PURPOSE: To determine the arterial distribution pattern of the embolic agent Embozene within the porcine kidney and compare it with those of other spherical embolic agents. MATERIALS AND METHODS: Embozene, Embosphere, Bead Block, and Contour SE in size classes of 100-300 microm, 500-700 microm, and 700-900 microm and Embozene and Embosphere in the size class of 40-120 microm were used for total arterial occlusion in minipig kidneys. Organs were evaluated microscopically regarding vascular distribution of the different embolic agents and particle sizes. RESULTS: The following variations of arterial distribution were identified. In the 40-120-microm size class, Embosphere particles penetrated significantly deeper compared with Embozene (P = .04). In the 100-300-microm size class, Bead Block showed a significantly deeper distribution as microscopy identified particles in arteries much smaller than their nominal size. In the 500-700-microm size class, Embosphere and Contour SE showed a deeper distribution. The most uniform arterial distribution was observed in the 700-900 microm size class,. However, few Embosphere and Contour SE particles were found in arcuate arteries, also indicating a distal distribution. CONCLUSIONS: Throughout the four most-used size classes, from very small (40-120 microm) to large (700-900 microm), the distribution characteristics of the four tested materials vary substantially. Particularly, small Embosphere particles and small Bead Block particles showed a more distal distribution, as did medium-sized Embosphere and Contour SE particles. In the largest investigated size class, the distribution was more uniform. In general, the Embozene particles are very uniform in size, and they seem to reach vessels closely corresponding to their nominal size.
PURPOSE: To determine the arterial distribution pattern of the embolic agent Embozene within the porcine kidney and compare it with those of other spherical embolic agents. MATERIALS AND METHODS: Embozene, Embosphere, Bead Block, and Contour SE in size classes of 100-300 microm, 500-700 microm, and 700-900 microm and Embozene and Embosphere in the size class of 40-120 microm were used for total arterial occlusion in minipig kidneys. Organs were evaluated microscopically regarding vascular distribution of the different embolic agents and particle sizes. RESULTS: The following variations of arterial distribution were identified. In the 40-120-microm size class, Embosphere particles penetrated significantly deeper compared with Embozene (P = .04). In the 100-300-microm size class, Bead Block showed a significantly deeper distribution as microscopy identified particles in arteries much smaller than their nominal size. In the 500-700-microm size class, Embosphere and Contour SE showed a deeper distribution. The most uniform arterial distribution was observed in the 700-900 microm size class,. However, few Embosphere and Contour SE particles were found in arcuate arteries, also indicating a distal distribution. CONCLUSIONS: Throughout the four most-used size classes, from very small (40-120 microm) to large (700-900 microm), the distribution characteristics of the four tested materials vary substantially. Particularly, small Embosphere particles and small Bead Block particles showed a more distal distribution, as did medium-sized Embosphere and Contour SE particles. In the largest investigated size class, the distribution was more uniform. In general, the Embozene particles are very uniform in size, and they seem to reach vessels closely corresponding to their nominal size.
Authors: Alexander Massmann; Thomas Rodt; Steffen Marquardt; Roland Seidel; Katrina Thomas; Frank Wacker; Götz M Richter; Hans U Kauczor; Arno Bücker; Philippe L Pereira; Christof M Sommer Journal: Langenbecks Arch Surg Date: 2015-06-19 Impact factor: 3.445
Authors: Dominik F Vollherbst; Theresa Gockner; Thuy Do; Kerstin Holzer; Carolin Mogler; Paul Flechsig; Alexander Harms; Christopher L Schlett; Philippe L Pereira; Götz M Richter; Hans U Kauczor; Christof M Sommer Journal: PLoS One Date: 2018-07-09 Impact factor: 3.240
Authors: Alexander Y Kim; Joseph H Yacoub; David H Field; Byoung Uk Park; Bhaskar Kallakury; Kyle E Korolowicz; Stephan Menne Journal: Animal Model Exp Med Date: 2020-02-09
Authors: Clifford R Weiss; Yingli Fu; Cyrus Beh; Charles Hu; Dorota Kedziorek; Eun-Ji Shin; Robert A Anders; Aravind Arepally; Dara L Kraitchman Journal: J Vasc Interv Radiol Date: 2020-08-14 Impact factor: 3.464