Weinberg Clarice R, Shore David L, Umbach David M, Sandler Dale P
Biostatistics Branch, National Institute of Environmental Health Sciences, Research Triangle Park, NC 27709, USA.
Am J Epidemiol. 2007 Aug 15;166(4):447-55. doi: 10.1093/aje/kwm097. Epub 2007 Jun 7.
Targeting the first-degree relatives of people with a particular complex disease can offer a powerful approach to building a risk-based cohort for prospective studies of etiologic factors. Such a cohort provides both a sizable increase in the rate of accrual of newly incident cases, enriching for risk factors that are known or even unknown, and a high level of motivation among participants. A nationwide study of breast cancer in the United States and Puerto Rico, the Sister Study, made up of women who are each the sister of a woman with breast cancer, exemplifies this approach. In this paper, the authors provide power calculations to aid in the design of such studies and quantify their benefits for detecting both genetic variants related to risk and interactive effects of genetic and environmental factors. While the risk-based cohort can have markedly increased prevalences of rare causative alleles, most of the power advantages for this design is due to the increased rate of accrual of newly incident cases rather than the increase in any one individual allele.
针对患有特定复杂疾病的人的一级亲属,可为建立基于风险的队列以进行病因学因素的前瞻性研究提供一种强有力的方法。这样的队列既能显著提高新发病例的累积率,富集已知甚至未知的风险因素,又能使参与者具有较高的积极性。美国和波多黎各一项针对乳腺癌的全国性研究——姐妹研究,由每位都是乳腺癌患者姐妹的女性组成,就是这种方法的例证。在本文中,作者提供了功效计算,以辅助此类研究的设计,并量化其在检测与风险相关的基因变异以及基因和环境因素的交互作用方面的益处。虽然基于风险的队列可能会使罕见致病等位基因的患病率显著增加,但这种设计的大部分功效优势是由于新发病例累积率的提高,而非任何单个等位基因的增加。