S Pieri1, P Agresti. 1. U.O.C. Radiologia Vascolare ed Interventistica, Az. Ospedaliera S. Camillo-Forlanini, Via F. Algarotti 8, Rome, Italy. stepieri@excite.it
Abstract
PURPOSE: Massive pulmonary embolism is a severe clinical condition that requires prompt therapeutic intervention. We report our experience with a hybrid treatment involving systematic fragmentation of the embolus with an angiographic catheter associated with fibrinolytic therapy over the following days. MATERIALS AND METHODS: From 1999-2005 we treated 164 patients with massive pulmonary embolism. We used the same angiographic catheter for mechanical fragmentation and for administration of the fibrinolytic agent (24-72 h). Results were assessed on the basis of changes in mean pulmonary artery pressure. RESULTS: After fragmentation with the angiographic catheter, we observed four types of haemodynamic behaviour: in 61 patients (41.4%), mean pulmonary artery pressure fell rapidly below 30 mmHg; in 38 patients (23.1%), two passes were required to achieve the same result; in 32 patients (19.5%) three passes were required. In the remaining 26 patients (15.8%), at no time did the mean pulmonary artery pressure fall below 35 mmHg. The only two deaths occurred in this last group. CONCLUSIONS: Mechanical fragmentation with the angiographic catheter and administration of fibrinolytic agents effectively brought about a rapid improvement in patients' clinical status by moving the embolus towards the periphery.
PURPOSE: Massive pulmonary embolism is a severe clinical condition that requires prompt therapeutic intervention. We report our experience with a hybrid treatment involving systematic fragmentation of the embolus with an angiographic catheter associated with fibrinolytic therapy over the following days. MATERIALS AND METHODS: From 1999-2005 we treated 164 patients with massive pulmonary embolism. We used the same angiographic catheter for mechanical fragmentation and for administration of the fibrinolytic agent (24-72 h). Results were assessed on the basis of changes in mean pulmonary artery pressure. RESULTS: After fragmentation with the angiographic catheter, we observed four types of haemodynamic behaviour: in 61 patients (41.4%), mean pulmonary artery pressure fell rapidly below 30 mmHg; in 38 patients (23.1%), two passes were required to achieve the same result; in 32 patients (19.5%) three passes were required. In the remaining 26 patients (15.8%), at no time did the mean pulmonary artery pressure fall below 35 mmHg. The only two deaths occurred in this last group. CONCLUSIONS: Mechanical fragmentation with the angiographic catheter and administration of fibrinolytic agents effectively brought about a rapid improvement in patients' clinical status by moving the embolus towards the periphery.