Both basic science and clinical studies support the concept that vitamin D deficiency is involved in the pathogenesis of cardiovascular and renal diseases through its association with diabetes, obesity, and hypertension. Understanding the underlying mechanisms may provide a rationale for advocating adequate intake of vitamin D and calcium in all populations, thereby preventing many chronic diseases. This review explores the effect of vitamin D deficiency in the development of cardiovascular and renal diseases, and the role of vitamin D supplementation on cardiovascular outcomes. In addition, it highlights the importance of vitamin D intake for the prevention of adverse long-term health consequences, and in ways to facilitate the management of cardiovascular disease. This is particularly true for African American and postmenopausal women, who are at added risk for cardiovascular disease. We suggest that the negative cardiovascular effects of low vitamin D in postmenopausal women could be improved by a combined treatment of vitamin D and sex steroids acting through endothelium-dependent and/or -independent mechanisms, resulting in the generation of nitric oxide and calcitonin gene-related peptide (CGRP).
The podocyte is a specialized epithelial cell that is crucial in maintaining the structure and function of the glomerulus within the kidney [1]. Pagtalunan et al. first reported a decrease in podocyte number associated with type 2 diabetes [2]. Since that initial report, many other studies have associated a decrease in podocyte number with several kidney diseases [3,4]. Similar reports have observed decreased podocyte number in rat and mouse models of proteinuric renal diseases [5]. However, there is inconsistency in the number of podocytes reported in these studies, possibly due to the use of different methods for podocyte counting. In this study, we report the results from three methods comparing podocyte number obtained from two of the widely used counting methods against a gold standard, thus identifying the more accurate counting method.To test the methods, 1-mm blocks from a single mouse kidney were embedded in Poly/Bed ® 812. Serial 1-µm thick sections (n=250) were cut and podocyte number was counted in nine glomeruli with each of the three methods. Digital images from all sections throughout the nine glomeruli (~80 sections/glomerulus) were obtained using the Exhaustive Cut method. This method allowed all podocyte nuclei to be counted as they were sequentially observed, thus avoiding sampling error ( Fig. 1) which is considered the gold standard. On the other hand, using the less time-consuming Weibel-Gomez method the number of podocyte nuclei profiles were counted, and the volume fraction of podocyte nuclei per glomerulus was determined using a counting grid superimposed over the image (Fig. 2). Shape and variance factors were determined and glomerular volume was also measured followed by calculation of podocyte number [6]. For the Fractionator/Disector method, pairs of consecutive sections were used to determine the number of podocytes. The number of profiles from podocytes that were present in the Sampling Section but absent in the Look-up Section (Fig. 3) was used to calculate podocyte number [7].From the Exhaustive Cut method 84.3±7.7 (mean±SD) podocytes were counted compared with 89.3±6.8 podocytes using the Weibel-Gomez method, which was statistically significantly different, p<0.001. From the Fractionator/Disector method, 81.9±13.3 were counted, with no statistical difference compared with the gold standard, p>0.30. Therefore, this study suggests that the unbiased Fractionator/Disector method is the recommended approach for counting podocyte number.
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