ce or death for any causes. Survival was calculated using the Kaplan- Meier method. Differences in survival were compared by the log-rank test. The hazard ratio and the corresponding 95% confidence interval for each variable were estimated by Cox regression analyses. The Chi-square test and Fisher’s exact test were applied to compare differences between genetic polymorphisms and clinicopathologic parameters. The multivariate-adjusted HR of progression associated with the individual genotypes was assessed for the groups after adjusting for tumor size, lymph nodes involved, ER and PR status, HER-2 status, Body Mass Index, chemotherapy, adjuvant hormone Rapastinel web therapy and radiotherapy. All statistical calculations were performed with SPSS 17.0 for Windows. Two-sided values less than 0.05 were considered statistically significant. Deviation from HardyWeinberg equilibrium was analyzed by Pearson’s chisquared test by means of the Finetti program. Results Clinicopathologic features and genetic polymorphism of CYP19 The median age was 45 years; 294 were premenopausal and 112 were postmenopausal. Detailed information for the clinical outcome, patients characteristics were obtained. Briefly, all ER- and/or PR positive patients received tamoxifen or aromatase inhibitors as adjuvant PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19763407 hormonal therapy. 396 received chemotherapy including CAF or CEF or AC or TAC, EC or AC followed by Docetaxel or weekly Paclitaxel, CAF or FEC followed by Docetaxel or weekly Paclitaxel treatment and others, 10 remained unknown. HER-2 positive women received Trastuzumab treatment. 203 received radiotherapy, 203 with no radiation. Totally, there were 210 patients with CC genotype, 160 with AC variant, and 36 with AA genotype. Genotype frequencies observed in our patient cohort were consistent with Hardy Weinberg equilibrium. There were no significant differences between CYP19 genotypes and patients features. When the study patients were clustered into two groups, one with the CC or AC genotypes and the other carrying AA variant, the polymorphisms were not associated with clinicopathologic features. Similarly, there was no relationship between genetic polymorphism 3 / 13 The CYP19 RS4646 Polymorphism and the Prognosis of Early Breast Cancer 1 CCn ACn AAn n P1 0.439 149 61 68 111 13 18 59 77 37 32 5 120 69 21 114 34 PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19761601 17 41 4 64 40 46 47 13 119 56 35 125 85 0 121 39 54 84 12 10 49 45 36 28 2 84 64 12 88 20 9 40 3 50 46 20 37 7 103 41 16 84 73 3 24 12 12 20 4 0 9 10 10 7 0 16 20 0 23 4 1 8 0 10 11 8 7 0 24 8 4 23 13 0 294 112 134 215 29 28 117 132 83 67 7 220 153 33 225 58 27 89 7 124 97 74 91 20 246 105 55 232 171 3 0.925 0.512 0.081 0.596 0.163 0.646 0.372 Two-sided test. 2 doi:10.1371/journal.pone.0121535.t001 4 / 13 The CYP19 RS4646 Polymorphism and the Prognosis of Early Breast Cancer 1 CCn AC + AAn n P1 0.495 149 61 68 111 13 18 59 77 37 32 5 120 69 21 114 34 17 41 4 64 40 46 47 13 119 56 35 125 85 0 145 51 66 104 16 10 58 55 46 35 2 100 84 12 111 24 10 48 3 60 57 28 44 7 127 49 20 107 86 3 294 112 134 215 29 28 117 132 83 67 7 220 153 33 225 58 27 89 7 124 97 74 91 20 246 105 55 232 171 3 0.789 0.214 0.073 0.295 0.060 0.395 0.407 Two-sided test. 2 doi:10.1371/journal.pone.0121535.t002 5 / 13 The CYP19 RS4646 Polymorphism and the Prognosis of Early Breast Cancer 1 CC + ACn AAn n P1 0.419 270 100 122 195 25 28 108 122 73 60 7 204 133 33 202 54 26 81 7 114 86 66 84 20 222 97 51 209 158 3 24 12 12 20 4 0 9 10 10 7 0 16 20 0 23 4 1 8 0 10 11 8 7 0 24 8 4 23 13 0 294 112 134 215 29
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