Altered diastolic function in infants of mothers with gestational diabetes: no relation to macrosomia

The Impact of Maternal Preeclampsia and Hyperglycemia on the Cardiovascular Health of the Offspring: A Systematic Review and Meta-analysis

OBJECTIVES

The objective of this review was to assess the impact of maternal preeclampsia or hyperglycemia on the body composition and cardiovascular health in the offspring.

STUDY DESIGN

We conducted a systematic review utilizing PubMed, EBSCO, CINAHLPlus, Cochrane Library, and Web of Science to include all studies assessing the impact of preeclampsia/eclampsia and/or gestational/pregestational diabetes mellitus on the health of the offspring (children <10 years of age). The health measures included anthropometry, cardiac dimensions and function, and vascular function. We performed a meta-analysis using Review Manager software and computed net risk ratio (RR) with 95% confidence interval (CI) for dichotomous data and mean difference (MD) with 95% CI for continuous data.

RESULTS

There were 6,376 studies in total, of which 45 were included in the review and 40 in the meta-analysis. The results demonstrated higher birth weight (MD: 0.12 kg; 95% CI: 0.06-0.18) and systolic and diastolic blood pressure (BP; MD: 5.98 mm Hg; 95% CI: 5.64-6.32 and MD: 3.27 mm Hg; 95% CI: 0.65-5.89, respectively) in the offspring of mothers with gestational diabetes compared to controls. In contrast, the offspring of mothers with preeclampsia had lower birth weight (MD: -0.41 kg; 95% CI: -0.7 to -0.11); however, they had increased systolic (MD: 2.2 mm Hg; 95% CI: 1.28-3.12) and diastolic BP (MD: 1.41 mm Hg; 95% CI: 0.3-2.52) compared to controls. There is lack of data to conduct a meta-analysis of cardiac morphology, functional, and vascular imaging parameters.

CONCLUSION

These findings suggest that the in-utero milieu can have a permanent impact on the body composition and vascular health of the offspring. Future work warrants multicenter prospective studies to understand the mechanism and the actual effect of exposure to maternal hyperglycemia and high BP on the cardiovascular health of the offspring and long-term outcomes.

KEY POINTS

· Adverse in-utero exposures may have an impact on cardiovascular risk in children.. · Maternal hyperglycemia/preeclampsia lead to changes in birthweight and BP.. · Limited echocardiographic and vascular imaging data in these cohorts necessitates future work..

Differences in cardiac geometry in relation to body size among neonates with abnormal prenatal growth and body size at birth

OBJECTIVES

Both excessive and restricted fetal growth are associated with changes in cardiac geometry and function at birth. There are significant issues when indexing cardiac parameters for body size in the neonatal period. The aims of this study were to determine to what extent cardiac geometry is dependent on body size in term and preterm neonates with restricted or excessive fetal growth and how this is affected by adiposity.

METHODS

This was a cross-sectional study of neonates born between 31 and 42 weeks of gestation, divided into three groups: (1) small-for-gestational age (SGA, birth weight > 2 SD below the mean); (2) large-for-gestational age (LGA, birth weight > 2 SD above the mean); and (3) appropriate-for-gestational-age controls (AGA, birth weight ≤ 2 SD from the mean). Cardiac geometry and function were compared between the study groups, adjusting for body size. The potential impact of infant adiposity and maternal disease was assessed.

RESULTS

In total, 174 neonates were included, of which 39 were SGA, 45 were LGA and 90 were AGA. Body size was reflected in cardiac dimensions, with differences in cardiac dimensions disappearing between the SGA and AGA groups when indexed for body surface area (BSA) or thoracic circumference. The same was true for the differences in atrial and ventricular areas between the LGA and AGA groups. However, left ventricular inflow and outflow tract dimensions did not follow this trend as, when indexed for BSA, they were associated negatively with adiposity, resulting in diminished dimensions in LGA compared with AGA and SGA neonates. Adiposity was associated positively with left ventricular mass, right ventricular length and area and right atrial area. The SGA group showed increased right ventricular fractional area change, possibly reflecting differences in the systolic function of the right ventricle. We found evidence of altered diastolic function between the groups, with the mitral valve inflow E- to lateral E'-wave peak velocity ratio being increased in the LGA group and decreased in the SGA group.

CONCLUSIONS

Cardiac geometry is explained by body size in both term and preterm AGA and SGA infants. However, the nature of the relationship between body size and cardiac dimensions may be influenced by adiposity in LGA infants, leading to underestimation of left ventricular inflow and outflow tract dimensions when adjusted for BSA. Adjustments for thoracic circumference provide similar results to those for BSA. Copyright © 2020 ISUOG. Published by John Wiley & Sons Ltd.

Infants of diabetic mothers: echocardiographic measurements and cord blood IGF-I and IGFBP-1

BACKGROUND

Cardiac malformations in infants of diabetic mothers (IDMs) are five times higher than in normal pregnancies. Insulin-like growth factor-I (IGF-I) is the most important growth factor in utero and is predominantly bound by IGF binding protein-1 (IGFBP-1).

OBJECTIVE

To examine the echocardiographic findings of neonates of diabetic mothers and the relationship with cord blood IGF-I and IGBP-1.

SUBJECTS AND METHODS

This study was conducted on 69 neonates born to diabetic mothers who were admitted to the neonatal intensive care unit, Ain Shams University Hospitals between August 2007 and February 2008. They were classified into three groups: 20 small for gestational age, 25 appropriate for gestational age, and 24 large for gestational age. Neonates were subjected to thorough clinical examination and echocardiographic evaluation. Maternal hemoglobin A1c (HbA1c) and cord blood IGF-I and IGBP-1 were assessed.

RESULTS

Thirty neonates (43.5%) had hypertrophic cardiomyopathy (HCM); all of them were infants of suboptimally controlled diabetic mothers (HbA1c ≥ 7) with positive correlation between HbA1c and interventricular septal (IVS) thickness. Impaired left ventricular contractility was recorded in 52 IDMs (75.4%). The echocardiographic and laboratory measurements showed significant difference between the three studied groups. Cardiac morphological data were negatively correlated to IGFBP-1 and positively correlated to IGF-I and birth weight.

CONCLUSIONS

The opposing relationships between cord blood IGF-I and IGFBP-1 on the cardiac morphological measurements supporting their putative opposing roles in HCM seen in IDMs. Birth weight is the best predictor of hypertrophied IVS especially in infants born to suboptimally controlled diabetic mothers.

Absence of increase in carotid artery intima-media thickness in infants of diabetic mothers

OBJECTIVE

Infants of diabetic mothers (IDM) are considered as a risk group for atherosclerosis. Increased aortic intima-media thickness has been reported in IDM. The purpose of this study was to assess carotid artery intima-media thickness (CA-IMT), left ventricular mass index (LVMI) and atherosclerotic risk factors in IDM.

METHODS

Thirty IDM and 25 healthy controls were included in the study. Of these infants, 14 were appropriate-for-gestational age (AGA) and 16 were large-for-gestational age (LGA). CA-IMT and LVMI were obtained by M-mode echocardiographic examination. The relationship between parameters of atherosclerosis and echocardiographic measurements was assessed by Pearson's correlation analysis.

RESULTS

LVMI was higher in LGA IDM when compared to AGA IDM and controls. CA-IMT was not significantly different between the groups and was also not related to atherosclerotic risk factors. Serum lipid and insulin levels were higher in LGA IDM when compared with AGA IDM and controls. There were no correlations between CA-IMT, LVMI and atherosclerotic risk factors.

CONCLUSIONS

In contrast to previous reports indicating an increase in CA-IMT in IDM, no differences were found between IDM and controls in this study. Our results indicate that macrosomic IDM are prone to hypertrophic cardiomyopathy but not to atherosclerotic changes in the blood vessels.

[Neonatal morbidity and mortality according to intrauterine growth pattern]

OBJECTIVE

To evaluate the influence of intrauterine growth on neonatal morbidity and mortality in live neonates born in a regional tertiary care center.

PATIENTS AND METHODS

A retrospective cohort study was performed. Data from 12,311 live neonates (LN) born in our hospital (from January 1999 to December 2003) were reviewed to analyze neonatal morbidity and mortality according to whether the LN were appropriate (AGA), small (SGA) or large (LGA) for gestational age. The variables collected from birth to hospital discharge were: gestational abnormalities, gender, delivery type, Apgar score, respiratory distress, presentation of obstetric trauma (including cephalohematomas), hypoglycemia, hypocalcemia, hyperbilirubinemia, congenital malformations, heart disease, and type of hospital discharge. Differences were examined among groups. We used the chi-squared test to compare the frequency of these variables in each group.

RESULTS

Data from 12,311 LN were entered into the database; 11,182 (90.8%) were AGA, 743 (6.1%) were LGA and 386 (3.1%) were SGA. There were 52.58% boys and 47.42% girls, and 5.5% of LN had macrosomia (birth weight > 4,000 g). A total of 0.39% of LN died before hospital discharge. Among LN, there were 1,215 preterm infants, representing 9.89% of all LN and 2.63% died (SGA 25% and AGA 75%). There was a prevalence of boys in the LGA group and of girls in the SGA group (p = 0.000). The presence of maternal diabetes (pregestational or gestational) was significantly higher (p = 0.000) in the LGA group. Maternal hypertension, smoking and drug addiction were significantly higher in the SGA group. The finding of obstetric trauma was significantly higher in the LGA group (p = 0.000). The proportion of congenital malformations, hypocalcemia and hypoglycemia was higher in the SGA group than in the AGA and LGA groups (p = 0.000). Neonatal mortality was significantly higher (p = 0.000) in the SGA group and preterm infants.

CONCLUSIONS

Neonates with deviations in the pattern of intra-uterine growth had worse outcome. Prognosis was worse in SGA neonates, followed by LGA neonates, than in AGA neonates.

Echocardiographic measurements in infants of diabetic mothers and macrosomic infants of nondiabetic mothers

AIM

To compare echocardiographic findings of infants of diabetic mothers (IDMs), macrosomic infants of nondiabetic mothers and healthy full term appropriate-for-gestational-age (AGA) infants.

METHODS

Included in this study were 83 infants, admitted to our Neonatology Unit. Thirty-three IDMs, including both macrosomic and nonmacrosomic, comprised Group A, 25 macrosomic infants of nondiabetic mothers comprised group B, and 25 healthy full term AGA infants comprised group C. Echocardiographic measurements were performed in the first three days after birth and compared by using one-way ANOVA, Post Hoc Tukey HSD and Student's t tests.

RESULTS

The left ventricular end-systolic/left ventricular end-diastolic diameter ratio of group A was significantly smaller than that of group C (P<0.05). The interventricular septum/posterior wall thickness ratios of groups A and B were greater than those of group C (P<0.05). The left ventricular mass index of group A was greater than those of groups B and C (P<0.05). The shortening fraction and ejection fraction of group A were increased in comparison to group C (P<0.05). When comparing the values of echocardiographic measurements of macrosomic IDMs (n=9) with nonmacrosomic ones (n=24), and infants of pregestational diabetic mothers (n=11) with those of gestational diabetes mothers (n=22), no statistical difference was found.

CONCLUSION

The present study suggests that underlying mechanisms common to both macrosomic infants of nondiabetic mothers and IDMs lead to less cardiac alterations in the macrosomic infants of nondiabetic mothers than in IDMs.

Impaired left ventricular diastolic function in newborn infants of mothers with pregestational or gestational diabetes with good glycemic control

THE AIM OF THE STUDY

We assessed by echocardiography the left ventricular systolic and diastolic function in newborn infants of mothers with well-controlled pregestational type 1 or gestational diabetes (IDM) in comparison to normal term neonates.

SUBJECTS AND METHODS

Two-dimensional/M-mode and Doppler transmitral flow velocity measurements were performed in 18 IDM and 26 control infants of non-diabetic mothers (gestational ages 36-40 and 36-41 weeks, respectively) between days 2 and 5 after birth. In the IDM, there were nine mothers with pregestational (White class C or D) and nine mothers with gestational diabetes (White class A or A/B). Peak early and atrial filling velocity, early deceleration time, early acceleration time, early, atrial and total time velocity integrals were used to examine the left ventricular diastolic performance. We also calculated the early/atrial velocity ratio, early/atrial integral ratio and early/total integral ratio. The fractional shortening, fractional shortening area, midwall fractional shortening (mFS), left ventricular mass and indexed left ventricular mass for body surface area (BSA) and birth weight were used in assessment of left ventricular systolic performance.

RESULTS

The early deceleration time was longer, resulting in higher early integral and early filling fraction (EFF) in the IDM than in the control infants (p<0.01). In the IDM, the fractional shortening was somewhat greater and the left ventricular mass/body surface area ratio was higher than in the control group (p<0.05), although the measures of systolic performance were within the normal range. There were no significant differences in the systolic or diastolic function parameters between the gestational and pregestational groups.

CONCLUSION

In the infants of mothers with well-controlled pregestational or gestational diabetes, we found prolonged deceleration time of early left ventricular diastolic filling, probably reflecting an impaired left ventricular relaxation rather than compliance. The mechanism for the findings may be maternal hyperglycemia during the third trimester and subsequent fetal hyperinsulinaemia leading to neonatal cardiac hypertrophy.

Quantification of regional left ventricular wall motion in newborns by color kinesis

BACKGROUND

Normal values for regional left ventricular wall motion, although documented in adults, have not been reported in healthy newborns.

METHODS

This study prospectively evaluated global and segmental systolic and diastolic cardiac function by color kinesis in clinically asymptomatic healthy newborns.

RESULTS

Eighty-eight asymptomatic infants who were less than 48 hours old were studied. Systolic and diastolic parameters of global and regional left ventricular function are reported as means +/- SD, medians, 5th and 95th percentiles to establish the normative values for newborns. The reported fractional area changes during systole and diastole are similar to the reported normal values for older subjects. Higher body surface area significantly correlated with an increased peak velocity during systole, and fractional area changes during filling of the lateral wall.

CONCLUSIONS

Our report of left ventricular regional wall-motion characteristics of healthy newborns, as evaluated by color kinesis, may help in the objective evaluation and management of newborns suspected to have global or segmental ventricular dysfunction.

Neonatal echocardiograms of macrosomic neonates

OBJECTIVE

To compare echocardiograms of macrosomic and healthy full term neonates whose weight was appropriate for gestational age (AGA).

METHODS

Echocardiography was performed on 9 healthy full term AGA neonates and 15 macrosomic neonates. A data base was generated from valid echocardiographic measurements on each infant.

RESULTS

Macrosomic infants were heavier than control infants and had a greater body surface area, but their mean cardiac dimensions were similar. The mean LVES volume was smaller than that of the control group when expressed as a fraction of individual LVED values (0.61 +/- 0.04 vs 0.64 +/- 0.02; p = 0.02). When comparing IVS/PW, it was observed that the ratio was up to and including 1.33 in the control group, while the upper limit of the ratio of the nondiabetic macrosomic infants was 1.6. The shortening fraction (SF%) was increased in comparison to infants of normal weight (40.67% +/- 3.34 vs 36.00% +/- 1.89; p = 0.0009). The thickened IVS did not elevate SF% by decreasing LVES; the macrosomic infants had a smaller LVES mean volume.

CONCLUSION

IVS/PW ratio of macrosomic infants fell outside of the normal range. Macrosomic neonates were found to have an increased SF% secondary to a proportionally smaller LVES volume, regardless of IVS thickness.

Diastolic biomechanics in normal infants utilizing MRI tissue tagging

BACKGROUND

Most of what is known about diastolic function in normal infants is derived from flow and pressure measurements. Little is known about regional diastolic strain and wall motion.

METHODS AND RESULTS

Magnetic resonance tissue tagging was performed in 11 normal infants to determine regional diastolic strain and wall motion. Tracking diastolic motion of the intersection points and finite strain analysis yielded regional rotation, radial displacement, and E(1) and E(2) strains at 3 short-axis levels (significance was defined as P<0.05). E(2) "circumferential lengthening" strains were significantly greater at the lateral wall, regardless of short-axis level, whereas E(1) "radial thinning" strains were similar in all wall regions at all short-axis levels. In general, no differences were noted in strain dispersion within a wall region or in endocardial/epicardial strain at all short-axis levels. At all short-axis levels, septal radial motion was significantly less than in other wall regions. No significant differences in radial wall motion between short-axis levels were noted. Rotation was significantly greater at the apical short-axis level in all wall regions than in other short-axis levels, and it was clockwise. At the atrioventricular valve, septal and anterior walls rotated slightly clockwise, whereas the lateral and inferior walls rotated counterclockwise.

CONCLUSIONS

Diastolic biomechanics in infants are not homogeneous. The lateral walls are affected most by strain, and the septal walls undergo the least radial wall motion. Apical walls undergo the most rotation. These normal data may help in the understanding of diastolic dysfunction in infants with congenital heart disease.