Published in:
Open Access
01-01-2013 | Research
Echocardiographic integrated backscatter for detecting progression and regression of aortic valve calcifications in rats
Authors:
Bram Roosens, Gezim Bala, Kris Gillis, Isabel Remory, Steven Droogmans, Joan Somja, Eléonore Delvenne, Joeri De Nayer, Johan Schiettecatte, Philippe Delvenne, Patrizio Lancellotti, Guy Van Camp, Bernard Cosyns
Published in:
Cardiovascular Ultrasound
|
Issue 1/2013
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Abstract
Background
Calcification is an independent predictor of mortality in calcific aortic valve disease (CAVD). The aim of this study was to evaluate the use of non-invasive, non-ionizing echocardiographic calibrated integrated backscatter (cIB) for monitoring progression and subsequent regression of aortic valvular calcifications in a rat model of reversible renal failure with CAVD, compared to histology.
Methods
28 male Wistar rats were prospectively followed during 21 weeks. Group 1 (N=14) was fed with a 0.5% adenine diet for 9 weeks to induce renal failure and CAVD. Group 2 (N=14) received a standard diet. At week 9, six animals of each group were killed. The remaining animals of group 1 (N=8) and group 2 (N=8) were kept on a standard diet for an additional 12 weeks. cIB of the aortic valve was calculated at baseline, 9 and 21 weeks, followed by measurement of the calcified area (Ca Area) on histology.
Results
At week 9, cIB values and Ca Area of the aortic valve were significantly increased in the adenine-fed rats compared to baseline and controls. After 12 weeks of adenine diet cessation, cIB values and Ca Area of group 1 decreased compared to week 9, while there was no longer a significant difference compared to age-matched controls of group 2.
Conclusions
cIB is a non-invasive tool allowing quantitative monitoring of CAVD progression and regression in a rat model of reversible renal failure, as validated by comparison with histology. This technique might become useful for assessing CAVD during targeted therapy.