Evaluation of hard palate and cleft morphology in neonates with Pierre Robin Sequence and Cleft Palate Only

OBJECTIVES

This study aimed to establish a fully digital measurement protocol for standardizing the description of hard palate and cleft morphology in neonates with an isolated cleft palate (CPO) and Pierre Robin sequence (PRS).

MATERIALS AND METHODS

A total of 20 digitized plaster models of neonates with CPO and 20 digitized plaster models of neonates with PRS were retrospectively investigated. For the control group, the hard palate was segmented from 21 pre-existing 1.5 T MRI datasets of neonates and exported as an STL file. The digital models were marked with predefined reference points by three raters. Distance, angular, and area measurements were performed using Blender and MeshLab.

RESULTS

Neonates with CPO (20.20 ± 2.33 mm) and PRS (21.41 ± 1.81 mm) had a significantly shorter hard palate than the control group (23.44 ± 2.24 mm) (CPO vs. control: P < .001; PRS vs. control: P = .014). Notably, neonates with PRS (33.05 ± 1.95 mm) demonstrated a significantly wider intertuberosity distance than those with CPO (30.52 ± 2.28 mm) (P = .012). Furthermore, there were also significant differences measured between the cleft and control groups (25.22 ± 2.50 mm) (P < .001).

CONCLUSIONS

The data from this study demonstrate the feasibility of using MRI datasets to generate digital models of the hard palate. The presence of a cleft palate leads to pronounced adaptations of the total palatal surface area, dorsal width, and length of the hard palate. Mandibular retrognathia and altered tongue position in PRS, as opposed to CPO, might further impact palatal morphology and intertuberosity distance.

Quantitative assessment of cleft volume and evaluation of cleft's impact on adjacent anatomical structures using CBCT imaging

OBJECTIVES

To determine pre-operative cleft volume and evaluate cleft´s impact on surrounding anatomical structures in children and adolescents with orofacial clefts using cone bean computed tomography (CBCT) imaging.

METHODS

The present retrospective study retrieved CBCT examinations of 68 patients from a previous study. The examinations had been exposed either before (n = 53) or after (n = 15) alveolar bone grafting. Pre-operative volume of cleft was determined, and type and location were evaluated. Morphological changes on the adjacent anatomical structures, including the incisive foramen, the nasal septum and floor, and the inferior turbinate, were assessed.

RESULTS

Mean bilateral cleft volume was 0.76 cm3, while mean unilateral cleft volume was 1.08 cm3; the difference was significant (p < 0.001). Variation in cleft volume, however, was large. The incisive foramen was not visible in the majority of cases with bilateral clefts (71%); the difference was significant (p = 0.001). In cases with unilateral clefts, the nasal septum in 87% was curved towards the cleft or graft side. Also, the mean size of the widest part of the inferior turbinate was 8.8 mm on the cleft or graft side and 10.4 mm on the non-cleft side. The difference was significant (p < 0.001).

CONCLUSIONS

When required, CBCT is a feasible method for quantitatively illustrating alveolar clefts and their impact on the morphological development of surrounding structures. Variation in cleft volume was large.

Prenatal diagnosis of cleft lip and/or palate: What do we tell prospective parents?

Cleft lip and/or palate (CL/CP) is the most common congenital craniofacial anomaly and parents often ask, "how did this happen?" Patients and families may benefit from access to a multidisciplinary team (MDT) from prenatal diagnosis into early adulthood. Multiple factors can contribute to the development of a cleft. We discuss the epidemiology and risk factors that increase the likelihood of having a newborn with a cleft. The purpose of this article is to review the prenatal investigations involved in the diagnosis and workup of these patients in addition to postpartum treatment, prognostic factors, and counseling families regarding future recurrence risk.

Prenatal Consultation Outcomes for Infants With Cleft Lip With and Without Cleft Palate

To assess the clinical impacts of prenatal consultation with a multidisciplinary cleft team on infants with cleft lip with or without cleft palate (CL ± P).

Retrospective cases series.

Tertiary pediatric hospital.

Infants with CL ± P whose mothers received prenatal consultation with a pediatric otolaryngology team from June 2005 to December 2019 were identified. A random sample of infants with CL ± P without prenatal consultation from June 2005 to December 2019 was also identified.

The primary outcomes were the length of hospitalization during the first 12 weeks of life, timing of surgical repair, length of postsurgical hospitalization, and number of unplanned clinic visits and phone calls for feeding evaluation.

Time to cleft lip repair differed significantly between the 2 groups with repair performed at 13.4 (±0.9) weeks for the prenatal consultation group (n = 73) and 15.3 (±2.1) weeks for the control group (n = 80), (P < .05). If hospitalization was required for feeding difficulties during the first 12 weeks of life, length of stay was 4.9 (± 1.7) days for infants with prenatal consultation and 11.5 (± 7.2) days for control infants (P < .05). Unplanned clinic visits with a speech-language pathologist (SLP) for feeding difficulties were needed for 2.7% of prenatal consultation infants and 11.3% of control infants (P < .05).

Prenatal consultation regarding CL ± P resulted in infants with decreased duration of early hospitalizations, earlier cleft lip repair, and decreased engagement with the SLP feeding clinic for feeding difficulties when compared with infants without prenatal consultation.

Understanding the distinction between cleft lip and cleft palate: a critical step for successful prenatal detection

PURPOSE OF REVIEW

Orofacial clefts (OCs) are among the most common congenital anomalies, however, prenatal detection of cleft palate without cleft lip (CP) remains low. CP is associated with a higher risk of associated structural anomalies, recurrence risk and genetic aberrations. There is opportunity to optimize prenatal diagnosis, counseling and diagnostic genetic testing for OCs.

RECENT FINDINGS

Improving prenatal diagnosis of CP requires understanding that embryologically, the secondary palate develops from the 6th to the 10th week and fuses with the primary palate by the 12th week. Multiple first, second and third trimester 2D ultrasonographic markers for OCs have been described including the maxillary gap, frontal space, maxilla-nasion-mandible angle, retronasal triangle, palatino-maxillary diameter, equal sign, nonvisualization or gap in the soft to hard palate interface and loss of the superimposed line. We discuss the technique, evidence and limitations of each.

SUMMARY

Prenatal detection of OC can be optimized by employing 2D sonographic markers. Prenatal detection of CP may be improved by recognizing its high association with retrognathia/micrognathia.

The prevalence and risk factors for congenital hearing loss in neonates: A birth cohort study based on CHALLENGE study

OBJECTIVES

To determine the prevalence and risk factors of congenital hearing loss (HL) in neonates based on China Longitudinal Environmental, Genetic, and Economic Cohort (CHALLENGE cohort).

METHODS

Maternal and neonatal data were collected based on the CHALLENGE cohort study from July 2018 to September 2020. Total 7287 neonates underwent the universal newborn hearing screening (UNHS). Babies who did not pass the initial screening and the rescreening were given the formal audiological diagnosis for possible HL. The data was analyzed to find out the prevalence and risk factors for congenital HL in this cohort study.

RESULTS

The prevalence of congenital HL was 3.43‰, and temporary HL was 0.07‰ (5 neonates). The statistical data showed that risk factors, including craniofacial anomalies, neonatal intensive care unit (NICU) admission, family history and advanced maternal age (AMA), could be associated with congenital HL. Additionally, exchange transfusion, assisted ventilation and NICU admission, these three factors could be associated with congenital sensorineural HL (SNHL). Risk factors including craniofacial anomalies, NICU admission, family history and AMA might be contributed to congenital conductive HL(CHL).

CONCLUSION

There were several common risk factors could be contributed to congenital HL, which were consistent with previous studies. However, some risk factors were no longer causing congenital HL due to the improvement of medical treatment and prenatal care. This study has not only helped explain the status quo of the prevalence of congenital HL in China but also laid foundation for future studies.

Imaging of Congenital Craniofacial Anomalies and Syndromes

Craniofacial malformation is one of the most commonly encountered birth defects in the prenatal and postnatal periods. Higher-resolution and 3D antenatal ultrasonography and multidetector computed tomographic scan with 3D reformatted images have improved the definition of the soft tissue and bone structures of the craniofacial anatomy and its malformations. Early diagnosis of these conditions is important to make the clinical decisions and more so in understanding the possibility of malformation recurring in the next pregnancy, which is one of the major concerns for the parents and the treating physicians.

Ultrasound Diagnosis of Prenatal Cleft Lip: How Does Its Accuracy Affect the Family?

ABSTRACT

Factors impacting the accuracy of ultrasound (US) diagnosis of cleft lip (CL) and its subsequent effect on parents are not well understood. Our objectives were to evaluate how the type of CL (complete versus incomplete) and associated cleft palate affect the accuracy of CL's prenatal diagnosis and to evaluate differences between parents' perception of prenatal US in cases of true-positive versus false-negative results. The authors performed a retrospective review of all patients who underwent repair for nonsyndromic CL following prenatal US. Patients were stratified by type of CL and associated cleft palate. Parents were called to determine if their child's CL was diagnosed via US and their perception of the results. Forty-seven children with complete and 40 with incomplete CL responded to phone calls. The presence of a complete CL (P = 0.001) and an associated cleft palate (P = 0.014) were independently associated with an increased likelihood of prenatal diagnosis. Parents who received a true-positive prenatal diagnosis of CL were more satisfied than those who received a false-negative diagnosis (P = 0.0063). True-positives perceived knowing of their child's diagnosis in advance to be more helpful than false-negatives believed it would have been. These results afford an improved context to interpret US studies and help physicians provide more informed prenatal counseling.

Contribution of computed tomography and magnetic resonance imaging in the analysis of fetal craniofacial malformations

A wide range of craniofacial malformations can be diagnosed in utero using ultrasonography. However, even with highly experienced sonographers and diagnostic physicians and optimal conditions of examination, some anatomical structures cannot be properly analyzed by this technique. The aim of this pictorial essay is to show the additional value of fetal magnetic resonance imaging and computed tomography in this setting and to illustrate the role of these modalities in facial clefts; craniosynostosis; ear, eye and nose abnormalities; otomandibular dysplasias; and facial cephaloceles.

The application of three-dimensional ultrasound with reformatting technique in the diagnosis of fetal cleft lip/palate

OBJECTIVE

To evaluate the clinical value of three-dimensional ultrasound (3D-US) with reformatting technique in the diagnosis of fetal cleft lip/palate (CL/P), especially those involving the secondary palate.

METHODS

A total of 113 fetuses suspected with cleft lip (CL) on two-dimensional ultrasound (2D-US) were further evaluated by 2D-US and 3D-US with reformatting technique, in order to clarify the type of oral cleft. Lesions were classified as cleft lip (CL), cleft lip and alveolus (CLA), and cleft lip and palate (CLP) (including primary and secondary palate). All fetuses were followed until birth or termination of pregnancy. The diagnostic accuracies of 2D-US and 3D-US with reformatting technology were compared.

RESULTS

Both 2D-US and 3D-US with reformatting successfully detected CLs in the final 103 participants. Among these, 29, 25, and 49 cases were confirmed to have CL, CLA, and CLP, respectively. CL, CLA, and CLP were diagnosed by 2D-US in 34, 66, and 3 cases, respectively, and by 3D-US with reformatting technology in 31, 27, and 45 cases, respectively. The sensitivities of 2D-US and 3D-US with reformatting technology in the diagnosis of CLA were 80% (20/25) and 92.0% (23/25), respectively, and the difference was not statistically significant. For CLP, however, the sensitivities were 6.1% (3/49) and 91.8% (45/49), respectively (P < .001).

CONCLUSIONS

Both 2D-US and 3D-US with reformatting technique have high diagnostic accuracy for CL and CLA. However, 3D-US has a much higher diagnostic accuracy for CLP.

What is the Impact of Prenatal Counseling on Postnatal Cleft Treatment? Multidisciplinary Pathway for Prenatal Orofacial Cleft Care

ABSTRACT

In the pediatric general surgery literature, it has been shown that prenatal diagnosis of a congenital anomaly is an independent predictor of parental psychological distress. Surgical prenatal counseling can decrease parental anxiety by helping families understand the surgical needs and potential outcomes of their infant. In this retrospective analysis (n = 440), the authors sought to present our care pathway for prenatally diagnosed cleft lip and palate (CL/P) and explore the impact of cleft lip and palate-specific prenatal counseling on patient care by comparing the timing of clinical and surgical care between a cohort of patients who received prenatal CL/P consultation and a cohort of patients only seen postnatally. The authors hypothesize that our multidisciplinary prenatal care intervention is associated with earlier postnatal clinic visits and surgical repair. The care of all patients whose mother's presented for prenatal CL/P consultation (prenatal cohort, n = 118) was compared to all new CL/P patients without prenatal consultation at our institution (postnatal cohort, n = 322) from January 2015 through August 2019. 81.4% (n = 96) of the prenatal cohort returned for care postnatally while 2 pregnancies were interrupted, four neonates died, and 15 patients did not return for care. Prenatal consultation was associated with earlier postnatal clinic appointments (P < 0.001) as well as a shorter time to CL repair in patients with CL only (P = 0.002) and CLP (P = 0.047). Our described pre- and postnatal CL/P pathway is a multidisciplinary model associated with high retention rates from the prenatal period through complete surgical repair.

Undetected anomalies in foetuses with a prenatal diagnosis of isolated cleft

The aim of this study was to determine the rate of undetected additional anomalies following a prenatal diagnosis of isolated oral cleft. Data of all infants with a prenatal diagnosis of isolated oral cleft born between 2000 and 2015 were studied retrospectively. Additional anomalies detected after birth were categorized as minor or major and included structural and chromosomal anomalies. Isolated clefts of the lip (CL), lip and alveolus (CLA) and lip, alveolus, and palate (CLAP) were diagnosed prenatally in 176 live-born infants. The type of cleft was more extensive after birth in 34/176 (19.3%) and less extensive in 16/176 (9.1%) newborns. Additional anomalies were diagnosed in 24 infants (13.6%), of which 12 (6.8%) were categorized as major. The latter included two submicroscopic chromosome anomalies and two gene mutations. Postnatal additional anomalies occurred more frequently in CLA and CLAP than in CL, and more in bilateral than in unilateral clefts. Major anomalies are still found in infants with a prenatal diagnosis of an isolated oral cleft. The prevalence of additional anomalies seems to be related to the type and bilaterality of the cleft, and this should be considered during prenatal counselling.

Pregnancy Termination in the Case of an Orofacial Cleft: An Investigation of the Concept of Reproductive Autonomy

OBJECTIVE

To describe ethical approaches to the issue of pregnancy termination after prenatal detection of cleft lip ± palate.

RESULTS

Gynecologists and cleft surgeons are sometimes confronted with the demand for a pregnancy termination after ultrasound detection of an isolated cleft lip/cleft palate. In this article, we discuss different ethical theories and principles that can be applied to the dilemma at hand. We formulate recommendations that will respect the right to autonomy of the pregnant woman and at the same time acknowledge that a termination of pregnancy for a cleft lip may in most cases not be the best option.

CONCLUSION

The recognition of each person's right to reproductive autonomy also entails that clinicians should make sure that prospective parents are provided with up-to-date and relevant clinical information.

MR Imaging of the Fetal Face: Comprehensive Review

The human face is a complex anatomic structure with an equally complex embryologic development. Derangement of the developmental process can result in various structural anomalies, which range from a mainly cosmetic deformity, such as cleft lip, to potentially life-threatening conditions such as arhinia. These anomalies (a) can occur as isolated anomalies; (b) can be associated with intracranial, spinal, or dental anomalies; or (c) can be a part of various syndromes, thus serving as diagnostic clues in such cases. Proper evaluation of fetal facial deformities can help in prognostication, family counseling, and prenatal or early postnatal intervention. Ultrasonography (US) is the first line of investigation in these cases. However, when US does not allow complete evaluation of these anomalies owing to its inherent limitations, magnetic resonance (MR) imaging allows comprehensive evaluation of the anomaly itself and also evaluation of various associations and the treatment approach. The embryology of the fetal facial structures is considered with regard to the MR imaging technique and the MR imaging anatomy. The MR imaging features of various structural anomalies are described and classified into six groups, namely, orofacial clefts, orbital anomalies, nasal anomalies, facial masses, external ear anomalies, and abnormal face shape or profile. Also, the key associations and relevant treatment implications are reviewed. The article provides a "one-stop shop" review of these unique disorders-from basic understanding of the embryology to applying the knowledge in clinical practice, helping the interprofessional team and the patients alike. ^©RSNA, 2018.