A. Hanieh

Head injuries in infants and young children: the value of the Paediatric Coma Scale

The normal verbal and motor responses embodied in the standard Glasgow Coma Scale (GCS) are not achievable during the first few years of life. The recent literature contains numerous reports of attempts to devise scales of responses quantitating the conscious level in infants and young children, both for research purposes and as clinical guides; some of these scales incorporate items, e.g. brainstem reflexes, that are not included in the GCS. We have reported on a simple paediatric version of the GCS, which uses the standard scale with minor modifications in the verbal component, and sets realistic age-related normal responses. This has been tested prospectively in a series of 60 head-injured infants and children (age range 0–72 months). Of 6 cases recorded as comatose 6 h after injury, 4 have confirmed or suspected residual disabilities. Of 35 cases considered to be fully conscious at 6 h, 31 have made good recoveries and only 1 has suspected residual disabilities. The study suggests that the scale accords with the realities of neurological immaturity, and confirms that it can be used in routine paediatric practice. For comparative therapeutic trials, the conscious level in infants has limited value as an index of brain injury, and should be complemented by other indices, such as brainstem reflexes.

CT-determined intracranial volume for a normal population.

Intracranial volume comparisons of patients with craniosynostosis and normal have been contrary to expectations, leading to questioning of the validity of the current normal reference material. Computed tomography-determined intracranial volume is presented for a white normal population. Specifically, intracranial volumes for 157 subjects (82 female and 75 male) were measured from computed tomography data using the Cavalieri estimator: volume determination was based on measuring the area in each computed tomography section. Monomolecular and Gompertz models were applied to find curves of best fit to the intracranial volume as a function of the age. The best fit was obtained using the monomolecular model when the response variable was the logarithmically transformed intracranial volume, and the independent variable was the logarithm of the age from conception. For example, the mean (standard deviation) for male subjects at 1 year and 20 years were 1,125.6 (89.6) ml and 1,472.9 (117.2) ml, respectively, and for female subjects 1,024.9 (84.0) ml and 1,321.7 (108.3) ml, respectively. Although the shape and rate of increase of the female and male curves is similar, the female mean is 1.3 standard deviations below the male mean at 20 years. These curves were compared with the commonly referenced curves of Blinkov (1941), Lichtenberg (1960), and Dekaban (1977). Our male curve is substantially higher than these curves in the age range 8 months to 4 years. Our female curve, however, is approximately 1 standard deviation below Lichtenbergs curve from birth to 7 months. There are then only minor differences between our female curve and Lichtenbergs curve until his curve crosses ours at 41 months, where they significantly diverge from approximately 4.5 years. Our curves indicate that 95% of the final intracranial volume has been attained by 42 months for girls and 46 months for boys.

Transcranial correction of orbital neurofibromatosis.

Neurofibromatosis is a systemic disease that often produces striking disfigurement. Orbital manifestations are common and include sphenoid dysplasia with or without infiltration of the periorbital soft tissues. The resultant deficiency of the posterolateral orbital wall may lead to protrusion of the temporal lobe into the orbit, displacement of the globe, and pulsatile exophthalmos. Treatment at our unit has consisted of transcranial orbital reconstruction with bone grafts and periorbital soft-tissue correction. Observation of complete bone graft resorption in one patient prompted an assessment of the Australian Craniofacial Units experience with particular attention paid to the stability of operative correction. Of 36 patients with head and neck neurofibromatosis treated during the period from 1981 to 1995, 14 patients underwent transcranial correction of orbital deformities secondary to sphenoid dysplasia. The treatment and outcomes of this transcranial group are reviewed. The most notable finding was that of recurrent globe pulsation in four patients following initial resolution. Computed tomography scans have documented partial to complete bone graft resorption in three of these patients. Titanium mesh is now being utilized to provide a more durable reconstruction.

Apert's syndrome.

This paper discusses 33 cases of Aperts syndrome whitc were treated in the Australian Craniofacial unit at the adelaide Childrens Hospital. The main features were discussed. We found that mild ventricular dilatation is common in Aperts syndrome but without associated raised intracranial pressure. Severe ventricular dilatation was seen in only one case. No shunt procedures were performed. We also studied the changes in the ventricular size after transcranial corrective procedures. There was no significant change in the ventricular size, the increase in the skull volume was compensated by expansion of the brain tissue and to some extent by increase in the subrachnoid space. Two cases with unusual features are also described.

Syringomyelia in children with primary scoliosis

Abstract The clinical notes of 35 children presenting with scoliosis were reviewed; all 35 had been investigated with MRI. Seven were found to have syringomyelia, and six of these had Chiari malformation. Correction of the syrinx resulted in improvement or stabilisation of the spinal curvature. We recommend that all cases presenting with primary scoliosis should have MRI and should be treated if a syrinx is found.

The Cloverleaf Skull Anomaly: Managing Extreme Cranio-orbitofaciostenosis

The cloverleaf skull anomaly represents the most manifestly extreme form of cranio-orbitofaciostenosis with hydrocephalus that has to date been associated with a uniformly poor outcome and frequent death in infancy. Assessment of the primary deformity and the approach to treatment in a consecutive series of 10 patients with the cloverleaf skull anomaly in the one unit are presented. Early predictable surgical correction of the craniostenosis is possible by fronto-orbital advancement and lambdoid craniectomy. Less satisfactory correction of hydrocephalus and orbitostenosis is possible with the attendant increased morbidity. Early survival and the potential for a satisfactory long-term outcome depend on the management of the faciostenosis and an airway that may be anomalous at multiple levels. The initial approach was routine tracheostomy, which provided short-term relief but with the morbidity associated with such airway maintenance in any environment other than the most sophisticated health services. More recently, upper airway surgery (uvulopalatopharyngoplasty, adenoidectomy, and soft palatal split) has ensured airway control and avoided the progression to tracheostomy. When utilized later (1 to 10 years), such surgery may alleviate the symptoms of upper airway obstruction and sleep apnea and permit delay of midfacial advancement.

Bilambdoid and posterior sagittal synostosis: The Mercedes Benz Syndrome

A consistent pattern of craniosynostosis in the sagittal and bilateral lambdoid sutures is described in three patients. The external cranial ridging associated with fusion of these sutures produces a characteristic triradiate, or “Mercedes Benz,” appearance to the posterior skull. Locally marked growth restriction is evident in the posterior fossa with compensatory secondary expansion of the anterior fossa manifesting a degree of frontal bossing which mimics bicoronal synostosis. Although this appearance could lead to inadvertent surgery in the frontal region, attention to the occipital region with wide early suture excision and vault shaping is indicated.

Growing skull fracture after cranial vault reshaping in infancy.

Growing skull fractures are reported in three infants undergoing cranial vault surgery for craniosynostosis. Although primary dural injury was overt in only one patient, an extensive dural defect with spatially coincident bony absence was identified in all patients at late exploration. The coincidence of dural injury, deficient overlying bone, and a pulsatile growing brain are necessary conditions for the development of growing skull fractures. With the advent of increasingly radical cranial vault procedures during infancy, the potential for this complication to arise may increase. Definitive correction requires autogenous tissue reconstruction of the dural and bony defect.

Computer tomography determined intracranial volume of infants with deformational plagiocephaly : a useful "normal"?

Over the last 10 years, children with deformational (nonsynostotic) plagiocephaly have undergone computed tomography scans using the same protocols as children with lambdoid craniosynostosis because of their similarly distorted head shapes. These children are believed to have normal intracranial volume. Given the recent questioning of what is the normal range of intracranial volume in human populations, the authors have undertaken a comparison of the intracranial volume of children with deformational plagiocephaly and Lichtenbergs normal population (Lichtenberg R. Radio-graphie du crane de 226 enfants normaux de la naissance a 8 ans: Impressions digitiformes, capacite, angles et indices [thesis]. Paris: University of Paris, 1960). The intracranial volume was determined for 20 females and 46 males with deformational plagiocepahly ranging in age from 2.5 to 20.7 months using computed tomography scan data. Although no significant differences were found for the females, the authors found that the intracranial volume of the males with deformational plagiocephaly were significantly larger than Lichtenbergs population. The authors conclude that this is because Lichtenbergs data do not adequately reflect the normal range of intracranial volume for males ranging in age from 2.5 to 20.7 months, rather than gender differences associated with deformational plagiocephaly. Further, until a more suitable normal becomes available, the deformational (nonsynostotic) plagiocephaly data could-be used as substitute normal reference material in the measured age range for assessment of the intracranial volumes of children with craniosynostosis.

Hydrocephalus in pfeiffer syndrome.

A review of the clinical records and CT scan findings of 11 patients with Pfeiffer syndrome showed ventricular dilation in the majority. In 7 cases the ventriculomegaly was sufficiently severe as to be classified as hydrocephalus and warrant ventricular shunting. The common co-existence of hydrocephalus and multiple premature sutural fusion in Pfeiffer syndrome is a further factor in the apparently worse prognosis of this condition when compared to Crouzon and Apert syndrome. Primary cerebral anomalies as a causative factor for the development of hydrocephalus are infrequently recorded. Extensive craniosynostosis with cranial base distortion and constriction would appear to contribute to the production of hydrocephalus.