Studies of malformation syndromes in man XXXVI: the Pfeiffer syndrome, association with Kleeblattschädel and multiple visceral anomalies. Case report and review

Autopsy Case of Pfeiffer Syndrome Type 2, a Phenotype of Fibroblast Growth Factor Receptor-Associated Craniosynostosis Syndromes, with Tracheal Cartilage Sleeve and Abnormal Hyperplasia of Bronchial Cartilages

BACKGROUND Pfeiffer syndrome (PS) is a fibroblast growth factor receptor (FGFR)-associated craniosynostosis syndrome, characterized by abnormally broad and medially deviated thumbs and great toes. Tracheal cartilage sleeve (TCS) is associated with several FGFR-associated craniosynostosis syndromes, including PS. TCS is an airway malformation in which the tracheal cartilage rings fuse with each other to form a sleeve of cartilage. CASE REPORT The patient was a 4-year-old girl with PS, TCS, and abnormal hyperplasia of non-fused intrapulmonary cartilages. The patient showed cranial dysplasia on prenatal ultrasonography. At birth, a cloverleaf skull in association with hydrocephalus and digital malformations was apparent. These findings were consistent with PS type 2. The diagnosis of PS type 2 was confirmed from a genetic test detecting a FGFR2 mutation (Y340C). During the clinical course, she underwent several surgeries, including ventriculoperitoneal shunts, sequential cranioplasty surgeries, and tracheotomy due to upper airway abnormalities. At 4 years old, she died of multiple organ failure following aspiration pneumonia. The autopsy revealed that the tracheal cartilages had fused with each other, resulting in a condition called TCS, in which the cartilage rings and tracheal ligaments were absent. The lungs were poorly aerated, and the dilated bronchi had thickened walls surrounded by many cartilage fragments, mainly at the hilum. These cartilages tended to overlap at both ends, did not fuse, and were greatly altered in size and shape. CONCLUSIONS We report the results of autopsy for PS with the first histopathological findings for the lungs and other visceral organs.

Nervous system involvement in Pfeiffer syndrome

Pfeiffer syndrome (PS) is a rare autosomal dominant craniofacial disorder characterized by primary craniosynostosis, midface hypoplasia, and extremities' abnormalities including syndactyly. The purpose of this article was to review the current knowledge regarding how PS affects the nervous system. Methodologically, we conducted a systematic review of the existing literature concerning involvement of the nervous system in PS. Multiple-suture synostosis is common, and it is the premature fusion and abnormal growth of the facial skeleton's bones that cause the characteristic facial features of these patients. Brain abnormalities in PS can be primary or secondary. Primary anomalies are specific developmental brain defects including disorders of the white matter. Secondary anomalies are the result of skull deformity and include intracranial hypertension, hydrocephalus, and Chiari type I malformation. Spinal anomalies in PS patients include fusion of vertebrae, "butterfly" vertebra, and sacrococcygeal extension. Different features have been observed in different types of this syndrome. Cloverleaf skull deformity characterizes PS type II. The main neurological abnormalities are mental retardation, learning difficulties, and seizures. The tricky neurological examination in severely affected patients makes difficult the early diagnosis of neurological and neurosurgical complications. Prenatal diagnosis of PS is possible either molecularly or by sonography, and the differential diagnosis includes other craniosynostosis syndromes. Knowing how PS affects the nervous system is important, not only for understanding its pathogenesis and determining its prognosis but also for the guidance of decision-making in the various critical steps of its management. The latter necessitates an experienced multidisciplinary team.

Relevant Surgical Anatomy of Pterygomaxillary Dysjunction in Le Fort III Osteotomy

BACKGROUND

Le Fort III osteotomy represents the foundation of surgical correction for midface hypoplasia. One serious complication of Le Fort III osteotomy is severing the internal maxillary artery or its branches during osteotome advancement for pterygomaxillary dysjunction. This study sought to characterize the relevant surgical anatomy of the infratemporal fossa and of the internal maxillary artery as it enters the pterygomaxillary fissure.

METHODS

Bilateral midface dissections were performed on 15 fresh, normocephalic adult cadavers (30 hemifaces). Four superficial anatomical measurements were performed on the surface of the face, followed by 10 deep measurements of the internal maxillary artery and its branches relative to the infratemporal fossa and its surrounding bony landmarks.

RESULTS

The distance from the anterosuperior aspect of the zygomatic arch to the sphenopalatine artery entering the pterygomaxillary fissure was 38.9 ± 3.2 mm. The distance from the alveolar process of the maxillary bone to the sphenopalatine artery entry into the pterygomaxillary fissure was 30.3 ± 6.4 mm. The zygomaticofrontal suture was 43.4 ± 8.5 mm from the sphenopalatine artery entry into the pterygomaxillary fissure, 58.8 ± 8.0 mm from the pterygomaxillary junction, and 74.9 ± 6.5 mm from the maxillary alveolar process. The distance from the sphenopalatine artery to the posterior superior alveolar artery was 14.4 ± 4.1 mm. Elevation of the internal maxillary artery from the lateral pterygoid plate was 5.8 ± 2.5 mm.

CONCLUSION

This study characterizes the surgical anatomy of the infratemporal fossa in the context of Le Fort III osteotomies and their associated pterygomaxillary dysjunctions.

Intestinal malrotation in a patient with Pfeiffer syndrome type 2

Pfeiffer syndrome is a pleiotropic disorder characterized by multiple suture craniosynostosis, broad and medially deviated thumbs and great toes, and variable cutaneous syndactyly. We present the case of a 16-month-old boy with Pfeiffer syndrome type 2 who presented with intestinal malrotation for which the diagnosis was delayed. This is a rare complication of Pfeiffer syndrome, with few reported cases in the literature. This case illustrates the importance of recognizing gastrointestinal malrotation as a possible cause of feeding intolerance and persistent vomiting in patients with the severe forms of Pfeiffer syndrome.

Lessons from a case of kleeblattschädel. Case report

The authors describe the clinical, radiological, and postmortem findings of a case of cloverleaf skull syndrome. The presence of hindbrain herniation, abnormal cervical segmentation, and atlantoaxial subluxation illustrate the anatomical complexity of the skull base and the craniocervical junction that may coexist in this condition. Unavoidable division of occipital emissary veins during elevation of the skin flap at the time of vault remodeling surgery led to an acute and, ultimately, fatal rise in intracranial pressure. Postmortem examination and review of magnetic resonance imaging revealed an anomalous pattern of venous drainage of the intracranial structures that appeared to have developed in response to venous obstruction, secondary to intraosseous venous sinuses and stenosis of the jugular foramina. The relationship between venous hypertension, hindbrain herniation, and hydrocephalus in this situation is reviewed, and the implications for evaluation and management of this vexing disorder are discussed.

Identical mutations in the FGFR2 gene cause both Pfeiffer and Crouzon syndrome phenotypes

Mutations in the fibroblast growth factor receptor 2 (FGFR2) gene have been identified in Crouzon syndrome, an autosomal dominant condition causing premature fusion of the cranial sutures (craniosynostosis). A mutation in FGFR1 has been established in several families with Pfeiffer syndrome, where craniosynostosis is associated with specific digital abnormalities. We now report point mutations in FGFR2 in seven sporadic Pfeiffer syndrome patients. Six of the seven Pfeiffer syndrome patients share two missense mutations, which have also been reported in Crouzon syndrome. The Crouzon and Pfeiffer phenotypes usually breed true within families and the finding of identical mutations in unrelated individuals giving different phenotypes is a highly unexpected observation.

Premature craniosynostosis. A retrospective analysis of a series of 52 cases

A retrospective analysis of a consecutive series of 52 cases with premature craniosynostosis is presented. Excellent functional, cosmetic, and social results could be achieved by resection of prematurely fused sutures and the creation of artificial growth sutures. Pronounced skull deformities have been corrected using the "basket handle", the "visor plasty", and the "T- bone" techniques or a combination of several of these skull form correction techniques. The surgical correction of the skull base by the "frontal advancement" technique in combination with orbitotomy was only necessary in 2 of our cases and could have been considered in 2 additional cases viewed retrospectively. Our results support the hypothesis that the primary cause of skull deformity is the premature closure of vault sutures and not a primary deformity of the skull base.

Craniofacial, limb, and abdominal anomalies in a distinct syndrome: relation to the spectrum of Pfeiffer syndrome type 3

Presented are 2 patients with abnormal craniofacial region, limbs, and abdomen, features that may be consistent with Pfeiffer syndrome, type 3. Both patients had bicoronal and bisphenoidal synostosis, extreme exophthalmic midface hypoplasia, and hydrocephalus. The limbs had a fixed flexion deformity of the elbows with broad thumbs which were radiopalmarly deviated; the toes were broad with a varus deformity and syndactyly toes 2-5. Both patients developed bowel obstruction secondary to midgut malrotation, and one of the patients had prune belly syndrome. Review of the literature disclosed an additional patient who, in retrospect, had Pfeiffer syndrome type 3 and midgut malrotation. These patients suggest that intestinal malrotation with or without prune belly syndrome may be a common component of this entity.

Pfeiffer syndrome update, clinical subtypes, and guidelines for differential diagnosis

Steven Pfeiffer syndrome pedigrees (three 3 generation and four 2 generation) have been recorded to date in addition to at least a dozen sporadic cases. Autosomal dominant inheritance with complete penetrance is characteristic of the 7 familial instances. Variable expressivity has involved mostly the presence or absence of syndactyly and the degree of syndactyly when present. Classic Pfeiffer syndrome is designated type I. Type 2 consists of cloverleaf skull with Pfeiffer hands and feet together with ankylosis of the elbows. Such patients do poorly with an early death. All reported instances to date have been sporadic. Type 3 is similar to type 2 but without cloverleaf skull. Ocular proptosis is severe in degree and the anterior cranial base is markedly short. These patients also do poorly and tend to have an early death. To date all cases have occurred sporadically. Although these 3 clinical subtypes do not have status as separate entities, their diagnostic and prognostic implications are important. Type 1 is commonly associated with normal intelligence, generally good outcome, and can be found dominantly inherited in some families. Types 2 and 3 generally have severe neurological compromise, poor prognosis, early death, and sporadic occurrence. Recognition of type 3 is particularly important because extreme ocular proptosis in the absence of cloverleaf skull but with various visceral anomalies can result in failure to diagnose Pfeiffer syndrome and labeling the patient as an "unknown" or as a "newly recognized entity."(ABSTRACT TRUNCATED AT 250 WORDS)

Craniosynostosis update 1987

Information on craniosynostosis in this paper updates "Craniosynostosis: Diagnosis, Evaluation, and Management" (Cohen MM Jr: New York: Raven Press, 1986). It also discusses recent developments that were included in the book but need further explanation or emphasis. Subjects discussed are: epidemiology, etiology, sutural biology, growth and development, neurological and psychosocial aspects, surgery, cloverleaf skulls, craniosynostosis syndromes, and prenatal diagnosis. Under the subject of etiology, fetal head constraint, maternal thyroid disease, calcified cephalohematoma, teratogens, and delayed suture closure and Wormian bones are considered. An updating of 15 cloverleaf skull conditions includes four monogenic disorders, two chromosomal disorders, one disruption, one iatrogenic condition, and seven syndromes of unknown cause. Newly recognized disorders with cloverleaf skull include Beare-Stevenson cutis gyratum syndrome and Say-Poznanski syndrome. Craniosynostosis syndromes and associations discussed include acrocraniofacial dysostosis, Apert syndrome, Beare-Stevenson cutis gyratum syndrome, Calabro syndrome, calvarial hyperostosis, chromosomal craniostenosis, Cole-Carpenter type osteogenesis imperfecta, Crouzon syndrome, Curry-Jones syndrome, Curry variant of Carpenter syndrome, cutis aplasia and cranial stenosis, Fontaine-Farriaux syndrome, Gomex-López-Hernández syndrome, Hersh syndrome, hyper-IgE syndrome and craniostenosis, hypomandibular faciocranial dysostosis, Marfanoid features and craniostenosis, Pfeiffer-type cardiocranial syndrome, Pfeiffer-type dolichocephalosyndactyly, and Say-Barber syndrome.

Cloverleaf skull associated with Pfeiffer syndrome: pathology and management

The clinical and radiological findings in an infant with severe cloverleaf skull associated with a Pfeiffer syndrome are presented. The skull anomaly resulted in raised intracranial pressure and proptosis of the right eye within several weeks of birth. The child died at 3 months of age after subtotal craniectomy. At autopsy a detailed macroscopical and histological analysis of the skull base was conducted. The timing and value of surgery are discussed as well as the pathology of the cloverleaf skull anomaly.

Cloverleaf skull with generalised bone dysplasia. Report of a case with short review of the literature

A case of cloverleaf skull with generalised bone dysplasia is reported. The authors believe that bone dysplasia associated with cloverleaf is neither identical with thanatophoric dysplasia nor achondroplasia. Until identity of thanatophoric dysplasia and cloverleaf skull with generalised bone dysplasia is proved the diseases should be looked upon as separate entities and the wording "thanatophoric dysplasia with cloverleaf skull" should be abolished.

Hearing loss in Pfeiffer's syndrome

A 14-year-old boy with conduction hearing loss, acrocephaly, minimum syndactyly, broad thumbs and big toes is classified as being affected with a form of acrocephalosyndactyly, termed Pfeiffer's syndrome (McK+10160) [12]. It is the first case of this syndrome presented in the otorhinolaryngological literature. During exploratory tympanotomy, the ossicular chain was found to be fixed. The incus seemed to be fixed in the epitympanum and there was ankylosis of the stapes. After antrotomy during a first stage, stapedectomy and teflon interposition during a second stage the air-bone gap disappeared. Multidirectional polytomography of the inner ear, performed preoperatively, was normal with the exception of a markedly local bilateral dilatation of the internal acoustic meatus. Although this case is a sporadic one, the mode of inheritance of this syndrome is autosomal dominant.

The syndrome of multisynostotic osteodysgenesis with long-bone fractures

Described here are two patients with a newly recognized syndrome of bone and cartilage maldevelopment which, we believe, results from a single embryonic defect, probably of genetic origin. The cardinal manifestations of this association are craniosynostosis, radiohumeral synostosis (RHS), and femoral bowing. Specific secondary defects include midface hypoplasia with characteristic facial appearance and ears, neonatal femoral fractures, and multiple minor anomalies of the limbs. Though the differential diagnosis includes such disorders as the campomelic syndrome, osteogenesis imperfecta (OI) and certain of acrocephalosyndactyly syndromes, the unique combination of clinical and radiographic abnormalities allows ready differentiation. The cause cannot be determined from these two cases.

"ADAM complex" (amniotic deformity, adhesions, mutilations)--a pattern of craniofacial and limb defects

We report eight patients with the craniofacial defects and limb anomalies of the (amniotic deformity, adhesions, mutilations) ADAM complex. Facial abnormalities comprise clefts and distortion and dislocation of craniofacial structures; limbs show various combinations of amputation, secondary syndactyly, and constriction. From previous reports and our cases it is obvious that the clinical picture of the ADAM complex varies enormously; a less severe type combines cleft lip and palate with amputations or amniotic bands. Clinical and experimental data suggest that these malformations are of symptomatic (exogenous) origin. Nosologic differentiation from other conditions phenotypically similar but of genetic etiology is important for genetic counseling. Observation of the ADAM complex in two members of a family suggests that genetic factors might operate in some cases.

Genetic perspectives on craniosynostosis and syndromes with craniosynostosis

Thirty-seven syndromes in which craniosynostosis is a feature are presented in tabular form, allowing the clinician to rapidly identify a given syndrome and gain immediate access to the pertinent literature. A plea is made to delineate unknown genesis syndromes with craniosynostosis as rapidly as possible. As an unknown genesis syndrome becomes delineated, its phenotypic spectru, its natural history, and its inheritance pattern or risk of recurrence become known, allowing for better patient care and family counseling.