Early childhood neurodevelopmental outcome after open prenatal spina bifida aperta repair

Neurodevelopmental Outcomes after Fetoscopic Myelomeningocele Repair

OBJECTIVES

To report the neurodevelopmental outcomes after a fetoscopic myelomeningocele repair and to compare them with children who had an open hysterotomy repair or a postnatal repair.

STUDY DESIGN

We included 132 infants (prenatal repair, 93 [69 fetoscopic and 24 open hysterotomy]; postnatal repair, 39). Neurodevelopmental outcomes at or beyond 18 months were evaluated by a developmental pediatrician using the Capute scales (Clinical Adaptive Test [CAT]/Clinical Linguistic & Auditory Milestone Scale [CLAMS]) and/or during parental interview using Developmental Profile 3 test. Scores were examined against reference values at each gestational age. A normal score was defined as ≥70%. Neurodevelopmental scores were compared while adjusting for infants' age at the time of testing and the need for hydrocephalus treatment.

RESULTS

After a fetoscopic repair, normal CLAMS results were observed in 25 of 33 cases (75.8%) and normal CAT in 23 of 33 (69.7%); the Developmental Profile 3 showed normal social-emotional scores in 60 of 65 (92.3%), normal cognition in 55 of 65 (84.6%), normal communication in 51 of 65 (78.5%), normal adaptive behavior in 48 of 65 (73.8%), normal general development in 39 of 65(60%), and normal physical score in 31 of 65 (47.7%) of the cases. Children who underwent a fetoscopic repair had similar neurodevelopmental outcomes compared with those who had an open fetal surgery repair. There was a significantly higher proportion of children with a normal CLAMS (25/33 [75.8%] vs 12/39 [30.8%], P < .01) and normal CAT (23/33 [69.7%] vs 16/39 [41.0%], P = .04) in the fetoscopic group compared with the postnatal repair group.

CONCLUSIONS

Children who undergo laparotomy-assisted fetoscopic myelomeningocele repair present with normal neurodevelopmental outcomes in two-thirds of the cases included in this study at ≥ 18 months of age and had similar neurodevelopmental outcomes as those who had an open fetal surgery repair.

Griffiths Scales of Child Development 3rd Edition: normalization for the Brazilian population

Introduction

Child development must be carefully evaluated, requiring assessment instruments to assess different areas of development. Griffiths Scales of Child Development 3rd Edition (Griffiths III) is used to assess different areas of development in children. This study normalized Griffiths III for the Brazilian population from 0 to 72 months.

Methods

445 typically developing children from 0 to 72 months, divided into eight groups (from 0 to 6 months; 7 to 12 months; 13 to 18 months; 19 to 24 months; 25 to 36 months; 37 to 48 months; 49 to 60 months; 61 to 72 months) participated. Their tutors answered the anamnesis protocol. Denver II Developmental Screening Test and Griffiths III were applied. Statistical analysis was performed using the Mann-Whitney Test and Spearman's rank correlation coefficient. Normalization followed the criteria of the original scale.

Results

There was a direct and statistically significant correlation between maternal schooling and socioeconomic status; a direct correlation in the performance between the subscales. The normalization table of Griffiths III with the developmental age of children from 0 to 72 months was elaborated through linear progression, calculated using a specific formula.

Discussion

The data collected for the Brazilian population from 0 to 72 months were normalized, following the guidelines and norms of the original Griffiths III.

The Intrauterine Treatment of Open Spinal Dysraphism

BACKGROUND

Open spinal dysraphism is a congenital malformation that causes major morbidity. Its consequences include sensory and motor impairment as well as bladder- and bowel dysfunction. It is often also associated with prenatal ventriculomegaly, which, in turn, necessitates postnatal treatment with a ventriculoperitoneal shunt in approximately 80% of cases. Prenatal therapy with coverage of neural tube defect can reduce the shunt rate and preserve motor function. In this review, we describe the different surgical procedures and their outcomes.

METHODS

This review is based on publications that were retrieved by a selective literature search in the MEDLINE, Web of Science, EMBASE, Scopus, and Cochrane databases, employing pertinent keywords. Studies of all types (except case reports) that were published in English or German in the period 2010-2024 were included.

RESULTS

The randomized, controlled MOMS trial showed that intrauterine surgery for defect closure resulted in less progressive neural tissue damage than postnatal surgery and reduced the need for shunting by approximately half (40% vs. 82%). Since the publication of these results, various prenatal surgical procedures have been established, including hysterotomy-assisted, percutaneous fetoscopic, and laparotomy-assisted fetoscopic closure. The individual surgical methods yield comparable results in terms of motor function and shunt rate. A problem with these procedures is that they increase the likelihood of preterm birth, to an extent that varies from one type of procedure to another.

CONCLUSION

Prenatal surgery improves motor function and reduces the shunt rate but long-term outcomes beyond adolescence are still lacking. Transparent and interdisciplinary counseling is essential in prenatal communication to inform parents not only about the potential benefits of this treatment, but also about its limitations and risks.

Altered Connectome Topology in Newborns at Risk for Cognitive Developmental Delay: A Cross-Etiologic Study

The human brain connectome is characterized by the duality of highly modular structure and efficient integration, supporting information processing. Newborns with congenital heart disease (CHD), prematurity, or spina bifida aperta (SBA) constitute a population at risk for altered brain development and developmental delay (DD). We hypothesize that, independent of etiology, alterations of connectomic organization reflect neural circuitry impairments in cognitive DD. Our study aim is to address this knowledge gap by using a multi-etiologic neonatal dataset to reveal potential commonalities and distinctions in the structural brain connectome and their associations with DD. We used diffusion tensor imaging of 187 newborns (42 controls, 51 with CHD, 51 with prematurity, and 43 with SBA). Structural weighted connectomes were constructed using constrained spherical deconvolution-based probabilistic tractography and the Edinburgh Neonatal Atlas. Assessment of brain network topology encompassed the analysis of global graph features, network-based statistics, and low-dimensional representation of global and local graph features. The Cognitive Composite Score of the Bayley scales of Infant and Toddler Development 3rd edition was used as outcome measure at corrected 2 years for the preterm born individuals and SBA patients, and at 1 year for the healthy controls and CHD. We detected differences in the connectomic structure of newborns across the four groups after visualizing the connectomes in a two-dimensional space defined by network integration and segregation. Further, analysis of covariance analyses revealed differences in global efficiency (p < 0.0001), modularity (p < 0.0001), mean rich club coefficient (p = 0.017), and small-worldness (p = 0.016) between groups after adjustment for postmenstrual age at scan and gestational age at birth. Moreover, small-worldness was significantly associated with poorer cognitive outcome, specifically in the CHD cohort (r = -0.41, p = 0.005). Our cross-etiologic study identified divergent structural brain connectome profiles linked to deviations from optimal network integration and segregation in newborns at risk for DD. Small-worldness emerges as a key feature, associating with early cognitive outcomes, especially within the CHD cohort, emphasizing small-worldness' crucial role in shaping neurodevelopmental trajectories. Neonatal connectomic alterations associated with DD may serve as a marker identifying newborns at-risk for DD and provide early therapeutic interventions. Trial Registration: ClinicalTrials.gov identifier: NCT00313946.

Influencing Factors on Independent Walking in Children With Lumbosacral Lipomas: A Retrospective Cohort Study Based on a 5-Year Untethering Series

Background

Caregivers are deeply concerned about children achieving independent walking, and evidence-based rehabilitation support is beneficial. However, current research is confined to a single study on spina bifida aperta, leaving a gap in understanding the timing of independent walking for lumbosacral lipomas.

Objectives

This study aimed to examine the factors influencing independent walking in children with lumbosacral lipomas.

Design

Retrospective cohort study.

Methods

This retrospective cohort study included 124 children who underwent untethering surgery for lumbosacral lipomas. The age (in months) at which the children walked independently was used as the primary endpoint, and potential influencing factors, including the type of spinal lipoma, extent of lipoma removal, magnetic resonance imaging features, congenital anomaly complications, urinary/defecation management requirements, foot/toe symptoms, and orthotic device fabrications were analyzed.

Results

Multiple logistic regression analysis showed that the most significant influencing factor for delayed independent walking was the presence of systemic combined anomalies (adjusted odds ratio = 15.5, P < .001), while non-systemic malformations, such as suburethral cleft, had limited effects. A subgroup analysis of 94 patients without systemic combined anomalies showed that the presence of a malformed conus medullaris was significantly associated with delayed independent walking (P = .014). The median age of independent walking in children with Morota's classification type 2 was 14 months, which is 1 month later compared to other types, although this difference was not significant (P = .055).

Conclusion

Our findings suggest that complications arising from systemic combined anomalies and the presence of malformed conus medullaris are influencing factors in delays in independent walking in children with untethered lumbosacral lipomas.

Fetal surgery for open neural tube defect with severe ventriculomegaly

OBJECTIVE

Prenatal open neural tube defect (ONTD) repair is performed to decrease the risk of needing treatment for hydrocephalus after birth and to preserve motor function. Some centers may not consider patients to be candidates for surgery if severe ventriculomegaly is present and there is no expected benefit in risk for hydrocephalus treatment. This study sought to compare the postnatal outcome of fetuses with ONTD and severe ventriculomegaly (ventricular width ≥ 15 mm) that underwent prenatal repair with the outcome of fetuses with severe ventriculomegaly that underwent postnatal repair and fetuses without severe ventriculomegaly (< 15 mm) that underwent prenatal repair.

METHODS

This was a retrospective study of fetuses with ONTD that underwent prenatal or postnatal repair between 2012 and 2021 at a single institution. The cohort was divided into two groups based on preoperative fetal ventricular size: those with severe ventriculomegaly (ventricular width ≥ 15 mm) and those without severe ventriculomegaly (< 15 mm). Fetal ventricular size was measured by magnetic resonance imaging before surgery using the standardized approach and the mean size of the left and right ventricles was used for analysis. Motor function of the lower extremities was assessed at the time of referral by ultrasound and if flexion-extension movements of the ankle were seen it was considered as preserved S1 motor function. Postnatal outcomes, including motor function of the lower extremities at birth and the need for a diversion procedure for hydrocephalus treatment during the first year after birth, were collected and compared between groups. Multivariate regression analysis was used to adjust for potential confounders.

RESULTS

In this study, 154 patients were included: 145 underwent fetal surgery (101 fetoscopic and 44 open hysterotomy) and nine with severe ventriculomegaly underwent postnatal repair. Among the 145 patients who underwent fetal surgery, 22 presented with severe ventriculomegaly. Fetuses with severe ventriculomegaly at referral that underwent prenatal repair were significantly more likely to need hydrocephalus treatment by 12 months after birth than those without severe ventriculomegaly (61.9% vs 28.9%, P < 0.01). However, motor function assessment at birth was similar between both prenatal repair groups (odds ratio, 0.92 (95% CI, 0.33-2.59), P = 0.88), adjusted for the anatomical level of the lesion. The prenatal repair group with severe ventriculomegaly had better preserved motor function at birth compared to the postnatal repair group with severe ventriculomegaly (median level, S1 vs L3, P < 0.01; proportion with S1 motor function, 68.2% vs 11.1%, P < 0.01). Fetuses with severe ventriculomegaly that underwent prenatal repair had an 18.9 (95% CI, 1.2-290.1)-times higher chance of having intact motor function at birth, adjusted for ethnicity, presence of club foot at referral and gestational age at delivery, compared with the postnatal repair group. There was no significant difference in the need for hydrocephalus treatment in the first year after birth between prenatal and postnatal repair groups with severe ventriculomegaly (61.9% vs 87.5%, P = 0.18).

CONCLUSIONS

Although fetuses with ONTD and severe ventriculomegaly do not seem to benefit from fetal surgery in terms of postnatal hydrocephalus treatment, there is an increased chance of preserved motor function at birth. Results from this study highlight the benefit of prenatal ONTD repair for cases with severe ventriculomegaly at referral to preserve motor function. © 2024 International Society of Ultrasound in Obstetrics and Gynecology.

Impact on postoperative, neonatal and 2-year neurodevelopmental outcomes of UA-AREDF during and after fetal spina bifida repair

OBJECTIVE

Absent or reversed end-diastolic flow (AREDF) in the umbilical artery (UA) on Doppler is a known phenomenon during fetal interventions, such as fetal open spina bifida (OSB) repair. We aimed to evaluate the clinical importance of these Doppler findings by investigating the impact of UA-AREDF on postoperative, neonatal and 2-year neurodevelopmental outcomes.

METHODS

This was a prospective study of pregnancies undergoing fetal OSB repair at the Zurich Center for Fetal Diagnosis and Therapy between 2010 and 2019. The group with UA-AREDF during or immediately after the intervention was compared to the group with normal UA Doppler. Primary endpoint was the FIGO scores of cardiotocography (CTG) 1, 2 and 6 h postoperatively and on day 1 after surgery. Secondary endpoints were the neonatal parameters and 2-year neurodevelopmental outcome assessed using the Bayley Scales of Infant and Toddler Development, Third Edition.

RESULTS

Data of 130 patients were analyzed. None of the fetuses had UA-AREDF before OSB repair. Normal UA Doppler was observed in 107 (82%) patients and UA-AREDF was observed in 23 (18%) during or immediately after OSB surgery. UA-AREDF was more often observed after version of the fetus (P = 0.045). Seventeen (13%) cases had absent end-diastolic flow (UA-AEDF) and six (5%) cases had reversed end-diastolic flow (UA-REDF). UA-AREDF disappeared in all 23 cases within the first day after OSB surgery. One-third of all CTGs were restricted in oscillation after surgery, but no significant difference in CTG 1, 2 and 6 h postoperatively or on the first postoperative day was found between the UA-AREDF and normal-Doppler groups (P > 0.05). Gestational age at delivery, UA pH, 5-min Apgar score and birth weight were comparable between the two groups, and there was no difference in the 2-year neurodevelopmental outcome (P > 0.05). The neonatal and 2-year neurodevelopmental outcomes also did not differ significantly between the UA-REDF and UA-AEDF groups.

CONCLUSIONS

Postoperative CTG abnormalities occur and recover at a similar rate in fetuses with transitory UA-AREDF and those with normal Doppler during fetal OSB repair. UA-AREDF during fetal OSB repair did not negatively influence postnatal or 2-year neurodevelopmental outcomes. © 2022 International Society of Ultrasound in Obstetrics and Gynecology.

Expert ultrasonographic evaluation in fetuses with spina bifida: An essential prerequisite to select candidate to fetal surgery

Suggested management flowchart in presence of a prenatal diagnosis of open spina bifida.

Neurodevelopmental Implications on Urological Self-management Among People Living With Spina Bifida: A Practical Guide for Urology Providers

Although folic acid fortification and advances in prenatal repair have reduced Spina Bifida (SB) prevalence and the severity of comorbidities, individuals with SB remain at elevated risk for neurocognitive impairments that studies have shown can negatively impact, among other things, urological self-care. Identifying and addressing these impairments with practical interventions can meaningfully improve long-term outcomes for individuals with SB. We review neurocognitive impairments associated with SB and provide practical solutions to support improvement of long-term urological outcomes.