Intracranial Aneurysms in Children

Ruptured Middle Cerebral Artery Aneurysm in an Infant: Case Report and Literature Review

Intracranial aneurysms (IA) in infants are reportedly rare at 0.5% to 4.5% of all aneurysms. Furthermore, subarachnoid hemorrhage in infants younger than three months are even rarer as it has been reported in approximately 20 cases only till date. A 3-month-old infant with seizures and impaired consciousness was admitted to our hospital. Three-dimensional computed tomography angiography (3D-CTA) revealed a dissecting aneurysm with a maximum diameter of 13 mm in the right M2. Internal trapping using detachable coil were successfully performed, following which he was discharged without significant neurological deficit after one month of onset. Thus, we have reported a rare case of a large ruptured dissecting IA in a 3-month-old infant, in the right middle cerebral artery (MCA), successfully treated with an endovascular therapy, along with a literature review.

Endovascular Therapy in Paediatric Dissecting Intracranial Aneurysm: A Case Report

The incidence of cerebral aneurysms is rare in children, and it has to be definitively ruled out in all cases of intracranial bleed even if there is associated history of trauma. We report a case of 11-month-old girl who presented with intracranial bleed after a history of minor trauma whose diagnosis of an intracranial aneurysm was initially missed which later led to a rebleed. It was managed emergently with endovascular coiling and the patient showed incredible recovery in the post-operative period.

Endovascular Management of Paediatric Intracranial Aneurysms

The purpose of this paper is to discuss the radiological and clinical features of paediatric intracranial aneurysms including endovascular techniques currently being used for their therapy. Paediatric patients who presented with the diagnosis of intracranial aneurysm between August 1982 and February 1997 were included. The data were collected retrospectively.

Clinical features included patient's age, sex, presentation, treatment and outcome. Radiologic features included location, size and number of aneurysms present.

21 patients (13 females and 8 males) ranging in age from 9 months to 16 years had intracranial aneurysms. Seventy six percent of the aneurysms were located in the anterior circulation and 24% in the posterior circulation. Seven patients (33%) had giant aneurysms and three patients (14%) had multiple aneurysms. Endovascular treatment was performed in six patients (29%) and neurosurgical treatment in eight patients (38%). Endovascular treatment included the use of coils and/or balloon occlusion.

Of the remaining patients, two (9.5%) died prior to any surgical or radiological intervention. A further five patients (24%) were treated conservatively. Intracranial aneurysms in children demonstrate clinical and radiologic features that differ significantly from those seen in adults. There is a higher percentage of ICA termination aneurysms, giant aneurysms and post-traumatic aneurysms.

However, aneurysms in children, like those in adults, can and have been successfully treated utilizing endovascular as well as neurosurgical techniques.

Pathomechanisms and treatment of pediatric aneurysms

Pediatric aneurysms are rare diseases distinct from classical adult aneurysms and therefore require different treatment strategies. Apart from saccular aneurysms that are more commonly found in older children, three major pathomechanisms may be encountered: trauma, infection, and dissection. The posterior circulation and more distal locations are more commonly encountered in children compared to adults, and there is an overall male predominance. Clinical findings are not only confined to subarachnoid hemorrhage but may also comprise mass effects, headaches or neurological deficits. In traumatic aneurysms, the skull base and distal anterior communicating artery are commonly affected, and the hemorrhage occurs often delayed (2-4 weeks following the initial trauma). Infectious aneurysms are mostly bacterial in origin, and hemorrhage occurs early after a septic embolic shower. Dissecting aneurysms are the most often encountered aneurysm type in children and can lead to mass effect, hemorrhage, or ischemia depending on the fate of the intramural hematoma. Treatment strategies in pediatric aneurysms include endosaccular coil treatment only for the "classical berry-type" aneurysms; in the other instances, parent vessel occlusion, flow reversal, surgical options, or a combined treatment with bypass and parent vessel occlusion have to be contemplated.

Traumatic intracranial aneurysms in childhood and adolescence. Case reports and review of the literature

We report four pediatric traumatic intracranial aneurysms occurring before the age of 10 years. Two of these aneurysms were the result of closed head injury. The remaining two were iatrogenic aneurysms which occurred in unusual circumstances. These four children represent 33% of the pediatric intracranial aneurysms seen at the Children's Hospital of Eastern Ontario from 1974 to 1992. Diagnosis of traumatic intracranial aneurysms requires a high index of suspicion: any head-injured or postoperative child who experiences delayed neurologic deterioration, or who fails to improve as expected following treatment, should promptly undergo diagnostic intracranial imaging. Documented subarachnoid hemorrhage, intracerebral or intraventricular hemorrhage, or subdural haematoma in this clinical setting should be further investigated by cerebral angiography to exclude a traumatic aneurysm or other vascular lesion. Traumatic aneurysms typically arise at the skull base or from distal anterior or middle cerebral arteries or branches consequent to direct mural injury or to acceleration-induced shear. Reported traumatic aneurysms account for 14%-39% of all pediatric aneurysms. Iatrogenic aneurysms also occur with unexpected frequency during childhood and adolescence. Pediatric traumatic cerebral aneurysms may present early or late. Most present early with intracranial hemorrhage. Late presentation occurs infrequently, typically as an aneurysmal mass. Once diagnosed, these aneurysms should be promptly treated by craniotomy employing routine microsurgical techniques, or in some cases, by endovascular detachable balloon techniques. Delay in operative treatment entails significant risks of repeated hemorrhage and death. Outcome in these children is primarily determined by the extent of traumatic cerebral injury and the preoperative clinical status. The latter directly depends upon diagnosis of the aneurysm prior to either initial or repeated hemorrhage.