birth.
The researchers also reported that for women with gestational diabetes or no diabetes, the odds of preterm birth increased slightly as maternal prepregnancy BMI increased.
“Maternal glucose metabolism during pregnancy differs from that in the non-pregnant state; insulin resistance is increased, directing fat as the mother’s energy source to ensure adequate carbohydrate supply for the growing fetus,” the researchers wrote. “This increase in insulin resistance is mediated by a number of factors, such as increased levels of progesterone, estrogen, and human placental lactogen.”
The authors noted that their data did not include information on congenital anomalies, maternal complications such as preeclampsia, and grade of diabetes control during pregnancy. In addition, the data on maternal BMI was derived from a single time point.
“These findings may have implications for counseling and managing pregnancies to prevent adverse birth outcomes,” they wrote.
The study and some authors were supported by the THL National Institute for Health and Welfare, the Swedish Research Council, Stockholm County Council, the China Scholarship Council, and the Swedish Brain Foundation.
SOURCE: Kong L et al. JAMA Pediatr. 2019 Feb 25. doi: 10.1001/jamapediatrics.2018.5541.
FROM JAMA PEDIATRICS
Key clinical point:
Major finding: Pregnant women with insulin-treated diabetes have a 43-fold higher odds of having a child who is large for gestational age and 11-fold high risk for preterm birth.
Study details: A population-based cohort study of 649,043 live births in Finland between 2004 and 2014.
Disclosures: The study and some authors were supported by the THL National Institute for Health and Welfare, the Swedish Research Council, Stockholm County Council, the China Scholarship Council, and the Swedish Brain Foundation.
Source: Kong L et al. JAMA Pediatr. 2019 Feb 25. doi: 10.1001/jamapediatrics.2018.5541.