Encephalocele ; pathology ; Granulomatosis with Polyangiitis ; pathology ; Histiocytosis, Sinus ; pathology ; Humans ; Otorhinolaryngologic Diseases ; pathology ; Pathology ; trends ; Precancerous Conditions ; pathology ; Tuberculosis, Laryngeal ; pathology

Atretic encephaloceles or myelomeningoceles are frequently solid due to hamartomatous proliferation of fibrous tissue and blood vessels. Because of the fibrous nature of the tumor with no cystic cavity and unusual location with no connection to CNS, they are frequently regarded as insignificant hamartomas. Apart from this terminology, they are also described as cutaneous meningiomas or hamartomas with ectopic meningothelial elements by the presence of meningothelial cells. We report a case of atretic encephalocele in the parietal scalp of an 8 year-old boy and a case of myelomeningocele in the posterior mediastinum of a 31 year-old woman. The terms atretic encephalocele and myelomeningocele are more appropriate for these cases because they include their pathogenesis and the non-neoplastic nature of the lesion.
Adult ; Case Report ; Child ; Encephalocele/*pathology ; Female ; Human ; Magnetic Resonance Imaging ; Mediastinal Neoplasms/*pathology ; Mediastinum/*pathology ; Meningomyelocele/*pathology ; Scalp/*pathology

An encepholocele is defined as a herniation of cranial contents through a defect in the skull. Encephaloceles are classified accroding to their contents and location. Encephalocele is a useful general term to refer to common features of the various forms of anomaly, but considerable differences exist in the pathology, treatment and prognosis of encephaloceles at each anatomical location. Improved neuroimaging facilities, especially MRI, make it easy not only to detect the encephalocele including its contents and location, but also to get preoperative informations. We have reviewed a total of 22 patients with encephalocele whom we have experienced from 1986, July to 1990, June. Twelve were at occipital location, six at cranial vault, three at cranial base, one at frontoethmoidal location. The size of cranium bifidum and herniating sac of the cranial vault and occipital location is larger than that of frontobasal location. The incidence of associated hydrocephalus is in order of occipital, cranial vault, frontobasal form, and its prognosis is also better in frontobasal form than in occipital of cranial vault form.
Encephalocele* ; Humans ; Hydrocephalus ; Incidence ; Magnetic Resonance Imaging ; Neuroimaging ; Pathology ; Prognosis ; Skull ; Skull Base

Diagnostic Errors ; Encephalocele ; diagnosis ; Female ; Humans ; Meningocele ; diagnosis ; Middle Aged ; Mucocele ; diagnosis ; Sphenoid Sinus ; pathology

OBJECTIVETo assess the morphologic changes in traumatic cerebral infarction and to discuss its mechanism.

METHODSSpecimens from seventeen cases of cerebral infarction were selected from 81 patients with severe brain injury, and subject to routine gross and histological examinations.

RESULTS(1) The cerebral infarction in all cases was hemorrhagic in nature with a wedged or irregular shape upon gross inspection. The lesions were found in occipital gyrus (8 cases), occipital lobes (3 cases), basal nuclei (3 cases), cingulate gyrus (2 cases), and lateral occipitotemporal gyrus (1 case). Histologically, the lesions were located at the junction between the cortex and medulla, showing congestion, edema, hemorrhage, necrotic nerve tissue and blood vessels. In severe cases, the lesion extended into the entire cortex and subarachnoid spaces. (2) Swelling of the brain and cerebral hernia were found in all cases, 8 of which demonstrated that the posterior cerebral artery was compressed and stenotic within the space between the crus cerebri and uncus.

CONCLUSIONBrain tissue necrosis in traumatic cerebral infarction is the result of brain swelling and cerebral hernia formation, following congestion, bleeding and ischemia due to vasculature compression.

Adolescent ; Adult ; Brain ; pathology ; Brain Edema ; complications ; Cerebral Infarction ; etiology ; pathology ; Craniocerebral Trauma ; complications ; Encephalocele ; complications ; Female ; Humans ; Male

A case of traumatic delayed meningo-encephalocele suffered orbital fracture, but bony defects in frontal sinus had not been found on CT scanning. We treated the patient with surgery of intranasal endoscopy and repaired the skull base defect successfully during the first attempt. There was no recurrence in 10 months followed up. The leak site may not correlate with imaging in traumatic delayed meningo-encephalocele by comparing operative findings with the imaging estimate and endoscopy. Therefore, endoscopical approaching is effective in seeking and treatment.
Encephalocele ; complications ; Endoscopy ; Exophthalmos ; etiology ; Frontal Sinus ; pathology ; Humans ; Orbital Fractures ; pathology ; Recurrence ; Tomography, X-Ray Computed

Adolescent ; Adult ; Child ; Child, Preschool ; Choristoma ; metabolism ; pathology ; surgery ; Encephalocele ; metabolism ; pathology ; surgery ; Female ; Glial Fibrillary Acidic Protein ; metabolism ; Humans ; Infant ; Male ; Meningocele ; metabolism ; pathology ; surgery ; Middle Aged ; Mucin-1 ; metabolism ; Neuroglia ; metabolism ; pathology ; Nose Diseases ; metabolism ; pathology ; surgery ; S100 Proteins ; metabolism ; Vimentin ; metabolism ; Young Adult