Department of Epidemiology, University of Florida, Gainesville, FL, USA.
Department of Epidemiology and Nutrition, Harvard T.H. Chan School of Public Health, 677 Huntington Avenue, Boston, MA, 02115, USA.
Horm Cancer. 2019 Dec;10(4-6):168-176. doi: 10.1007/s12672-019-00369-y. Epub 2019 Oct 16.
We previously reported that an accelerated decline in circulating testosterone level is associated with a higher risk of prostate cancer (PCa). This study is to examine whether testosterone change rate is related to serum prostate-specific antigen (PSA) concentration among PCa-free men. Longitudinal data were derived from electronic medical records at a tertiary hospital in the Southeastern USA. PCa-free men with initial-PSA < 4 ng/mL and ≥ 2 testosterone measurements were included (n = 632). Three PSA measures (peak, the most recent, and average PSA) during the study period (from first testosterone measurement to the most recent hospital visit) were examined using multivariable-adjusted geometric means and were compared across quintiles of testosterone change rate (ng/dL/month) and current testosterone level (cross-sectional). Mean (standard deviation, SD) age at baseline was 59.3 (10.5) years; mean study period was 93.0 (55.3) months. After adjusting for covariates including baseline testosterone, the three PSA measures all significantly increased across quintile of testosterone change rate from increase to decline (peak PSA: quint 1 = 1.09, quint 5 = 1.41; the most recent PSA: quint 1 = 0.85, quint 5 = 1.00; average PSA: quint 1 = 0.89, quint 5 = 1.02; all P < 0.001). But current testosterone level was not associated with PSA levels. Stratified analyses indicated men with higher adiposity (body mass index > 24.1 kg/m) or lower baseline testosterone (≤ 296 ng/dL) were more sensitive to testosterone change in regard to PSA. Among PCa-free men, accelerated testosterone decline might correlate with higher serum PSA concentration. It will help to elucidate the mechanisms relating aging-accompanying testosterone dynamics to prostate carcinogenesis.
我们之前报道过,循环睾酮水平的加速下降与前列腺癌(PCa)的风险增加有关。本研究旨在探讨 PCa 患者中,睾酮变化率与血清前列腺特异性抗原(PSA)浓度之间是否存在相关性。纵向数据来自美国东南部一家三级医院的电子病历。纳入了初始 PSA<4ng/mL 且至少有 2 次睾酮测量值的 PCa 患者(n=632)。在研究期间(从第一次睾酮测量到最近一次医院就诊),使用多变量调整的几何平均值来检查 PSA 的三个测量值(峰值、最近一次和平均 PSA),并比较睾酮变化率(ng/dL/月)和当前睾酮水平(横截面)五分位数之间的差异。基线时的平均(标准差,SD)年龄为 59.3(10.5)岁;平均研究时间为 93.0(55.3)个月。在校正了包括基线睾酮在内的混杂因素后,随着睾酮变化率从增加到下降的五分位数的增加,三个 PSA 测量值均显著增加(峰值 PSA:五分位 1=1.09,五分位 5=1.41;最近一次 PSA:五分位 1=0.85,五分位 5=1.00;平均 PSA:五分位 1=0.89,五分位 5=1.02;所有 P<0.001)。但是,当前的睾酮水平与 PSA 水平无关。分层分析表明,肥胖程度较高(体重指数>24.1kg/m)或基线睾酮水平较低(≤296ng/dL)的男性,PSA 对睾酮变化更为敏感。在 PCa 患者中,睾酮的加速下降可能与更高的血清 PSA 浓度相关。这有助于阐明与衰老相关的睾酮动态与前列腺癌发生之间的机制。