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de Simone G, Devereux RB, Camargo MJ, et al. In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension. J Hypertens. 1992;10(8):725-32
de Simone, G., Devereux, R. B., Camargo, M. J., Volpe, M., Wallerson, D. C., Atlas, S. A., & Laragh, J. H. (1992). In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension. Journal of hypertension, 10(8), 725-32.
de Simone, G, et al. "In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension." Journal of hypertension vol. 10,8 (1992): 725-32.
de Simone G, Devereux RB, Camargo MJ, Volpe M, Wallerson DC, Atlas SA, Laragh JH. In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension. J Hypertens. 1992 Aug;10(8):725-32. PMID: 1325503.
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J Hypertens. 1992 Aug;10(8):725-32.

In vivo left ventricular anatomy in rats with two-kidney, one clip and one-kidney, one clip renovascular hypertension.

Journal of hypertension

G de Simone, R B Devereux, M J Camargo, M Volpe, D C Wallerson, S A Atlas, J H Laragh

Affiliations

  1. Department of Medicine, New York Hospital-Cornell Medical Center, New York 10021.

PMID: 1325503

Abstract

OBJECTIVES: To evaluate differences in left ventricular structural changes related to different hemodynamic patterns.

DESIGN: One-kidney, one clip (1K1C; volume-dependent hypertension) rats were two-kidney, one clip (2K1C; high-resistance hypertension) to determine whether these two types of Goldblatt rats showed different types of left ventricular adaptation.

METHODS: M-mode echocardiography was used to study 28 2K1C and 19 1K1C Wistar rats 8 weeks after surgery and 55 age-matched control animals.

RESULTS: Systolic blood pressure was equally high in the two models; the 1K1C rats had a larger left ventricular chamber and normal plasma renin activity (PRA), whereas in the 2K1C rats PRA was increased and the left ventricular chamber was normal. The atrial natriuretic factor was significantly increased only in the 2K1C rats and was related to PRA. The left ventricular mass index was increased in both models, but more in the 1K1C than the 2K1C rats.

CONCLUSIONS: In both models the degree of left ventricular hypertrophy was associated with the interacting effects of the hemodynamic component superimposed on the primary hemodynamic pattern (i.e. blood pressure as an expression of pressure overload in the primarily volume-dependent 1K1C rats and the left ventricular chamber size as an expression of volume overload in the high-resistance 2K1C rats). The interaction between pressure and volume increased the left ventricular wall thickness in both models, with additional chamber enlargement in the 1K1C rats. In these rats, the increase in left ventricular mass was more pronounced due to the greater volume load on the heart.

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