for the Bavarian Reperfusion Alternatives Evaluation (BRAVE) Study Investigators I N HOSPITALS WITH CATHETERIZAtion facilities, primary percutaneous coronary interventions (PCIs) are better than thrombolysis in patients with ST-segment elevation acute myocardial infarction (MI). 1 Specifically designed randomized trials have also shown that patients with acute MI presenting at hospitals without catheterization facilities benefit more from PCI performed after transfer to centers with catheterization laboratories than from on-site thrombolysis. 2-6
With the increasing use of cross-sectional echocardiography in patients with overt or suspected pulmonary thromboembolism in the emergency rooms, more and more right atrial thrombi are detected. These are so-called "transitthrombi" from the venous system on their way to the pulmonary arteries and they are a severe presentation of thromboembolic disease. They appear as an imminent pulmonary embolism and usually coexists with an already massive embolism. In patients were a right atrial thrombus is associated with a patent foramen ovale, paradoxical arterial embolism has been observed. Right sided heart thrombi have a high mortality rate and need immediate treatment. In our hospital we have seen 14 patients with right atrial thrombi and pulmonary embolism in a period of 6 years. Three patients had cardiac arrest with a massive pulmonary embolism, seven patients presented with a submassive embolism. All patients were treated immediately after echocardiographic diagnosis without pulmonary angiography. In about half of the cases transesophageal echocardiography was done additionally for diagnosis and monitoring. Therapeutic options were thrombectomy, fibrinolysis or anticoagulants. We treated one of our patients with thrombectomy, eleven patients with fibrinolysis and two patients with anticoagulants.
Transoesophageal sonography is an excellent addition to the already well established staging methods in staging lung cancer. This examination clearly has advantages over the conventional methods (CT scan) for the diagnosis of vessel involvement, extrinsic compression of the heart, and for the recognition of lymph node metastases. The limitation of this examination is the restriction to the paraoesophageal area and reduced effectiveness in areas filled with air and other nonconductive structures.
Introduction of air into the arterial circulation can cause cerebral air embolism, leading to severe neurological deficits. A case is reported on a patient suffering from fatal cerebral air embolism after a subclavian vein catheter had been inserted. The risks associated with inserting and removing central venous catheters are described. Apart from the pathogenesis of a paradoxical air embolism in a patient with a right-to-left shunt due to a patent foramen ovale, air embolism can occur if a large amount of air traverses the pulmonary circulation. The ability of the pulmonary vasculature to filter air may be exceeded by a bolus injection of more than 30 ml air. Air embolism is suspected if acute neurological symptoms occur after inserting a central venous catheter. Echocardiography, especially transoesophageal echocardiography. Is highly sensitive in detecting air emboli in the ventricles. Treatment is effected with hyperbaric oxygen and standard measures of intensive-care medicine.
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