Your search keyword '"Joseph A. Janicki"' showing total 2 results

1. The Dynamic Interaction Between Matrix Metalloproteinase Activity and Adverse Myocardial Remodeling.

Author

Joseph S. Janicki, Gregory L. Brower, Jason D. Gardner, Amanda L. Chancey, and James A. Stewart Jr.

Abstract

The process of cardiac remodeling in response to cardiac injury and/or persistent elevations in wall stress generally relates to the progressive changes that occur in ventricular chamber dimensions and the various components of the myocardium, in particular the cardiomyocytes and the extracellular matrix. Volume overload, pressure overload or myocardial injury produces a sustained abnormal elevation in myocardial wall stress which initiates cardiac remodeling that frequently results in ventricular decompensation and heart failure. Regardless of the inciting cause, there appear to be three distinct phases to this process. In the initial phase, fibrillar collagen is partially degraded secondary to increased matrix metalloproteinase (MMP) activity. Following this, there is a chronic compensatory phase during which MMP activity and collagen concentration return to normal while cardiomyocyte size continues to progressively increase. The final phase is attained once the compensatory hypertrophic mechanisms are exhausted and is characterized by elevated MMP activity, marked ventricular dilatation and prominent fibrosis. Details of this progressive, dynamic remodeling process and its effect on ventricular function during chronic volume overload, chronic pressure overload and following myocardial infarction will be the focus of this article. [ABSTRACT FROM AUTHOR]

Published

2004

2. Gender mediated cardiac protection from adverse ventricular remodeling is abolished by ovariectomy.

Author

Gregory L. Brower, Jason D. Gardner, and Joseph S. Janicki

Abstract

Gender differences in the prevalence of cardiovascular disease have been observed both clinically and experimentally. These cardioprotective effects have frequently been attributed to female hormones, however, the underlying mechanisms responsible for this cardioprotection are still poorly understood. Accordingly, this study sought to determine the contribution of ovarian hormones to the prevention of adverse ventricular remodeling and congestive heart failure in chronic volume overload (i.e. aortocaval fistula in intact or ovariectomized female rats). Ovariectomized rats developed more extensive cardiac remodeling than intact females at 21 weeks post-fistula, characterized by significantly greater left ventricular (LV) hypertrophy (167 vs. 86%, respectively, p < 0.05) and a substantial increase in LV dilatation (71%, p < 0.05) relative to control. In contrast to the eccentric hypertrophy in ovariectomized females post-fistula, the hypertrophic response in the intact female hearts was essentially concentric. While neither fistula group suffered significant mortality, there was a marked increase in the lung weight of ovariectomized rats (87%, p < 0.05) consistent with the development of pulmonary edema. Overall, the extent of myocardial remodeling and decrease in LV function in the ovariectomized females was comparable to those changes reported for males with symptomatic heart failure, while intact females maintained chronic compensated ventricular function similar to that of controls. The marked ventricular dilatation and symptoms of congestive heart failure seen at 21 weeks post-fistula in the ovariectomized females clearly demonstrate the influence of circulating ovarian hormones on the pattern of myocardial remodeling resulting from a chronic volume overload. [ABSTRACT FROM AUTHOR]

Published

2003