Recent clinical trials have revealed that accurate histologic typing of non-small cell lung cancer is essential. Until now, squamous cell carcinoma (SQC) and adenocarcinoma (ADC) markers have not been thoroughly analyzed for pulmonary neuroendocrine carcinomas (NECs). We analyzed the expression of 8 markers [p63, cytokeratin (CK) 5/6, SOX2, CK7, desmocollin 3, thyroid transcription factor-1 (8G7G3/1 and SPT24), and napsin A] in 224 NECs. SOX2 (76.2%) had the greatest expression for NECs. CK5/6 (1.4%), desmocollin 3 (0.5%), and napsin A (0%) were expressed less or not at all in NECs. Although our investigated markers have been reported useful for differentiating between SQC and ADC, some of them were also present in a portion of pulmonary NECs. In our study, CK5/6 and desmocollin 3 were highly specific markers for SQC, and napsin A was highly specific for ADC. These markers are recommended for diagnosis of poorly differentiated non-small cell lung cancer.
Histologic distinction among non-small cell lung carcinomas, particularly between squamous cell carcinoma (SQC) and adenocarcinoma (ADC), has become more important. Recently, a p40 antibody was suggested to be a highly specific marker for SQC. We evaluated p40 expression and compared it with the expression of other SQC markers in 580 primary lung carcinomas, including 158 SQCs, 156 ADCs, 50 carcinoid tomors, 107 large cell neuroendocrine carcinomas, 68 small cell lung carcinomas, and 41 malignant mesotheliomas. Detailed histologic distributions of p40-positive cases were as follows: 153 (96.8%) of 158 SQCs, 7 (4.6%) of 152 ADCs, 0 (0%) of 50 carcinoid tomors, 4 (3.6%) of 107 large cell neuroendocrine carcinomas, 1 (1.5%) of 68 small cell lung carcinomas, and 1 (2.4%) of 41 mesotheliomas. p40 staining yields high sensitivity as well as high specificity for distinguishing SQC from ADC, neuroendocrine carcinomas, and malignant mesothelioma.
Cardiac rupture is defined as a full-thickness myocardial tear; this injury after blunt chest trauma is rare, and is associated with high mortality. Blunt cardiac rupture typically presents with either cardiac tamponade or massive hemothorax, and is often unrecognized in the context of blunt chest trauma. It is a little known fact that pericardial effusions can decrease due to pericardial lacerations. Hence, cardiac rupture with pericardial lacerations may be easily overlooked especially by chest surgeons. We herein report a case of hemothorax caused by rupture of the left atrial appendage. An 80-year-old male was involved in a motor vehicle crash. We made the diagnosis of hemothorax on the basis of bloody thoracic effusion and left pleural effusion on computed tomography (CT). CT also showed small pericardial effusion in amount and non-displaced rib fractures. We made a tentative diagnosis of intercostal artery injury with rib fractures, we performed left thoracotomy. However, in the operating room, we recognized that cardiac rupture led to massive hemothorax, and that hemothorax was not associated with intercostal artery injury. We repaired left atrial appendage rupture, and his postoperative course was uneventful. Cardiac rupture can present as slight pericardial effusion with hemothorax. On the basis of this case, we propose that cardiac rupture should be considered at the time of hemothorax examination with careful attention to pericardial effusions.
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