Pathophysiological Evaluation of Cerecyte Coil Embolization for Experimental Broad Neck Aneurysms

Pathophysiological Evaluation of Cerecyte Coil Embolization for Experimental Broad Neck Aneurysms

Cerecyte second-generation coils feature inner surfaces coated with an absorbable polyglycolic acid (PGA) polymer. Their use is expected to accelerate aneurysm organization, but time course data are limited. The present experimental study was therefore conducted to clarify the processes by pathologi...

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Bibliographic Details
Main Authors: Iwamoto, Kazuhisa, Kurata, Akira, Suzuki, Sachio, Ohmomo, Taketomo, Nakayama, Shigenobu, Maruyama, Shigeyoshi, Takagi, Mamoru, Konno, Shingo, Nakahara, Kuniaki, Fujii, Kiyotaka, Yasui, Yoshie, Iwabuchi, Keiichi
Format: Online
Language:English
Published: International Scholarly Research Network 2012
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3390053/
Description
Summary:Cerecyte second-generation coils feature inner surfaces coated with an absorbable polyglycolic acid (PGA) polymer. Their use is expected to accelerate aneurysm organization, but time course data are limited. The present experimental study was therefore conducted to clarify the processes by pathological examination. Methods. Two types of experimental aneurysms were initially generated in adult mongrel dogs, one bifurcation and another of lateral wall type. Long-term persistence of each was defined by follow-up angiography for more than 1 year. Embolization of the aneurysms was then performed using only cerecyte coils, and follow-up angiography was conducted after 2 and 4 weeks followed by pathological examination. Results. Organization of both types of broad neck aneurysm was apparent 4 weeks after embolization, which is earlier as compared with already reported data for bare coils.

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