Clinical significance of slightly lateral ventricular enlargement in healthy infants

Prenatal exposure to hypoxic risk conditions in autistic and neurotypical youth: Associated ventricular differences, sleep disturbance, and sensory processing

There is a growing body of research that suggests conditions during the period of pregnancy and birth can affect how autism spectrum disorder (ASD) presents itself. This study aimed to investigate the incidence of oxygen deprivation during this period known as prenatal and perinatal hypoxic risk (HR) conditions in ASD compared with neurotypical control (NTC) youth. We also examined ventricular morphology variations associated with HR exposure, and to evaluate associations with clinical symptoms. Results from a cohort of 104 youth revealed a higher incidence of exposure to prenatal hypoxic conditions in the ASD group. Additionally, ASD individuals with prenatal hypoxic exposure (ASD + HR) demonstrated larger third ventricle volumes compared with both ASD and NTC individuals without such exposure (ASD-HR and NTC-HR, respectively). Furthermore, associations were identified between prenatal hypoxic exposure, third ventricle volume, sensory dysfunction, and severity of sleep disturbances. These findings suggest exposure to prenatal hypoxic risk conditions may exacerbate or modify the neurodevelopmental trajectory and symptom severity in ASD, emphasizing the need for better prenatal care and specific interventions to reduce these risks.

Genotype and corticosteroid treatment are distinctively associated with gray matter characteristics in patients with Duchenne muscular dystrophy

This study investigated if structural variation in specific gray matter areas is associated with corticosteroid treatment or genotype, and if cerebral morphological variations are related to neuropsychological and behavioral outcomes. The CAT12 toolbox in SPM was used for MRI segmentations, assessing subcortical structures, cortical thickness, gyrification, and sulci depths for DMD patients (n = 40; 9-18 years) and age-matched controls (n = 40). Comparisons were made between DMD vs. controls, daily vs. intermittent corticosteroid treatment (n = 20 each), and Dp140+ vs. Dp140- gene mutations (n = 15 vs. 25). MANCOVA, CAT12 3D statistics and Pearson correlations were conducted. DMD patients showed differences in volumes of distinct subcortical structures, left hemisphere cortical thickness, and gyrification in multiple brain areas compared with healthy controls. The daily treated DMD group exhibited differences in subcortical volumes and different patterns of cortical thickness, sulci depth, and gyrification compared to the intermittent treated DMD group. DMD Dp140+ patients displayed altered gyrification and sulci depth compared to DMD Dp140- patients. Finally, we found correlations between neurobehavioral outcomes and brain areas that showed differences in cortical morphology associated with corticosteroid treatment. Both genotype and corticosteroid treatment are associated with variations in subcortical volumes and cortical morphology, albeit in different ways. Corticosteroid treatment appears to have a more profound association with differences in gray matter characteristics of brain regions that are associated with functional outcomes.

Changes in fetal intracranial anatomy during maternal pregestational and gestational diabetes

AIM

To evaluate the changes in fetal intracranial structures in pregnant women with pregestational diabetes mellitus (DM) and gestational diabetes mellitus (GDM).

METHODS

The study was conducted prospectively with patients who were grouped as pregestational DM (n = 110), GDM (n = 110), and control (n = 110). Fetal ultrasonographic measurements of widths of posterior lateral ventricles (PLV), cavum septum pellucidi (CSP), cisterna magna (CM), thalamus and transcerebellar diameter (TCD) were recorded and compared.

RESULTS

Fetal PLV, CSP, and CM widths were higher in pregestational DM and GDM groups than in control group, and also higher in pregestational DM group compared to GDM group (p < 0.001). Fetal TCD in the PGDM group was found to be less than both control and GDM groups (p < 0.001). No difference was found between three groups in terms of fetal thalamus size (p = 0.801). Fetal PLV, CSP, and CM values were positively correlated with maternal hyperglycemia, fetal abdominal circumference (AC), and deepest vertical pocket of amniotic fluid (DVP) (p < 0.001). Fetal TCD was negatively correlated with HbA1c and DVP (p = 0.002, p = 0.38, respectively). The optimal cut-off points to identify pregestational DM and GDM were 5.55 and 5.83 mm for PLV, 5.83 and 6.32 mm for CSP, and 7.26 and 6.62 mm for CM.

CONCLUSION

Maternal hyperglycemia was significantly associated with an increase in the widths of fetal PLV, CSP, and CM and a decrease in fetal TCD.

Central nervous system biometry in fetuses with and without congenital heart diseases

OBJECTIVE

To compare the fetal brain structures assessed in routine sonographic scans during the second and third trimesters in fetuses with and without congenital heart disease (CHD).

METHODS

This is a retrospective cross-sectional single-center study. We measured the head circumference (HC), the transversal diameter of the cerebellum (TCD) and the sizes of the cisterna magna (CM), the cavum septi pellucidi (CSP) and the posterior ventricles (PV) between 20 and 41 weeks of gestation. We compared 160 fetuses with CHD (case group) to 160 fetuses of normal pregnancies (control group). Every patient was matched with a control, considering the gestational age at which the ultrasound was performed. We divided the CHD group into 3 subgroups: retrograde flow in the aortic arch (group 1), right heart anomaly with the antegrade flow in the aortic arch (group 2) and other CHDs with the antegrade flow in the aortic arch (group 3).

RESULTS

The mean width of the PV was larger in fetuses of groups 1 and 3 in comparison to the control group (P < 0.001, P = 0.022; respectively). We found that the APGAR score at 5 min (P < 0.001, P < 0.001; respectively) and gestational age at delivery (P = 0.006, P = 0.001; respectively) were inferior in groups 1 and 3 compared to controls.

CONCLUSIONS

Central nervous system biometry is altered in fetuses with CHD. PV is enlarged in CHD fetuses especially with decreased oxygen levels in the aortic arch.

The prenatal causes of slight lateral ventricular enlargement in infants treated in a neonatal intensive care unit

OBJECTIVE

The aim of this study was to determine the prenatal causes of slight lateral ventricular enlargement in infants treated in a neonatal intensive care unit.

METHODS

We examined 318 infants with a gestational age of at least 28 weeks who were treated in a neonatal intensive care unit. We investigated the relationships between slight lateral ventricular enlargement and prenatal factors. Also, we investigated the relationships between the laterality of lateral ventricular enlargement and arm growth to verify our proposed mechanism of lateral ventricular enlargement.

RESULTS

Slight lateral ventricular enlargement was observed in 97 (30.5%) infants. Slight lateral ventricular enlargement was related to gestational age (p < .001), maternal anemia (p = .025), diabetes mellitus (p = .048), threatened premature labor (p = .027), and premature rupture of the membrane (p = .049). In 97 infants with ventricular enlargement, the numbers of infants with left-side dominant, equivalent, and right-side dominant laterality were 60 (61.9%), 27 (27.8%), and 10 (10.3%), respectively. Maternal anemia and diabetes mellitus were related to left-side dominant ventricular enlargement. Threatened premature labor and premature rupture of the membrane were related to right-side dominance. The laterality of lateral ventricular enlargement was not relate to that of the arm growth.

CONCLUSIONS

We propose that the main cause of slight lateral ventricular enlargement may not be malnutrition but instead may be hypoxic stress in utero.

Neonatal respiratory inhibition

OBJECTIVE

To present information on neonatal respiratory inhibition (NRI) to the medical staff caring for infants.

METHODS

The author reviewed investigations of the above conditions. NRI is defined as severe hypoxemia accompanied by clinical manifestations of central cyanosis and a decrease in SpO₂ to less than 70%. Neonatal respiratory inhibition consists of respiratory inhibition after crying (RIAC), feeding hypoxemia, and respiratory inhibition after gastroesophageal reflux (RIGER). The infants were monitored continuously via pulse oximetry from birth until discharge. To identify the details of NRI, we analyzed detailed notes taken by both parents and medical staff during monitoring using specific software designed to interpret pulse oximetry measurements.

RESULTS

Among infants who weighed at least 2000 g and who were born at a gestational age of at least 36 weeks, NRI was observed in ∼50% of infants, including RIAC in ∼25%, feeding hypoxemia in 40%, and RIGER in 2 ∼ 4%, respectively. Among the infants with NRI, ∼40% experienced one or more episodes of prolonged cyanosis for at least 60 s. RIAC, feeding hypoxemia, and RIGER is significantly associated with each other. Among perinatal factors, NRI was related to maternal diabetes mellitus, twin pregnancy, asymmetric intrauterine growth restriction, threatened premature labor, cesarean section, shorter gestational periods, and abnormal ultrasound findings, including increased echogenicity in the ganglionic eminence (GE), a cyst in the GE, a subependymal cyst, and slight lateral ventricular enlargement. Almost all infants with RIAC and RIGER, even those with severe cases, recovered until discharge around day 5. Despite the provision of nursing guidance in feeding control, ∼60% of infants experienced feeding hypoxemia continuously. The more frequently the infants experienced feeding hypoxemia, the more severe the degree of feeding hypoxemia became. Breastfeeding reduced the frequency and degree of feeding hypoxemia compared to bottle feeding. Approximately 40% of infants with feeding hypoxemia required additional feeding control after being discharged.

CONCLUSIONS

NRI is very common and occurs in many infants worldwide. The infants with NRI experienced repeated severe hypoxemia due to RIAC, feeding hypoxemia, and RIGER after birth. Breastfeeding and careful feeding control should be recommended to mothers of infants with repeated feeding hypoxemia. Spreading knowledge about NRI worldwide is very important.

The prenatal causes of slight lateral ventricular enlargement in healthy infants

OBJECTIVE

The aim of this study was to determine the prenatal causes of slight lateral ventricular enlargement in healthy infants.

METHODS

We examined 1089 healthy infants who weighed at least 2000 g and were born at a gestational age of at least 36 weeks. We assessed the presence of ventricular enlargement when an apparent space was observed in the frontal horn or body of the lateral ventricle of the brain by a transfontanel ultrasound scan. We investigated the relationships between slight lateral ventricular enlargement and various prenatal factors.

RESULTS

Slight lateral ventricular enlargement was observed in 497 (45.6%) infants. Slight lateral ventricular enlargement was related to maternal anemia (p = .004; odds ratio = 1.630; 95% CI: 1.168-2.276), threatened premature labor (p = .010; odds ratio = 1.441; 95% CI: 1.093-1.900), and diabetes mellitus (p = .022; odds ratio = 2.020; 95% CI: 1.109-3.682) using multiple logistic regression analysis. The birth weight of the infants with slight lateral ventricular enlargement was heavier than that of those without ventricular enlargement at 36-40 weeks of gestation. Forty infants with ventricular enlargement had head circumferences greater than the 90th percentile, while only one infant without ventricular enlargement did (p < .001). In addition, 22 infants with ventricular enlargement had head circumferences less than the 10th percentile, while only 4 infants without ventricular enlargement did (p < .001). In 497 infants with ventricular enlargement, the numbers of infants with left side dominant, equivalent, and right side dominant ventricular enlargement were 289 (58.1%), 110 (22.1), and 98 (19.7%), respectively.

CONCLUSIONS

Slight lateral ventricular enlargement could be caused by several pathological conditions in utero, including brain atrophy, ventricular enlargement, the influence of blood flow in the brain, and various pathological changes in different brain regions.

Fetal brain development in diabetic pregnancies and normal controls

Objective:

To compare the fetal brain structures assessed in routine sonographic scans during the second and third trimesters in diabetic and normal pregnancies.

Methods:

In this retrospective study, we measured the head circumference (HC), the transversal diameter of the cerebellum (TCD) and the sizes of the cisterna magna (CM), the cavum septi pellucidi (CSP) and the lateral ventricles (LV) in stored sonographic scans between 20 and 41 weeks of gestation. We compared 231 fetuses of diabetic mothers (diabetic group) to 231 fetuses of normal pregnancies (control group) matched by gestational age. The diabetic group was divided into three subgroups: pre-existing maternal diabetes, diet-controlled gestational diabetes and insulin-dependent gestational diabetes.

Results:

The mean widths of the CSP and LV were larger in fetuses of diabetic mothers in comparison with the controls (P<0.001, P<0.001; respectively). The sizes of HC, CM and TCD were similar in both groups. These results were consistent across the three subgroups.

Conclusions:

Diabetes is associated with altered fetal brain development. We would like to introduce the increased widths of CSP and LV as potential markers for gestational diabetes.

The prognosis of infants with neonatal respiratory inhibition syndrome

Objective: The goal of this study was to investigate the prognosis of infants with neonatal respiratory inhibition syndrome (NRIS).Methods: Infants with a gestational age of at least 36 weeks and a birth weight of at least 2000 g who were born at Nara Prefecture General Medical Center, in Nara, Japan, between March 2013 and June 2016 were screened for NRIS using our established method. NRIS was defined as severe hypoxemia caused by respiratory inhibition immediately after crying (RIAC) or gastroesophageal reflux (RIGER) or as a respiratory pause during feeding (feeding hypoxemia), accompanied clinically by central cyanosis and a decrease in SpO₂ to less than 70%. All infants were monitored using pulse oximetry immediately after birth. Diagnosis of RIAC, feeding hypoxemia, and RIGER are based on observation by both parents and medical staff as well as on on-screen computer analysis using specific software. All infants were examined at a one-month check-up. Parents of the infants who experienced one or more episodes of NRIS accompanied by a decrease in SpO₂ to less than 70% for more than approximately 60 s received a questionnaire by mail about their child's development. We conducted a logistic regression analysis with developmental problems as the dependent variable.Results: NRIS was observed in 362 (28.5%) infants; 216 (17.0%) infants showed RIAC, 254 (20.0%) infants showed feeding hypoxemia, and 54 (4.2%) infants showed RIGER. Although all infants were monitored in the maternity ward nursery, 184 (85.2%) infants with RIAC and 111 (43.7%) infants with feeding hypoxemia were overlooked. All infants with NRIS were found to have successfully recovered at one month after birth. Sixty-two cases were examined in the follow-up study by the mailed questionnaire. The median age of the subjects at time of study was 22 months. Fourteen cases (22.6%) exhibited developmental problems including delayed speech development, stereotyped interests and behaviors, sensory disturbance, hyperactivity, delayed motor development, and short stature. Developmental problems tended to relate to shorter gestational age (odds ratio, 0.622; p = .068; 95% CI, 0.373-1.036), smaller birth weight (odds ratio, 0.998; p = .069; 95% CI, 0.997-1.000), and maximum duration of SpO₂ to less than 70% by RIAC (odds ratio, 1.009; p = .086; 95% CI, 0.999-1.020). All cases had experienced severe hypoxemia accompanied by a decrease in SpO₂ to less than 60%. Seven cases had experienced prolonged hypoxemia accompanied by a decrease in SpO₂ to less than 70% for at least 2 min. Among the subjects, 19 infants were examined closely, and their natural course of NRIS was observed in the neonatal intensive care unit. No cases demonstrated abnormal findings with blood examinations, chest-abdominal X-ray, echocardiogram, laryngoendoscopy, hearing loss screening, or mass screening. Only one case had a small intracranial hemorrhage as evidenced in a magnetic resonance imaging of the head.Conclusions: The infants with severe NRIS tended to have developmental problems. Spreading knowledge about NRIS worldwide is thought to be very important.