Tangen Catherine M, Goodman Phyllis J, Till Cathee, Schenk Jeannette M, Lucia M Scott, Thompson Ian M
Catherine M. Tangen, Phyllis J. Goodman, Cathee Till, and Jeannette M. Schenk, Fred Hutchinson Cancer Research Center, Seattle, WA; M. Scott Lucia, University of Colorado Denver School of Medicine, Denver, CO; and Ian M. Thompson Jr, The Cancer Therapy and Research Center, University of Texas Health Science Center at San Antonio, San Antonio, TX.
J Clin Oncol. 2016 Dec 20;34(36):4338-4344. doi: 10.1200/JCO.2016.68.1965. Epub 2016 Oct 28.
Purpose To identify factors related to who undergoes a prostate biopsy in a screened population and to estimate the impact of biopsy verification on risk factor-prostate cancer associations. Patients and Methods Men who were screened regularly from the placebo arms of two large prostate cancer prevention trials (Prostate Cancer Prevention Trial [PCPT] and Selenium and Vitamin E Cancer Prevention Trial [SELECT]) were examined to define incident prostate cancer cohorts. Because PCPT had an end-of-study biopsy, prostate cancer cases were categorized by a preceding prostate-specific antigen/digital rectal examination prompt (yes/no) and noncases by biopsy-proven negative status (yes v no). We estimated the association of risk factors (age, ethnicity, family history, body mass index, medication use) with prostate cancer and quantified differences in risk associations across cohorts. Results Men 60 to 69 years of age, those with benign prostatic hyperplasia, and those with a family history of prostate cancer were more likely, and those with a higher body mass index (≥ 25), diabetes, or a smoking history were less likely, to undergo biopsy, adjusting for age and longitudinal prostate-specific antigen and digital rectal examination. Medication use, education, and marital status also influenced who underwent biopsy. Some risk factor estimates for prostate cancer varied substantially across cohorts. Black ( v other ethnicities) had odds ratios (ORs) that varied from 1.20 for SELECT (community screening standards, epidemiologic-like cohort) to 1.83 for PCPT (end-of-study biopsy supplemented with imputed end points). Statin use in SELECT provided an OR of 0.65 and statin use in in PCPT provided an OR of 0.99, a relative difference of 34%. Conclusion Among screened men enrolled in prostate cancer prevention trials, differences in risk factor estimates for prostate cancer likely underestimate the magnitude of bias found in other cohorts with varying screening and biopsy recommendations and acceptance. Risk factors for prostate cancer derived from epidemiologic studies not only may be erroneous but may lead to misdirected research efforts.
目的 确定在筛查人群中接受前列腺活检的相关因素,并评估活检验证对危险因素与前列腺癌关联的影响。 患者与方法 对两项大型前列腺癌预防试验(前列腺癌预防试验[PCPT]和硒与维生素E癌症预防试验[SELECT])安慰剂组中定期接受筛查的男性进行检查,以确定前列腺癌发病队列。由于PCPT有研究结束时的活检,前列腺癌病例按之前前列腺特异性抗原/直肠指检提示(是/否)进行分类,非病例按活检证实为阴性状态(是对否)进行分类。我们估计了危险因素(年龄、种族、家族史、体重指数、用药情况)与前列腺癌的关联,并量化了各队列风险关联的差异。 结果 调整年龄、纵向前列腺特异性抗原和直肠指检后,60至69岁的男性、患有良性前列腺增生的男性以及有前列腺癌家族史的男性更有可能接受活检,而体重指数较高(≥25)、患有糖尿病或有吸烟史的男性接受活检的可能性较小。用药情况、教育程度和婚姻状况也影响了接受活检的人群。前列腺癌的一些危险因素估计在各队列中差异很大。黑人(与其他种族相比)的优势比(OR)从SELECT(社区筛查标准,类似流行病学队列)的1.20到PCPT(研究结束时活检并补充推算终点)的1.83不等。SELECT中使用他汀类药物的OR为0.65,PCPT中使用他汀类药物的OR为0.99,相对差异为34%。 结论 在参加前列腺癌预防试验的筛查男性中,前列腺癌危险因素估计的差异可能低估了在其他筛查和活检建议及接受情况不同的队列中发现的偏差程度。来自流行病学研究的前列腺癌危险因素不仅可能有误,还可能导致研究方向错误。