• Journal of Trauma and Injury
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• v.26 no.3
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• pp.233-237
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• 2013

Delayed traumatic intracerebral hemorrhage (DT-ICH) is a rare event in head trauma patients. However, it develops unexpectedly and results in very severe brain damage. Thus, close monitoring of the neurologic status is needed for every trauma patient. Sometimes, however, neurologic monitoring cannot be done because of sedation, especially in cases of abdominal surgery. In this case report, we describe the case of a 37-yr-old, male patients who had hemoperitoneum because of spleen and renal injury. At the initial operation, massive bleeding was found, so gauze-packing surgery was done first. After the first operation, we sedated the patient for about two days, after which the packed gauze was removed, and the abdominal wound was closed. Immediately after the second operation, we found pupil dilation. Emergent CT was performed. The CT revealed DT-ICH with severe brain edema and midline shifting. However, the patient condition deteriorated progressively despite emergency operation, he expired 2 days after hematoma evacuation.

• Journal of Chest Surgery
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• v.22 no.2
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• pp.308-314
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• 1989

Pulmonary sequestration is a congenital malformation characterized by an area of embryonic lung tissue that derives its blood supply from an anomalous systemic artery. Two forms recognized: extralobar and intralobar. Extralobar form is a very rare congenital malformation, usually located in the lower chest, and may be found in newborn infants at the time a congenital diaphragmatic hernia is repaired. Large sequestrated segments may be cause acute respiratory distress in the neonate. The condition is asymptomatic in 15 per cent of patients. This report presents two cases of pulmonary sequestration which misdiagnosed a superior mediastinal tumor and a benign lung tumor. First case was 30-year-old male patient and chief complaints were dyspnea, dry cough and right chest pain. Chest X-ray showed a homogenous increased density of smooth margin at the right superior mediastinal area and suggested a benign mediastinal tumor. And so explothoracotomy was made without other special studies. Second case was 28-year-old male patient. One month ago, he had tracheostomy and right closed thoracostomy due to massive hemoptysis and spontaneous hemothorax. Chest X-ray showed a benign cystic lesion at RLL area. At the time of operation, in first case, a mass of adult fist size was placed medial to the right upper lobe and densely adhesive to trachea, SVC and esophagus. Blood supply of the mass was bronchial arteries of trachea and RUL bronchus and drained to SVC and azygos vein through anomalous systemic veins. There was no bronchial communication on Frozen biopsy. In 2nd case, large cystic lesion contained old blood hematoma was located in RLL and anomalous blood vessel from thoracic aorta was drained to posterior segment of RLL. In operation field, intralobar pulmonary sequestration was diagnosed, and RLL lobectomy was carried out.

• Journal of Trauma and Injury
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• v.36 no.4
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• pp.435-440
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• 2023

Mesenteric injury occurs rarely in cases associated with blunt abdominal trauma. Despite its low incidence, mesenteric injury can lead to fatal outcomes such as hypovolemic shock due to hemoperitoneum or sepsis due to intestinal ischemia, or perforation-related peritonitis. For mesenteric injuries, especially those involving massive bleeding, intestinal ischemia, and perforation, the standard treatment is surgery. However, in the case of operative management, it should be borne in mind that there is a possibility of complications and mortality during and after surgery. The usefulness of transcatheter arterial embolization (TAE) is well known in solid organs but is controversial for mesenteric injury. We present a 75-year-old man with mesenteric injury due to blunt abdominal trauma. Initial abdominal computed tomography showed no hemoperitoneum, but a mesenteric contusion and pseudoaneurysm with a diameter of 17 mm were observed near the origin of the superior mesenteric artery. Since there were no findings requiring emergency surgery such as free air or intestinal ischemia, it was decided to perform nonoperative management with TAE using microcoils in hybrid emergency room system. TAE was performed successfully, and there were no complications such as bleeding, bowel ischemia, or delayed bowel perforation. He was discharged on the 23rd day after admission with percutaneous catheter drainage for drainage of mesenteric hematoma. The authors believe that treatment with TAE for highly selected elderly patients with mesenteric injuries has the positive aspect of minimally invasive management, considering the burden of general anesthesia and the various avoidable intraoperative and postoperative complications.

• Journal of Korean Neurosurgical Society
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• v.29 no.8
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• pp.1126-1135
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• 2000

Objectives : The goal of surgical management of cerebral arteriovenous malformation(AVM) is elimination of the lesion without development of new neurological deficits. To improve the management results of cerebral AVMs in the future, this article discusses about surgical complications of the AVM and their management. Material and Methods : During the past 18 years, 116 patients with cerebral AVMs were managed by surgery. Among these cases, 7 cases died, 7 cases developed new neurological deficits, 11 cases residual AVM and 5 cases intracerebral hematoma(ICH) after surgery. The author analyzes the causes of those complications and investigates the methods to minimized those complications based on the review of the literatures. Results : One stage removal of AVM and ICH in the poor neurological state were performed in 5 of 7 death cases. Subtotal removal of ICH followed by delayed AVM surgery after recovery is regard as one method to improve the outcome of patient with large ICH. Postoperative new neurological deficits developed owing to normal perfusion pressure breakthrough(NPPB) in 3, judgement error in 2, preoperative embolization in 1 and cortical injury in 1 case(s). Proper management of NPPB, accurate anatomical knowledge and physiological monitoring during operation, and well trained skill for embolization are regard as methods to minimize those complications. Residual AVMs after surgery were noticed in 11 cases, in which unintended 6 cases due to inaccurate dissection of peripheral margin of AVM, and intended 3 cases due to massive brain swelling during operation, 1 cases due to diffuse type and 1 case due to multiple type of AVM. Accurate dissection of peripheral margin of AVM and mild hypotension during operation may help to avoid this complication. Postoperative hemorrhage occurred in 3 cases due to rupture of the residual AVM and in 2 cases due to oozing from the AVM bed. Complete resection of AVM, complete control of bleeding points at AVM bed and mild hypotension during early postoperative period are the methods to avoid this complication. Conclusion : A precise but flexible therapeutic strategy and refined skill for endovascular, radiosurgical and microsurgical techniques are required to successful treatment of cerebral AVM. Adequate timing of AVM resection, accurate anatomical knowledge, proper management of NPPB and accurate dissection of peripheral margin of AVM are the key points for avoiding complications of the AVM surgery.

• Journal of Trauma and Injury
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• v.23 no.2
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• pp.170-174
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• 2010

Purpose: As techniques and instruments for video-assisted thoracic surgery (VATS) have been evolving, attempts to perform VATS for chest trauma have been increasing. Several studies have demonstrated the feasibility and safety of VATS for thoracic trauma. We reviewed our experience to evaluate the clinical feasibility and safety of VATS for thoracic trauma. Methods: Fifty-two patients underwent thoracic surgery for chest trauma in Asan Medical Center from January 1990 to December 2009. VATS was performed in 21 patients who showed stable vital signs. We reviewed retrospectively the medical records of those patients to investigate the results of VATS for thoracic trauma. Results: Thoracic exploration for chest trauma was performed in 52 patients. There were 46 males (88.5%) and 6 females (11.5%). The median age was 46.0 years (range: 11~81 years). There were 39 blunt and 13 penetrating traumas. A standard posterolateral thoracotomy was performed in 31 patients, and VATS was tried in 21 patients. We performed successful VATS in 13 patients; 11 males (84.5%) and 2 females (15.5%) with a median age of 46.0 years (range: 24~75 years). The indication of VATS was persistent intrathoracic hemorrhage in 10 patients and clotted hemothorax in 3 patients. There were no complications, but there were two mortalities due to multiple organ failure after massive transfusion. In 8 patients, VATS was converted to a standard posterolateral thoracotomy for several reasons. The reason was inadequate visualization for bleeding control or evacuation of the hematoma in 5 patients. In 3 patients, VATS was performed to evaluate diaphragmatic injury. After the diaphragmatic injury had been confirmed, a standard posterolateral thoracotomy was performed to repair the diaphragm. Conclusion: VATS should be safe and efficient method for diagnostic evaluation and surgical management of stable patients with thoracic trauma.