Osteomas of the paranasal sinuses are usually asymptomatic. When enlarged, they could give rise to intracranial manifestations and serious complications. Osteomas most commonly affect the fronto-ethmoid sinuses. They rarely show intra-orbital extension or cause intracranial complications such as CSF rhinorrhea, pneumocephalus and intracranial infection. We report two unusual cases of frontal osteomas complicated by rare manifestations such as intracranial mucocele, CSF leak, pneumocephalus and bacterial meningitis. We demonstrate the importance of these intracranial manifestations when these lesions are accompanied by neurological symptoms and signs with special emphasis on the importance of early treatment.
Spinal arachnoid cysts are relatively uncommon an intramedullary location is believed to be extremely rare. A 35 year old woman, admitted with progressive weakness in the lower limbs, was diagnosed as having a thoracic intramedullary arachnoid cyst. After bilateral dorsal root entry zone myelotomy procedures and wide fenestration was performed, there was a dramatic and immediate recovery. This is the first intramedullary arachnoid cyst reported to be treated by this approach and the long term outcome discussed.
Traumatic injury to central nervous system results in the production of inflammatory cytokines via intrinsic mechanisms by neurons, astrocytes and microglia, and extrinsic mechanisms by infiltrating macrophages, lymphocytes and other leukocytes. Interleukin-1 beta is the key mediator of the acute inflammatory host response. While this response is necessary for resolution of the pathologic event, the toxic nature of many of its products can cause significant tissue damage. We analyzed serum interleukin-1 beta levels by enzyme-linked immunosorbent assay in 48 patients with solitary head injury who were transported to our clinic immediately after trauma. We categorized the patients according to their initial Glasgow coma scores in three groups, and compared their serum interleukin-1 beta values both with their Glasgow coma initial and outcome scores. This study helped to provide quantitative data to estimate clinical impressions and prognosis after head injury.
IntroductionMagnetic resonance imaging (MRI) has facilitated the diagnosis of syringomyelia in recent years, providing sharp delineation of syrinxes and accurate identification of malformations at the cranio-cervical junction. What is the mechanism of origin and maintenance of syringomyelia? Syringomyelia cannot be ascribed to a single pathophysiological mechanism, and its etiology and natural history are quite variable. It occurs in relation to intramedullary tumors, compressive myelopathy, spinal trauma, hydrocephalus and anomalies such as the Chiari malformation. Syringomyelia, is most frequently associated with Chiari malformation, and several hypotheses have been proposed to explain its pathophysiology in this particular manifestation.One explanation for syrinx formation, which has recently been reported by Oldfield et al. [18], requires no Abstract Great variety exists in the indications and techniques recommended for the surgical treatment of syringomyelia-Chiari complex. More recently, magnetic resonance (MR) imaging has increased the frequency of diagnosis of this pathology and offered a unique opportunity to visualize cavities inside the spinal cord as well as their relationship to the cranio-cervical junction. This report presents 18 consecutive adult symptomatic syringomyelia patients with Chiari malformation who underwent foramen magnum decompression and syringosubarachnoid shunting. The principal indication for the surgery was significant progressive neurological deterioration. All patients underwent preoperative and postoperative MRI scans and were studied clinically and radiologically to assess the changes in the syrinx and their neurological picture after surgical intervention. All patients have been followed up for at least 36 months. No operative mortality was encountered; 88.9% of the patients showed improvement of neurological deficits together with radiological improvement and 11.1% of them revealed collapse of the syrinx cavity but no change in neurological status. None of the patients showed further deterioration of neurological function. The experience obtained from this study demonstrates that foramen magnum decompression to free the cerebro-spinal fluid (CSF) pathways combined with a syringosubarachnoid shunt performed at the same operation succeeds in effectively decompressing the syrinx cavity, and follow-up MR images reveal that this collapse is maintained. In view of these facts, we strongly recommend this technique, which seems to be the most rational surgical procedure in the treatment of syringomyeliaChiari complex.
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