A rapamycin-eluting stent was dislodged during attempt of implantation at the proximal right coronary artery,which was found by fluoroscopy to have migrated into the anterior trunk of the left renal artery.We chose a ...A rapamycin-eluting stent was dislodged during attempt of implantation at the proximal right coronary artery,which was found by fluoroscopy to have migrated into the anterior trunk of the left renal artery.We chose a 5 mm diameter Amplatz gooseneck snare and successfully retrieved the lost stent from the lodging vessel.展开更多
Purpose: To investigate the feasibility and effectiveness of in situ formation of the loop snare technique for retrieval of foreign bodies from vessels. Materials and methods: We retrospectively reviewed in situ forma...Purpose: To investigate the feasibility and effectiveness of in situ formation of the loop snare technique for retrieval of foreign bodies from vessels. Materials and methods: We retrospectively reviewed in situ formation of the loop snare technique for retrieval of foreign bodies in 6 patients. After placing the guide wire and the loop of the gooseneck snare on each side of the tubes, the soft tip of the guide wire was caught with the gooseneck snare to form a new loop structure. The foreign body was retrieved with the new loop snare by combining the gooseneck snare and the guide wire. We reviewed the application of this technique in 6 patients with fractured central venous catheters without free ends. Results: With in situ formation of the loop snare technique, the internal ruptured catheter was successfully removed from all of the 6 patients in about 2 to 4 min. There were no complications such as arrhythmia or heart valve injury in the 6 patients with the distal end of the fragment in the pulmonary artery or right atrium. Conclusion: The in situ formation loop snare technique is an effective and fast means of retrieving tubular foreign bodies without free ends from vessels. Further research is needed to investigate the practical utility of the method for retrieval of all kinds of foreign bodies.展开更多
基金supported by a grant from the Six-Major-Talent-Summit Project of Jiangsu Province,China (No. 2008-329)a grant from the New Technology Development Project of the First Affiliated Hospital of Nanjing Medical University,Nanjing,China (No. 2008-201)
文摘A rapamycin-eluting stent was dislodged during attempt of implantation at the proximal right coronary artery,which was found by fluoroscopy to have migrated into the anterior trunk of the left renal artery.We chose a 5 mm diameter Amplatz gooseneck snare and successfully retrieved the lost stent from the lodging vessel.
基金funded by the National Natural Science Foundation of China(No.81471766)
文摘Purpose: To investigate the feasibility and effectiveness of in situ formation of the loop snare technique for retrieval of foreign bodies from vessels. Materials and methods: We retrospectively reviewed in situ formation of the loop snare technique for retrieval of foreign bodies in 6 patients. After placing the guide wire and the loop of the gooseneck snare on each side of the tubes, the soft tip of the guide wire was caught with the gooseneck snare to form a new loop structure. The foreign body was retrieved with the new loop snare by combining the gooseneck snare and the guide wire. We reviewed the application of this technique in 6 patients with fractured central venous catheters without free ends. Results: With in situ formation of the loop snare technique, the internal ruptured catheter was successfully removed from all of the 6 patients in about 2 to 4 min. There were no complications such as arrhythmia or heart valve injury in the 6 patients with the distal end of the fragment in the pulmonary artery or right atrium. Conclusion: The in situ formation loop snare technique is an effective and fast means of retrieving tubular foreign bodies without free ends from vessels. Further research is needed to investigate the practical utility of the method for retrieval of all kinds of foreign bodies.
