Severe head injury in children: emergency access to neurosurgery in the United Kingdom.
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OBJECTIVE: To determine the scale of acute neurosurgery for severe traumatic brain injury (TBI) in childhood, and whether surgical evacuation for haematoma is achieved within four hours of presentation to an emergency department. METHODS: A 12 month audit of emergency access to all specialist neurosurgical and intensive care services in the UK. Severe TBI in a child was defined as that necessitating admission to intensive care. RESULTS: Of 448 children with severe head injuries, 91 (20.3%) underwent emergency neurosurgery, and 37% of these surgical patients had at least one non-reactive and dilated pupil. An acute subdural or epidural haematoma was present in 143/448 (31.9%) children, of whom 66 (46.2%) underwent surgery. Children needing surgical evacuation of haematoma were at a median distance of 29 km (interquartile range (IQR) 11.8-45.7) from their neurosurgical centre. One in four children took longer than one hour to reach hospital after injury. Once in an accident and emergency department, 41% took longer than fours hours to arrive at the regional centre. The median interval between time of accident and arrival at the surgical centre was 4.5 hours (IQR 2.23-7.73), and 79% of inter-hospital transfers were undertaken by the referring hospital rather than the regional centre. In cases where the regional centre undertook the transfer, none were completed within four hours of presentation-the median interval was 6.3 hours (IQR 5.1-8.12). CONCLUSIONS: The system of care for severely head injured children in the UK does not achieve surgical evacuation of a significant haematoma within four hours. The recommendation to use specialist regional paediatric transfer teams delays rather than expedites the emergency service. (+info)
BACKGROUND AND AIMS: Delayed traumatic hematomas and expansion of already detected hematomas are not uncommon. Only few studies are available on risk factors of expanding hematomas. A prospective study was aimed to find out risk factors associated with such traumatic lesions. MATERIALS AND METHODS: Present study is based on 262 cases of intracerebral hematomas / contusions out of which 43 (16.4%) hematomas expanded in size. computerized tomography (CT) scan was done in all the patients at the time of admission and within 24 hours of injury. Repeat CT scan was done within 24 hours, 4 days and 7 days. Midline shift if any, prothrombin time, activated partial thromboplastin time, bleeding time, clotting time and platelet counts, Glasgow coma scale at admission and discharge and Glasgow outcome score at 6 months follow up were recorded. RESULTS: Twenty six percent, 11.3 and 0% patients developed expanding hematoma in Glasgow Coma scale (GCS) of 8 and below, 9-12 and 13-15 respectively. The chances of expanding hematomas were higher in patients with other associated hematomas (17.4%) as compared to isolated hematoma (4.8%) (Fisher's exact results P =0.216). All the cases of expanding hematoma had some degree of midline shift and considerably higher proportion had presence of coagulopathy. The results of logistic regression analysis showed GCS, midline shift and coagulopathy as significant predictors for the expanding hematoma. Thirty nine patients (90.7%) of the total expanding hematomas developed within 24 hours of injury. CONCLUSIONS: Enlargement of intracerebral hematomas is quite common and majority of them expand early after the injury. These lesions were common in patients with poor GCS, associated hematomas, associated coagulopathy and midline shift. (+info)
Cerebral endothelial damage after severe head injury.
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We demonstrate that in head injuries the degree of cerebral endothelial activation or injury depends on the type of brain injury and the patients age, and that in severe head injuries measuring the serum levels of thrombomodulin (TM) and von Willebrand factor (vWF) is useful in evaluating cerebral endothelial injury and activation. The values of vWF in the cases of focal brain injury were significantly higher than in the cases of diffuse axonal injury. The serum levels of TM in focal brain injuries were higher than in diffuse axonal injuries, but the differences were not statistically significant. In patients with delayed traumatic intracerebral hematoma (DTICH), vWF levels were much higher than in patients without DTICH. The values of TM and vWF in elderly patients were significantly higher than in younger patients. These findings indicate that: 1) the degree of endothelial activation in focal brain injury is significantly higher than in diffuse brain injury; 2) the degree of cerebral endothelial injury in patients with DTICH is much higher than in those without DTICH; and 3) the degree of cerebral endothelial activation and injury in elderly head injury patients is significantly higher than in younger patients. (+info)
Clinical review: Critical care management of spontaneous intracerebral hemorrhage.
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Timing of craniotomy in a patient with multiple trauma including head injury.
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A 7-year-old boy suffered blunt multiple injuries to the head, face, chest, and abdomen in a motor vehicle accident. On admission he had impaired consciousness and dyspnea. Radiographic studies revealed facial fracture and pulmonary contusion. Shortly after admission, he fell into shock due to intraabdominal bleeding. Laparotomy revealed spleen rupture. His vital signs remained unstable and bloody drainage from the abdominal cavity continued after surgery. Computed tomography showed traumatic intracerebral hematoma in the right temporal lobe, enlarging and compressing the brainstem. Abdominal reoperation was performed first to control the bleeding and stabilize the hemodynamics, disclosing renal laceration. Then evacuation of the intracerebral hematoma and decompressive craniectomy was performed. Postoperatively, his hemodynamics were stabilized. Clinical course was uneventful and neurological deficits gradually improved. Three months after the trauma, the patient was discharged on foot. This case emphasizes the importance of hemodynamic stability in decisions of neurosurgical indication and timing in patients with multiple trauma including head injury. (+info)
Gunshot injuries due to celebratory gun shootings.
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Traditional shooting with guns often occurs and leads to unwanted gunshot injuries in areas where celebrations are held. Such injuries have been classified as celebratory gun shooting injury in the international disease classification system. CASE: An 8-year-old female patient presented with respiratory arrest. The heartbeats normalized upon cardiopulmonary resuscitation. On physical examination, the only pathological finding was a skin defect measuring 1 x 1 cm on the midline and located 2 cm in front of the coronal suture. Cranial CT revealed a bone defect of 0.5 cm in the area 2 cm in front of the coronal suture on the midline, tetraventricular and extensive subarachnoid hemorrhage and parenchymal hematoma in the frontal area. It was initially thought to be a gunshot injury; however, on cranial CT, no bullet fragments or bullet exit hole was observed. A cervicothoracal direct graph was obtained and an image that might have been compatible with a bullet core was detected at Th 2-3 vertebra level. CONCLUSION: Although gunshot injuries are generally well- known, this may not be a very familiar topic for neurosurgeons. The primary aim of this report is to emphasize that a bullet round randomly fired into the air ascends in reverse direction to gravity and after reaching a zero point, it returns to the ground at a high velocity that facilitates its penetration into the skull according to a principal physics law. (+info)
Susceptibility-weighted magnetic resonance imaging for the detection of cerebral microhemorrhage in patients with traumatic brain injury.
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The sensitivity of susceptibility-weighted magnetic resonance (MR) imaging was compared with conventional MR sequences, including T(2)*-weighted imaging, and computed tomography for the detection of cerebral hemorrhages in 15 patients with head injury. Susceptibility-weighted imaging detected a mean of 76+/-52 (total 1132) hypointense spotty lesions, compared to a mean of 21+/-19 (total 316) detected by T(2)*-weighted imaging (p<0.0001, paired t-test). Susceptibility-weighted imaging is extremely sensitive for the visualization and detection of microhemorrhages. (+info)
Deferoxamine reduces intracerebral hematoma-induced iron accumulation and neuronal death in piglets.
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