Statistical analyses were done with the Statistical Package for S

Statistical analyses were done with the Statistical Package for Social Sciences (SPSS 15.0 for Windows) software. The authors of this manuscript have certified that they comply with the Modulators Principles Selleckchem PFI-2 of Ethical Publishing in the International Journal of Cardiology. A total of 1620 coronary angiograms were assessed, and 167 were excluded because it was not possible to determine coronary dominance due to technical reasons, extensive

atherosclerosis, presence of occluding thrombi with large filling defects distally, or prior CABG. A total of 1453 cases were included in the study cohort, and the patient characteristics are shown in Table 1. The median age in the study population was 70 (IQR: 58–78), and 55% was male. The overall distribution of left, right, and balanced dominance was 9.1%, 81.2%, and 9.7%, respectively. The cause of death was cardiovascular in 53.9% of the included cases. There were significant differences in age and cause of death between the included and excluded cases. The distribution of coronary dominance across the age groups is presented in Table 2. With increasing age

in the tertiles (respectively, ≤63 years, 64–75 years, and ≥76 years), the prevalence of right coronary dominance increased significantly (P=.001). Although the prevalence of both left dominance and codominance was numerically decreasing, only the decrease in codominant systems was statistically significant (P<.01). No heterogeneity was observed regarding the relation between dominance and age in male and female cases; the overall P for trend was, respectively, <.01 and .05. Moreover, no heterogeneity Hydroxychloroquine in vivo was observed regarding the cause of death (P for trend in cardiac, vascular, and noncardiovascular, respectively, .02, .24, and .03). The distribution of coronary dominance across the age groups according to cause of death is presented in Table 3. In this study, we systematically evaluated the Oxalosuccinic acid type of coronary dominance in different age groups using postmortem angiograms in a large cohort of autopsied patients. We found that the overall prevalence of left, right, and balanced dominance in the

study population was 9.1%, 81.2%, and 9.7%, respectively. Second, the prevalence of right dominance increased with increasing age of the patients who were categorized into three age cohorts of less than 64, 64–74, and older than 75 years, respectively. On the other hand, there was a reduction found in the prevalence of left and codominant systems in the same age categories. These trends were consistent across gender and cause of death. Other reports have described the overall prevalence of the anatomical variants as assessed by (postmortem) coronary angiography or computed tomography [2], [3], [5], [6], [7] and [9]. These studies are summarized in Table 4. Generally, the prevalences of the dominance variants are comparable across the different studies. Two studies in which a relatively high prevalence of balanced systems was observed were described by Hutchins et al.

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