PURPOSE: Perfusion of the isolated aorta of the rat with a saline solution containing pancreatic elastase induces an abdominal aortic aneurysm (AAA). An interesting feature of this model is the phenomenon of latency, suggesting that additional steps beyond the initial injury are required for AAA formation. This study was performed to determine whether the latency period for aortic dilation to aneurysmal proportions is correlated with the appearance of proteinases of endogenous origin and the interval for infiltration of inflammatory cells. METHODS: Twenty Wistar rat aortas were perfused with the test solution, and 20 with normal saline solution. Laparotomy was performed on days 1, 2, 3, and 6 for measurement and harvest of the aorta. Histochemical studies were performed to analyze changes in matrix proteins, and substrate gel enzymography was used to determine the appearance of endogenous proteinases. Immunohistochemical studies were performed with monoclonal antibodies to T cells (CD-4, -5, and -8), monocytes/macrophages (ED-2), B cells (LC-A), immunoglobulin G, and immunoglobulin M. RESULTS: The exogenously administered elastase was not detectable beyond day 2, but the aortic diameter did not progress to aneurysmal dimensions until the interval between days 3 and 6. During the period from day 3 to day 6, multiple endogenous matrix proteinases became detectable in the aortic tissue preparations. Immunohistochemical study revealed progressive infiltration of the aorta with various subsets of inflammatory cells. CONCLUSION: The results suggest that the latency in AAA formation in this model corresponds with a complex sequence of biochemical and cellular events. The model provides an "early window" into these interesting early phases leading to aneurysm formation.
PURPOSE: Perfusion of the isolated aorta of the rat with a saline solution containing pancreatic elastase induces an abdominal aortic aneurysm (AAA). An interesting feature of this model is the phenomenon of latency, suggesting that additional steps beyond the initial injury are required for AAA formation. This study was performed to determine whether the latency period for aortic dilation to aneurysmal proportions is correlated with the appearance of proteinases of endogenous origin and the interval for infiltration of inflammatory cells. METHODS: Twenty Wistar rat aortas were perfused with the test solution, and 20 with normal saline solution. Laparotomy was performed on days 1, 2, 3, and 6 for measurement and harvest of the aorta. Histochemical studies were performed to analyze changes in matrix proteins, and substrate gel enzymography was used to determine the appearance of endogenous proteinases. Immunohistochemical studies were performed with monoclonal antibodies to T cells (CD-4, -5, and -8), monocytes/macrophages (ED-2), B cells (LC-A), immunoglobulin G, and immunoglobulin M. RESULTS: The exogenously administered elastase was not detectable beyond day 2, but the aortic diameter did not progress to aneurysmal dimensions until the interval between days 3 and 6. During the period from day 3 to day 6, multiple endogenous matrix proteinases became detectable in the aortic tissue preparations. Immunohistochemical study revealed progressive infiltration of the aorta with various subsets of inflammatory cells. CONCLUSION: The results suggest that the latency in AAA formation in this model corresponds with a complex sequence of biochemical and cellular events. The model provides an "early window" into these interesting early phases leading to aneurysm formation.
Authors: David F Kallmes; Naomi H Fujiwara; Stuart S Berr; Gregory A Helm; Harry J Cloft Journal: AJNR Am J Neuroradiol Date: 2002-02 Impact factor: 3.825
Authors: Andrew Camardo; Dhruv Seshadri; Tom Broekelmann; Robert Mecham; Anand Ramamurthi Journal: Drug Deliv Transl Res Date: 2018-08 Impact factor: 4.617