BACKGROUND: Transplant vascular sclerosis (TVS) is manifested in transplanted human and murine hearts as a concentric, intimal lesion. The purpose of this study was to characterize the rate, location, and intensity of developing TVS lesions in murine cardiac allografts using quantitative morphometric analysis. METHODS: Murine cardiac allografts, treated with the immunosuppressant gallium nitrate, were explanted at 30, 60, and 90 days after transplant. The grafts were histologically stained and evaluated for intimal thickening by deriving a neointimal index (NI) using a computerized image-analysis system. RESULTS: In cardiac allografts, mild vascular lesions of varying NI were detectable by day 30 and lesion severity increased significantly by day 60. Thereafter, average lesion severity stabilized, although the percentage of affected vessels continued to increase from day 30 to day 90. In contrast, day-90 cardiac isografts showed little to no TVS development. Vascular lesions developed randomly without regard for vessel location or size. TVS developed more regularly in vessels of the interventricular septum than in the right or left ventricular walls. The degree of TVS development fluctuated along the length of individual vessels, even as late as 90 days after transplant. The smaller vessels (<85 microm in diameter) appeared to occlude more quickly than the larger vessels. CONCLUSIONS: TVS developed reproducibly in a random pattern throughout cardiac allografts over a 1-month to 3-month period after transplant. This development can be quantitatively monitored by computerized morphometric analysis. In general, under these experimental conditions, 30-day cardiac allografts seem to provide a useful experimental model for studying early aspects of TVS, whereas 60-day allografts may be better suited for analysis of advanced TVS.
BACKGROUND:Transplant vascular sclerosis (TVS) is manifested in transplanted human and murine hearts as a concentric, intimal lesion. The purpose of this study was to characterize the rate, location, and intensity of developing TVS lesions in murine cardiac allografts using quantitative morphometric analysis. METHODS:Murine cardiac allografts, treated with the immunosuppressant gallium nitrate, were explanted at 30, 60, and 90 days after transplant. The grafts were histologically stained and evaluated for intimal thickening by deriving a neointimal index (NI) using a computerized image-analysis system. RESULTS: In cardiac allografts, mild vascular lesions of varying NI were detectable by day 30 and lesion severity increased significantly by day 60. Thereafter, average lesion severity stabilized, although the percentage of affected vessels continued to increase from day 30 to day 90. In contrast, day-90 cardiac isografts showed little to no TVS development. Vascular lesions developed randomly without regard for vessel location or size. TVS developed more regularly in vessels of the interventricular septum than in the right or left ventricular walls. The degree of TVS development fluctuated along the length of individual vessels, even as late as 90 days after transplant. The smaller vessels (<85 microm in diameter) appeared to occlude more quickly than the larger vessels. CONCLUSIONS:TVS developed reproducibly in a random pattern throughout cardiac allografts over a 1-month to 3-month period after transplant. This development can be quantitatively monitored by computerized morphometric analysis. In general, under these experimental conditions, 30-day cardiac allografts seem to provide a useful experimental model for studying early aspects of TVS, whereas 60-day allografts may be better suited for analysis of advanced TVS.
Authors: Tsutomu Hirohashi; Catharine M Chase; Patricia DellaPelle; Divya Sebastian; Evan Farkesh; Robert B Colvin; Paul S Russell; Alessandro Alessandrini; Joren C Madsen Journal: Transplantation Date: 2014-10-27 Impact factor: 4.939
Authors: Sukanya V Subramanian; John A Polikandriotis; Robert J Kelm; Jason J David; Charles G Orosz; Arthur R Strauch Journal: Mol Biol Cell Date: 2004-07-28 Impact factor: 4.138
Authors: László Fónyad; Kazunobu Shinoda; Evan A Farkash; Martin Groher; Divya P Sebastian; A Marcell Szász; Robert B Colvin; Yukako Yagi Journal: Diagn Pathol Date: 2015-03-28 Impact factor: 2.644