Apert syndrome: magnetic resonance imaging (MRI) of associated intracranial anomalies

Craniosynostosis: Epidemiology and Pattern at a Tertiary Referral Institute in Oman 2004 to 2023

OBJECTIVE

To date, there are no published studies From the Sultanate of Oman on the incidence or characteristics of craniosynostosis (CS). This is a population-based epidemiological study of the incidence of CS.

METHODS

The prospective registry of the craniofacial surgery unit in Khoula Hospital was used to retrieve data on all individuals with CS treated between 2004 and 2023. The cohort was divided into four 5-year groups based on year of birth: 2004 to 2008, 2009 to 2013, 2014 to 2018, and 2019 to 2023.

RESULTS

We identified 312 individuals with CS. The incidence increased significantly during the study period and was 2.5 per 10 000 live births in the last 5-year period. There was a male preponderance (male/female ratio 1.5:1). Our study findings reveal a notable diversity in the trend of suture involvement, we observed a higher frequency of complex CS within our study population 35.9%. Half of the study population was nonsyndromic, accounting for 51.6%. The nonsyndromic population exhibits a higher proportion of midline suture involvement.

CONCLUSIONS

The incidence of CS increased during the study period. The majority of cases were identified as nonsyndromic. We found that multiple sutures CS were the most prevalent overall in our population. It is imperative to intensify efforts aimed at raising awareness among the general population regarding these deformities.

Apert syndrome in a newborn with premature fusion of skull bones, a rostral nose, and cleft palate: A case report

This case details a term neonate with Apert syndrome, featuring webbed digits, FGFR2 mutations, skull bone fusion, a rostral nose, and cleft palate. The neonate displayed acrocephaly, a flat skull back, a prominent forehead, and syndactyly, confirming Apert syndrome. It emphasizes the need for early recognition and intervention.

The interaction between the nervous system and the stomatognathic system: from development to diseases

The crosstalk between the nerve and stomatognathic systems plays a more important role in organismal health than previously appreciated with the presence of emerging concept of the "brain-oral axis". A deeper understanding of the intricate interaction between the nervous system and the stomatognathic system is warranted, considering their significant developmental homology and anatomical proximity, and the more complex innervation of the jawbone compared to other skeletons. In this review, we provide an in-depth look at studies concerning neurodevelopment, craniofacial development, and congenital anomalies that occur when the two systems develop abnormally. It summarizes the cross-regulation between nerves and jawbones and the effects of various states of the jawbone on intrabony nerve distribution. Diseases closely related to both the nervous system and the stomatognathic system are divided into craniofacial diseases caused by neurological illnesses, and neurological diseases caused by an aberrant stomatognathic system. The two-way relationships between common diseases, such as periodontitis and neurodegenerative disorders, and depression and oral diseases were also discussed. This review provides valuable insights into novel strategies for neuro-skeletal tissue engineering and early prevention and treatment of orofacial and neurological diseases.

Common Neuroimaging Findings in Bosch-Boonstra-Schaaf Optic Atrophy Syndrome

Bosch-Boonstra-Schaaf optic atrophy syndrome (BBSOAS) is a rare autosomal dominant syndrome secondary to mutations in NR2F1 (COUP-TF1), characterized by visual impairment secondary to optic nerve hypoplasia and/or atrophy, developmental and cognitive delay, and seizures. This study reports common neuroimaging findings in a cohort of 21 individuals with BBSOAS that collectively suggest the diagnosis. These include mesial temporal dysgyria, perisylvian dysgyria, posterior predominant white matter volume loss, callosal abnormalities, lacrimal gland abnormalities, and optic nerve volume loss.

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.

Imaging of Pfeiffer Syndrome: A Case Report

BACKGROUND: Pfeiffer syndrome (PS) is a rare case in the Asian population, and only a few have been reported in Indonesia. This case report aims to spotlight the identification of PS with its correlated radiological imaging and distinguish it from other syndromes. CASE REPORTS: The authors report a case of a 5-year-old girl with PS, manifested by brachyturricephally, broad thumbs and big toes, and medially deviated big toes. The patient also had proptosis, midface hypoplasia, and bilateral Syndactyly of the fingers and toes. This report confirms the thorough examination procedures and indexes to identify PS as a literature reference for the research of reported PS in Southeast Asian race patients and as one comprehensive source for identification using index figures. CONCLUSION: This report provides a detailed radiology interpretation of PS on Southeast Asian race patients. Radiological findings can help in diagnosing and determining adequate treatment as needed.

Visualization of the Cartilage and Bone Elements in the Craniofacial Structures by Alcian Blue and Alizarin Red Staining

Craniofacial morphogenesis is underpinned by orchestrated growth and form-shaping activity of skeletal and soft tissues in the head and face. Disruptions during development can lead to dysmorphology of the skull, jaw, and the pharyngeal structures. Developmental disorders can be investigated in animal models to elucidate the molecular and cellular consequences of the morphogenetic defects. A first step in determining the disruption in the development of the head and face is to analyze the phenotypic features of the skeletal tissues. Examination of the anatomy of bones and cartilage over time and space will identify structural defects of head structures and guide follow-up analysis of the molecular and cellular attributes associated with the defects. Here we describe a protocol to simultaneously visualize the cartilage and bone elements by Alcian blue and Alizarin red staining, respectively, of wholemount specimens in mouse models.

Multisuture and syndromic craniosynostoses: Simplifying the complex

Most complex craniosynostoses are managed the same way as syndromic craniosynostoses (SCs), as these patients often experience similar problems regarding cognition and increased intracranial pressure (ICP). The evaluation and treatment plan for craniosynostoses is complex, and this, additionally, is complicated by the age at presentation. In this article, the authors review the complexity of SCs in the presentation and management. An algorithm is necessary for such multifaceted and multidimensional pathology as craniosynostoses. In most algorithms, posterior calvarial distraction is a consistent early option for complex craniosynostoses presenting early with raised ICP. Addressing the airway early is critical when significant airway issues are there. All other surgical interventions are tailored on the basis of presentation and age.

Clinical application of "black bone" imaging in paediatric craniofacial disorders

For decades, CT has been the primary imaging modality for the diagnosis and surveillance of paediatric craniofacial disorders. However, the deleterious effects of ionising radiation in the paediatric population are well established and remain an ongoing concern. This is especially so in the head and neck region, which has relatively poor soft tissue shielding with many radiosensitive organs. The development of "black bone" imaging utilising low flip angles and short echo time (TE) has shown considerable promise in alleviating the use of ionising radiation in many cases of craniofacial disorders. In this review article, we share our experience of utilising "black bone" sequence in children with craniofacial pathologies, ranging from traumatic injuries to craniosynostosis and focal osseous/fibro-osseous lesions such as fibrous dysplasia and Langerhans cell histiocytosis (LCH). A detailed discussion on the technical aspects of "black bone" sequence, including its potential pitfalls and limitations, will also be included.

Apert syndrome: Cranial procedures and brain malformations in a series of patients

Background:

Apert syndrome is one of the most severe craniofacial disorders. This study aims to describe the craniofacial surgeries and central nervous system malformations of a cohort of children with Apert syndrome treated in the past 20 years and to compare these data with previously published data.

Methods:

Retrospective analysis of a series of patients with Apert syndrome treated between 1999 and 2019 in our hospital. Information was analyzed regarding craniofacial procedures, hydrocephalus and presence of shunts, Chiari malformation Type 1, and other brain malformations such as corpus callosum and septum pellucidum anomalies.

Results:

Thirty-seven patients were studied. Ventriculoperitoneal shunt prevalence was 24.3%, and 8.1% of patients required decompressive surgery for Chiari malformation. All of them needed at least one cranial vault remodeling procedure. The median age for this procedure was 8 months. In 69.7% of patients, the first cranial vault intervention was performed in the fronto-orbital region. In 36.4% of patients, a midface advancement had been performed at the time of this review, although this proportion was very dependent on the follow-up period and the age of the patients. The median age for the midface advancement procedure was 5.25 years. Anomalies of the corpus callosum and the septum pellucidum were reported in 43.2% and 59.5% of patients, respectively.

Conclusion:

Apert syndrome is a type of syndromic craniosynostosis, and patients usually require one or more cranial and facial surgeries. In comparison with other syndromic craniosynostosis types, Apert syndrome less frequently requires a VP shunt or treatment for a Chiari malformation.

Neurological deficits are present in syndromic craniosynostosis patients with and without tonsillar herniation

BACKGROUND

Children with syndromic craniosynostosis (sCS) have a higher incidence of cerebellar tonsillar herniation (TH) than the general population. In the general population, TH ≥ 5 mm below the foramen magnum is associated with typical neurological deficits but, in sCS, we do not know whether this degree of TH is required before such deficits occur.

OBJECTIVE

This prospective cohort study aimed to determine the association between findings on neurological assessment and cerebellar tonsillar position.

METHODS

Magnetic resonance imaging (MRI) was used to determine TH ≥ 5 mm and the presence of syringomyelia. In regard to the outcome of neurological deficits, these were categorized according to: A, cerebellar function; B, cranial nerve abnormalities; and C, sensory or motor dysfunction.

RESULTS

Twenty of 63 patients with sCS (32% [95% confidence interval 21-45%]) had TH ≥ 5 mm and/or syringomyelia. There was no significant difference in proportion between individual forms of sCS: 16/34 Crouzon, 2/11 Muenke, 2/12 Apert, and 0/7 Saethre-Chotzen patients. Neurological deficits were prevalent (73% [95% confidence interval 60-83%]), and as frequent in patients with TH ≥ 5 mm and/or syringomyelia as those without. Surgery occurred in 3 patients overall, and only in Crouzon patients.

CONCLUSION

Determining the effect of TH ≥ 5 mm on neurologic functioning in sCS patients is used to better determine when surgical intervention is warranted. However, we have found that neurological deficits are prevalent in sCS patients, irrespective of cerebellar tonsillar position, suggesting that such findings are developmental and, in part, syndrome-specific central nervous system features.

Prenatal genetic considerations in congenital ventriculomegaly and hydrocephalus

BACKGROUND

Fetal ventriculomegaly (VM) is a frequent finding in prenatal ultrasound. Rather than a proper diagnosis, VM is a sonographic sign, making prenatal counseling a complex and challenging undertaking. VM can range from severe pathologic processes leading to severe neurodevelopmental delay to normal variants.

DISCUSSION

A growing number of genetic conditions with different pathophysiological mechanisms, inheritance patterns, and long-term prognosis have been associated both to isolated and complex fetal VM. These include chromosomal abnormalities, copy number variants, and several single gene diseases. In this review, we describe some of the most common genetic conditions associated with fetal VM and provide a simplified diagnostic workflow for the clinician.

Classification of Subtypes of Apert Syndrome, Based on the Type of Vault Suture Synostosis

Supplemental Digital Content is available in the text.

Background:

Apert syndrome patients are different in clinical pathology, including obstructive sleep apnea, cleft palate, and mental deficiency. These functional deficiencies may be due to anatomic deformities, which may be caused by different forms of associated suture fusion. Therefore, a classification system of Apert syndrome based on the type of craniosynostosis pattern might be helpful in determining treatment choices.

Methods:

CT scans of 31 unoperated Apert syndrome and 51 controls were included and subgrouped as: class I. Bilateral coronal synostosis; class II. Pansynostosis; and class III. Perpendicular combination synostosis: a. unilateral coronal and metopic synostosis; b. sagittal with bilateral/unilateral lambdoid synostosis; and c. others.

Results:

Class I is the most common (55%) subtype. The cranial base angulation of class I was normal; however, the cranial base angulation on the cranium side of the skull in class II increased 12.16 degrees (P = 0.006), whereas the facial side cranial base angle of class IIIa decreased 4.31 degrees (P = 0.035) over time. The external cranial base linear measurements of class I showed more evident reduction in anterior craniofacial structures than posterior, whereas other subtypes developed more severe shortening in the posterior aspects.

Conclusions:

Bicoronal synostosis is the most common subtype of Apert syndrome with the normalized cranial base angulation. Combined pansynostosis patients have flatter cranial base, whereas the combined unilateral coronal synostosis have a kyphotic cranial base. Class I has more significant nasopharyngeal airway compromise in a vertical direction, whereas classes II and III have more limited oropharyngeal space.

Primary normocephalic pancraniosynostosis detected incidentally after an accidental head injury: a case report and review of the literature

OBJECTIVE

Majority of multi-suture craniosynostosis are related to single-gene disorders or chromosomal abnormalities. Children with craniosynostosis usually present at an early age due to the presence of an abnormal head shape, with the exception of a unique entity termed primary normocephalic pancraniosynostosis. The objective of this article is to describe an unusual case of primary normocephalic pancraniosynostosis, detected incidentally following an accidental head injury. A comprehensive review of the literature will also be included. To the best of our knowledge, only eight cases of primary normocephalic pancraniosynostosis have been reported thus far.

CASE DESCRIPTION

A 3-year 2-month-old child presented to the emergency department after a fall with severe scalp swelling. The child was noted to have mild frontal bossing and bilateral exophthalmos. Head size was normal but bilateral mild papilloedema was noted. CT scan was performed and demonstrated pancraniosynostosis and diffuse subgaleal hematoma. Patient underwent fronto-orbital advancement and total cranial vault reconstruction with favorable outcome.

CONCLUSION

Our reported case adds to the current limited knowledge of this rare entity and emphasized the importance of a high index of suspicion in children with apparently normal head size and shape but show subtle evidence of raised intracranial pressure.

A child with Apert syndrome and Sturge-Weber syndrome: could fibronectin or the RAS/MAPK signaling pathway be the connection?

BACKGROUND

Apert syndrome is one of the most common craniosynostosis syndrome caused by mutation in genes encoding fibroblast growth factor receptor 2 (FGFR2). Craniosynostosis, midfacial hypoplasia, and syndactyly/symphalangism are features of this syndrome. Sturge-Weber syndrome (SWS) on the other hand is a congenital neurocutaneous disorder characterized by facial port-wine stains (PWSs) and leptomeningeal vascular capillary malformations. In 2013, the causative mutation underlying SWS (p.R183Q somatic activating mutation in the guanine nucleotide-binding protein alpha-q (GNAQ) gene) was identified. This mutation increases downstream signaling along the RAS/MAPK pathway, resulting in increased cell proliferation. The interaction between FGFR and the RAS/MAPK signaling pathway was proposed in recent years. Elevated synthesis of fibronectin in the calvaria of patients with Apert syndrome and increased fibronectin gene expression in port wine-derived fibroblasts of patients with Sturge-Weber disease have also been reported.

CASE PRESENTATION

We report a unique case of Apert and Sturge-Weber syndromes occurring in the same patient. The child was noted to demonstrate features suggestive of Apert syndrome at birth, including brachycephaly, midface hypoplasia, and syndactyly. In addition, a left-sided facial port wine stain in the forehead was noted. Magnetic resonance imaging (MRI) of the brain was performed and confirmed the diagnosis of Sturge-Weber syndrome by demonstrating the presence of left sided leptomeningeal vascular capillary malformation and left-sided cerebral hemiatrophy.

CONCLUSION

To the best of our knowledge, there has been no prior described case of Apert and Sturge-Weber syndromes occurring in the same patient. This case report identifies an area of potential research on fibronectin and derangement of the RAS/MAPK signaling pathway in relation to Apert syndrome and Sturge-Weber syndrome. In view of the rare concurrence of Apert and Sturge-Weber syndromes, the underlying pathogenesis is thought to be multifactorial, one of which may be related to either increased fibronectin gene expression or derangement of the RAS/MAPK signaling pathway.