Roudgari Hassan, Miedzybrodzka Zosia H, Haites Neva E
Department of Medicine & Therapeutics, College of Life Sciences & Medicine, Polwarth Building, Foresterhill, Aberdeen, AB25 2ZD, UK.
Fam Cancer. 2008;7(3):199-212. doi: 10.1007/s10689-007-9176-2. Epub 2007 Dec 21.
Accurate risk assessment is essential to genetic counselling for a family history of cancer. Several empiric and computer-based risk assessment models have been developed to estimate a counselee's probability of being a carrier of mutation in BRCA1 and/or 2 genes, and to predict the risk of developing breast cancer. The COS model was developed from the better-known BRCAPro model to estimate risk of carriage of BRCA1 or 2 mutation. The COS model remains to be validated in a population discrete from that used for its development.
Four probability estimation models including COS, Manchester scoring system (MSS), BOADICEA and Tyrer-Cuzick (T-C) were applied to 275 Scottish families tested for BRCA1/2 mutations ascertained through regional genetics centres to ascertain models' sensitivity, specificity and accuracy. A subset of 130 families from Grampian (North and Northeast Scotland) was used to assess the models' ability to estimate the prevalence of BRCA1/2 mutation carriers. Sensitivity, specificity and ROC plots were used to ascertain models' individual performance, in terms of number of cancer cases, type of cancer and age of diagnosis of breast cancer.
The COS and MSS models demonstrated the greatest sensitivities and area under ROC curves for the majority of family structures. They also showed the highest sensitivities (91-92%) and AUCs (76-78%) for the entire dataset overall. However, BOADICEA and T-C had the highest specificities for the majority of the family structures. BOADICEA and T-C generated the best estimates for the prevalence of mutations in the population; BOADICEA was more accurate for BRCA1 and T-C for BRCA2.
The COS and MSS models are the most effective models for use in clinical practice to select families for mutation analysis, but BOADICEA and T-C are more accurate for estimating mutation prevalence within a population.
准确的风险评估对于癌症家族史的遗传咨询至关重要。已经开发了几种基于经验和计算机的风险评估模型,以估计咨询对象携带BRCA1和/或2基因突变的概率,并预测患乳腺癌的风险。COS模型是在更为知名的BRCAPro模型基础上开发的,用于估计BRCA1或2基因突变的携带风险。COS模型仍有待在与其开发所用人群不同的人群中进行验证。
将包括COS、曼彻斯特评分系统(MSS)、BOADICEA和泰勒-库齐克(T-C)在内的四种概率估计模型应用于通过区域遗传中心检测BRCA1/2基因突变的275个苏格兰家庭,以确定模型的敏感性、特异性和准确性。使用来自格兰扁(苏格兰北部和东北部)的130个家庭的子集来评估模型估计BRCA1/2基因突变携带者患病率的能力。敏感性、特异性和ROC曲线用于确定模型在癌症病例数、癌症类型和乳腺癌诊断年龄方面的个体表现。
对于大多数家庭结构,COS和MSS模型表现出最高的敏感性和ROC曲线下面积。对于整个数据集总体而言,它们还显示出最高的敏感性(91-92%)和AUC(76-78%)。然而,对于大多数家庭结构,BOADICEA和T-C具有最高的特异性。BOADICEA和T-C对人群中基因突变的患病率给出了最佳估计;BOADICEA对BRCA1更准确,T-C对BRCA2更准确。
COS和MSS模型是临床实践中用于选择进行突变分析家庭的最有效模型,但BOADICEA和T-C在估计人群中基因突变患病率方面更准确。
