Treating Pulsatile Exophthalmos in Child with Minimally Invasive Approach and Custom-made Titanium Mesh Plate

Natural History of Traumatic Encephaloceles: A Systematic Literature Review

Encephaloceles rarely develop following traumatic skull fractures. Given their low incidence, the clinical presentations and management strategies of these lesions are confined to case reports and limited case series. A systematic literature review was performed using PubMed, Ovid, and Web of Science databases to identify relevant articles using Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. A total of 37 articles met inclusion criteria, including the case presented herein. These articles reported 52 traumatic encephaloceles. Mean patient age was 25.3 years (range 6 mo-66 y) with a male predominance (63%, 33/52). The most common bony defects resulting in encephalocele formation were the orbital roof (52%, 27/52), ethmoid (35%, 18/52), and sphenoid (10%, 5/52). Mean time from traumatic injury to initial presentation was 21.3 months (range 0 d-36 y) with a bimodal distribution split between immediately following the traumatic injury (57%, 26/46) or in a delayed manner (43%, 20/46). Common presentations of orbital roof, frontonasal, and temporal bone encephaloceles were exophthalmos (85%, 23/27), cerebrospinal fluid rhinorrhea (71%, 17/24), and hearing loss (100%, 4/4), respectively. Operative approach, repair technique, and materials used for encephalocele reduction were highly variable. Surgical intervention afforded definitive symptomatic improvement or resolution in the majority of cases (89%, 42/47). Clinical outcomes did not differ between orbital, frontonasal, or temporal bone encephaloceles ( P =0.438). Traumatic encephaloceles are a rare entity with diverse presenting symptomatology dependent upon the location of fracture dehiscence. Surgical intervention affords symptomatic improvement in the majority of cases irrespective of encephalocele location, time to presentation, or operative approach.

"Pulsating proptosis and heavy eye syndrome precipitated by neurofibromatosis type 1: A case report"

RATIONALE

Neurofibromatosis type 1 (NF1) is a hereditary disease characterized by café-au-lait spots, peripheral neurofibromas, Lisch nodules, optic nerve glioma, and sphenoid wing dysplasia. Pulsating proptosis is associated with a sphenoid bony defect. Heavy eye syndrome is characterized by acquired esohypotropia in patients with high myopia. This study aimed to describe the presentation of pulsating proptosis and heavy eye syndrome precipitated by NF1 and its management.

PATIENT CONCERNS

A 41-year-old woman presented with progressive pulsating proptosis and hypodeviation of the right eye over the past 2 years. The axial length of the right eye was 36.81 mm. The right eye presented with esohypotropia and hypoglobus. The ocular motility examination showed limitations in all directions, especially in supraduction. Brain computed tomography revealed sphenoid wing dysplasia of the right orbit. The meningocele protruded through the orbital defect, lifting the globe. Brain magnetic resonance imaging demonstrated superior rectus muscle (SR) medial displacement and lateral rectus muscle inferior displacement. Physical examination revealed café-au-lait macules and neurofibromas on the trunk.

DIAGNOSIS

NF1 with pulsating proptosis and heavy eye syndrome.

INTERVENTIONS

The patient declined neurosurgery due to risk and economic reasons. To manage her main concern regarding cosmetics, we performed orbital floor decompression, SR resection with advancement, maximal hang-back recession of the inferior rectus muscle, and a partial Jensen's procedure.

OUTCOMES

Proptosis was reduced. The eye position became more symmetrical. The range of eye movements was also increased.

LESSONS

This case describes a rare synchronous presentation of pulsating proptosis and heavy eye syndrome precipitated by NF1. Adult-onset presentation implied a progressive process in NF1. The case also showed a different etiology from that of typical heavy eye syndrome. It reminds ophthalmologists that orbital imaging should be performed in high myopia patients with strabismus to evaluate the extraocular muscle pathway. Furthermore, the case demonstrated a management that avoided the risk and expensive cost of neurosurgery, which has not been reported.

Advances in Multidisciplinary Management of Skull Base Meningiomas

The surgical management of Skull Base Meningiomas (SBMs) has radically changed over the last two decades. Extensive surgery for patients with SBMs represents the mainstream treatment; however, it is often challenging due to narrow surgical corridors and proximity to critical neurovascular structures. Novel surgical technologies, including three-dimensional (3D) preoperative imaging, neuromonitoring, and surgical instruments, have gradually facilitated the surgical resectability of SBMs, reducing postoperative morbidity. Total removal is not always feasible considering a risky tumor location and invasion of surrounding structures and brain parenchyma. In recent years, the use of primary or adjuvant stereotactic radiosurgery (SRS) has progressively increased due to its safety and efficacy in the control of grade I and II meningiomas, especially for small to moderate size lesions. Patients with WHO grade SBMs receiving subtotal surgery can be monitored over time with surveillance imaging. Postoperative management remains highly controversial for grade II meningiomas, and depends on the presence of residual disease, with optional upfront adjuvant radiation therapy or close surveillance imaging in cases with total resection. Adjuvant radiation is strongly recommended in patients with grade III tumors. Although the currently available chemotherapy or targeted therapies available have a low efficacy, the molecular profiling of SBMs has shown genetic alterations that could be potentially targeted with novel tailored treatments. This multidisciplinary review provides an update on the advances in surgical technology, postoperative management and molecular profile of SBMs.

Multidisciplinary Treatment of a Pediatric Orbital Roof Fracture: Case Report and Literature Review

Pediatric orbital roof fractures are a relatively rare trauma. In children, fractures of the facial skeleton can be associated with significant morbidity. Potential complications of orbital roof fracture include both neurosurgical complications such as frontal lobe injury, dural tears, or herniation, and ophthalmologic and reconstructive surgery problems such as proptosis, diplopia, and extraocular muscle entrapment. In most cases, surgical intervention is unnecessary, as these fractures are minimally displaced. When surgery is warranted, however, for displaced fractures or those associated with complications, a multidisciplinary approach is often indicated. Here, we report a case of a 10-year-old boy with a superiorly displaced orbital roof fracture resulting from a bicycle brake handle injury. The primary fragment was intracranially displaced and embedded in the inferior frontal lobe, causing frontal lobe herniation and left globe proptosis. A transcranial approach was performed using an autologous bone graft. In our case, a multidisciplinary surgical approach facilitated repair of both the dural and orbital injuries and multi-layer separation of the 2 spaces.