An Enhanced Device for Transluminal Retrieval of Vascular Stents Without Surgical Procedures: Experimental Studies

Background: Although efforts have been focused on developing endovascular procedures by which intravascular devices such as stents could be effectively deployed, few data exist regarding devices for the nonsurgical retrieval of deployed stents. Therefore, we designed to enable retrieval of deployed...

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Veröffentlicht in:	Journal of interventional cardiology 2010-06, Vol.23 (3), p.264-270
Hauptverfasser:	TSUCHIDA, MASAYUKI, KAWASHIRI, MASA-AKI, UCHIYAMA, KATSUHARU, SAKATA, KENJI, NAKANISHI, CHIAKI, TSUBOKAWA, TOSHINARI, TAKABATAKE, SHU, KONNO, TETSUO, INO, HIDEKAZU, YAMAGISHI, MASAKAZU
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Sprache:	eng
Schlagworte:	Angioplasty, Balloon, Laser-Assisted - instrumentation Angioplasty, Balloon, Laser-Assisted - methods Animals Coronary Vessels Equipment Design Feasibility Studies Foreign Bodies - therapy Foreign-Body Migration - therapy Humans Stents - adverse effects Surgical Instruments Swine Ultrasonography, Interventional
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container_title	Journal of interventional cardiology
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creator	TSUCHIDA, MASAYUKI KAWASHIRI, MASA-AKI UCHIYAMA, KATSUHARU SAKATA, KENJI NAKANISHI, CHIAKI TSUBOKAWA, TOSHINARI TAKABATAKE, SHU KONNO, TETSUO INO, HIDEKAZU YAMAGISHI, MASAKAZU
description	Background: Although efforts have been focused on developing endovascular procedures by which intravascular devices such as stents could be effectively deployed, few data exist regarding devices for the nonsurgical retrieval of deployed stents. Therefore, we designed to enable retrieval of deployed stents without a surgical procedure. Methods: The device consisted of four components: ultra‐low profile forceps with 2.0 mm in diameter, conducting shaft with 1.8 mm in diameter, control handle by which the forceps is opened or closed, and a covering sheath. This device was designed to advance into the vessel lumen along a 0.014‐inch guidewire by over the wire fashion. Results: The forceps could firmly catch nonexpanded as well as expanded tubular‐type stents with open cells in an in vitro model that was 4.0 mm in diameter. Then, we used this device in porcine renal arteries with 2.5–5.0 mm in diameter. At first, a fragmented 0.014‐inch guidewire could be safely removed without vessel damage that was confirmed by intravascular ultrasound. This device could successfully remove four of five inappropriately and 11 of 14 appropriately deployed stents. Under these conditions, intravascular ultrasound demonstrated minor vessel wall dissection in two‐third of cases. Conclusions: These results demonstrate that the present device can be used for transluminal removal of foreign bodies such as nonexpanded as well as expanded stents in acute phase. Further miniaturization may enable using this type of device in the renal as well as coronary arteries. (J Interven Cardiol 2010;23:264–270)
doi_str_mv	10.1111/j.1540-8183.2010.00554.x
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Therefore, we designed to enable retrieval of deployed stents without a surgical procedure. Methods: The device consisted of four components: ultra‐low profile forceps with 2.0 mm in diameter, conducting shaft with 1.8 mm in diameter, control handle by which the forceps is opened or closed, and a covering sheath. This device was designed to advance into the vessel lumen along a 0.014‐inch guidewire by over the wire fashion. Results: The forceps could firmly catch nonexpanded as well as expanded tubular‐type stents with open cells in an in vitro model that was 4.0 mm in diameter. Then, we used this device in porcine renal arteries with 2.5–5.0 mm in diameter. At first, a fragmented 0.014‐inch guidewire could be safely removed without vessel damage that was confirmed by intravascular ultrasound. This device could successfully remove four of five inappropriately and 11 of 14 appropriately deployed stents. Under these conditions, intravascular ultrasound demonstrated minor vessel wall dissection in two‐third of cases. Conclusions: These results demonstrate that the present device can be used for transluminal removal of foreign bodies such as nonexpanded as well as expanded stents in acute phase. Further miniaturization may enable using this type of device in the renal as well as coronary arteries. 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Therefore, we designed to enable retrieval of deployed stents without a surgical procedure. Methods: The device consisted of four components: ultra‐low profile forceps with 2.0 mm in diameter, conducting shaft with 1.8 mm in diameter, control handle by which the forceps is opened or closed, and a covering sheath. This device was designed to advance into the vessel lumen along a 0.014‐inch guidewire by over the wire fashion. Results: The forceps could firmly catch nonexpanded as well as expanded tubular‐type stents with open cells in an in vitro model that was 4.0 mm in diameter. Then, we used this device in porcine renal arteries with 2.5–5.0 mm in diameter. At first, a fragmented 0.014‐inch guidewire could be safely removed without vessel damage that was confirmed by intravascular ultrasound. This device could successfully remove four of five inappropriately and 11 of 14 appropriately deployed stents. Under these conditions, intravascular ultrasound demonstrated minor vessel wall dissection in two‐third of cases. Conclusions: These results demonstrate that the present device can be used for transluminal removal of foreign bodies such as nonexpanded as well as expanded stents in acute phase. Further miniaturization may enable using this type of device in the renal as well as coronary arteries. 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subjects	Angioplasty, Balloon, Laser-Assisted - instrumentation Angioplasty, Balloon, Laser-Assisted - methods Animals Coronary Vessels Equipment Design Feasibility Studies Foreign Bodies - therapy Foreign-Body Migration - therapy Humans Stents - adverse effects Surgical Instruments Swine Ultrasonography, Interventional
title	An Enhanced Device for Transluminal Retrieval of Vascular Stents Without Surgical Procedures: Experimental Studies
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