Apert Syndrome: A Case Report

Background: Apert syndrome is a type 1 acrocephalosyndactyly, a rare syndrome characterized by the presence of multiple craniosynostoses, dysmorphic facial manifestations, and syndactyly of hand and feet. It aﬀ ects 1:100.00 of birth and is the second most common of syndromic craniosynostosis. Molecular genetic tests that identify the heterozygous pathogenic variant in FGFR2 genes - identical with Apert syndrome cost too high to be applicable in developing countries. Therefore, the diagnosis of Apert syndrome should be suspected from the clinical ﬁ ndings. Three cases from the Community of Indonesian Apert Warrior Group were collected. These series were based on medical and surgical records. We obtained the patient characteristics from the phenotypic manifestations only. Case report: We present a case of a newborn baby girl, with similar anatomical ﬁ ndings, such as skull shape abnormality, midface hypoplasia, intraoral disﬁ gurement, and hands and feet deformities that resemble Apert Syndrome. Our series presents similar Apert syndrome characteristics, such as typical craniofacial dysmorphic with symmetrical syndactyly of both upper and lower extremities. These clinical ﬁ ndings are essential to establish an initial diagnosis of Apert Syndrome.


Introduction
Apert syndrome was irst discovered by Wheaton in 1894.In 1906, Dr. Eugene Charles Apert published a summary of nine cases.Aperts syndrome, or acrocephalosyndactylia, is a developmental malformation characterised by craniosynostosis, a cone-shaped calvarium, midface hypoplasia, pharyngeal attenuation, ocular manifestations, and syndactyly of the hands and feet.According to Cohen, 15 out of 10 lakh live births suffer from Apert syndrome.Apert syndrome is caused by a mutation in the FGFR2 gene on chromosome 10 [1][2][3].The FGFR2 gene produces a protein called ibroblast growth factor receptor; one of its functions is to signal immature cells to become bone cells in the developing embryo or fetus.Mutations in speci ic parts of FGFR2 will change this protein and cause prolonged signalling, resulting in premature fusion of the bones of the skull, ingers, and toes.2, 3, and 4 FGFR2 gene mutations can be inherited from parents who suffer from Apert syndrome with an autosomal dominant pattern, or it could also be a new spontaneous mutation [1,4].Previous studies have shown an association between older paternal ages and Apert syndrome.Apert syndrome occurs around 1 in 160,000-200,000 live births and affects men and women equally.The main characteristics of Apert syndrome are malformation of the skull, retrusion of the midface, fusion of https://doi.org/10.29328/journal.cjog.1001154 is needed to correct craniofacial abnormalities and fused ingers and toes.Apart from surgery, treatment is also aimed at correcting the upper respiratory tract, eye abnormalities, or abnormalities affecting the teeth [5].

Case report
A 39-year-old multiparous woman with a gestation period of 38 weeks came to the emergency room at Ari in Achmad Pekanbaru Regional Hospital with complaints of wanting to have a hard time.An examination showed maximal cervical dilatation, the foetal head was palpable down at Hodge 4, and the FHR was 150 bpm regular.A baby girl was born in the emergency room at Ari in Achmad Hospital Pekanbaru.She is the second child from a nonconsanguineous marriage and has one normal sibling, and the mother gave birth normally without a history of trauma, infection, or drug use during that time.No family history of similar complaints or other congenital abnormalities was reported.Examination reveals an abnormal turribrachycephalic head contour (high and shortened AP), lat occiput, and prominent frontal region.There is ocular proptosis, strabismus, hypertelorism, and a lateral palpebral issure that shifts downward.She has a depressed nose bridge and a thick nose with a rounded tip and crossbow-shaped lips.The patient had a midfacial de iciency with a hypoplastic and retruded maxilla (Figure 2).Bilaterally symmetrical syndactyly with complete fusion of the ive ingers of both hands with the thumbs placed inward (Figure 3), there is also both feet with deformation of the big toes.Fused ingers and toes have separate nails.Intraoral, no teeth, V-shaped maxillary arch, and pseudocleft palate (Figure 1).There were no other obvious congenital malformations, and a systemic examination showed no other abnormalities.We carried out a chromosome examination and obtained suspicious results for FGFR2 gene mutations, which were consistent with Apert syndrome.The baby has been consulted by a paediatric surgeon, but palate reconstruction is only planned at the age of 3 years (Figures 1-5).

Discussion
Apert syndrome is an autosomal dominant disorder caused by a mutation in ibroblast growth factor receptor-2 (FGFR-2) on chromosome 10q.Suture progenitor cells     with mutated FGFR-2 are unable to transduce signals from extracellular FGF, and as a result, they do not produce the ibrous material necessary for a normal calvarial suture.Most cases are sporadic, due to new mutations in luenced by the father's age [6,7].Prodromal features of the typical turribrachycephalic head shape are early craniosynostosis of the coronal sutures and agenesis of the saggital and metopic sutures, resulting in a wide defect extending from the glabella to the posterior fontanel.Also, spheno-occipital and sphenoethmoidal synchondrosis and early fusion of the frontoethmoidal suture cause the anterior and posterior skull bases to shorten, resulting in a reduction in the height of the pharynx [8,9].Premature fusion of the sutures with ongoing brain growth can lead to increased intracranial pressure, which can be seen as increased convolutional signs on skull radiographs.This in turn results in a hypoplastic midface and a vertically prominent craniofacial complex.Ocular proptosis, downward tilt of the lateral canthus and palpebral issure (antimongoloid oblique), and hypertelorism occur due to the shortening of the bony orbit.There is a depressed nasal bridge with a deviated nasal septum.Hypoplastic and retropositioned maxilla.The lips are arc-shaped and often cannot form a lip seal.Syndactylia, or inger adhesions, cause immobility of the ingers due to ossi ication of the interphalangeal joints due to segmentation of the embryonic phalanges.The involvement of the irst or ifth toe in this bone mass varies [10,11].There may be similar deformities involving the feet (glove hands and sock feet).High intraoral arch and sagittally narrow palate are seen with lateral palatal swelling with a prominent central issure and are mostly present with pseudopalate.The maxillary arch is V-shaped and narrows sagittally.Severe crowding of teeth, delayed tooth eruptions, and thick gingiva are common features.The posterior tilt of the maxilla can cause class III malocclusion in the future [12].Central nervous system abnormalities (megalocephaly, pyramidal tract abnormalities), skeletal abnormalities (limited mobility of the glenohumeral joint, elbow joint, etc.), cardiovascular, genitourinary and gastrointestinal, mental retardation, visual and auditory, and speech defects have also been noted.The literature also reports skin manifestations in Apert syndrome, such as acne, hyperhidrosis, hypopigmentation, and plantar surface hyperkeratosis [11].According to the literature, Apert and Crouzon syndrome appear to be the same syndrome, with the exception of syndactyly of the hands and feet in Apert syndrome.A cleft or pseudocleft palate is frequently found in Apert syndrome, whereas these features are very rare in Crouzon syndrome [12,13].Treatment of Apert syndrome begins at birth, and a multidisciplinary approach is required to arrive at a collaborative corrective plan for the de iciency.Craniectomy is often performed at 6 months of age to treat craniosynostosis.Corrective surgery for syndactyly is performed in the irst year of life and completed by 3 to 4 years of age [14].Cosmetic correction of midface and pseudocleft de iciencies occurs at 4 to 6 years of age.Orthodontic and orthognathic surgery is performed after permanent tooth eruption and growth are complete.Nonsurgical manipulation of Apert syndrome may be a possibility in the future, for example, by using selective inhibitors of the FGFR-kinase domain.Genetic counselling is an important factor because the risk of recurrence for an affected individual to have affected offspring is 50% [15,16].

Conclusion
Apert syndrome is a rare disorder that can be detected during pregnancy by ultrasound examination.an autosomal dominant disorder caused by a mutation in ibroblast growth factor receptor-2 (FGFR-2) on chromosome 10q.A chromosome examination is needed to con irm the diagnosis of Apert syndrome.

Figure 3 :
Figure 3: Connected Fingers and Wide Thumb.