摘要191:体细胞突变的概率分析表明,来自TCGA和4个免疫检查点研究的所有测试的癌症药物组合的个体生存结局分类AUC接近1.00(所有患者均≥20,结局比< 6)。

J. Friedman
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引用次数: 0

摘要

测试了一种新的计算方法来预测体细胞突变数据的癌症治疗结果。使用这种方法,78种不同的癌症药物组合(74种来自TCGA, 4种来自已发表的免疫检查点抑制剂研究)的治疗结果成功或失败,可以仅基于个体患者的体细胞突变信息,以近乎完美的准确性“预测”每个患者(ROC曲线的AUC值在1.000或更低)。预测对所有被检查的癌症药物组合都有效,其中有20名患者的信息,治疗成功率在1/6到6之间。计算忽略了预测结果的患者的结果信息,但到目前为止只是在计算自己的分类测量时。更精细、独立的计算正在被开发,以消除在为其他预测患者计算的分类措施中来自一个患者的残余结果信息,但这些更新、更详细的计算正在进行中。这些方法避免了任何(1)对结果或数据的参数拟合,(2)使用线性代数方法,(3)确定比例因子值,以及(4)使用一些典型的不准确类型的实验估计概率值。相反,他们使用(1)更准确的关于一种精确确定的概率值类型的转移学——在有应答者或无应答者的单独人群中观察到的基因突变频率不同于随机的概率——以及(2)对建模偏差的一些潜在原因的分析——检查识别非随机突变频率如何被单个患者引起的变化所干扰的敏感性。避免了需要外推到无限抽样限制的统计数据,而采用更适用于有限小样本的统计数据。当以系统的非随机方式故意改变一个具有“已知”结果的患者时,关键统计数据显示出一致的变化,这些变化取决于不同的患者是属于HIT还是MISS结果类别,而当以类似方式改变“未知”结果的患者时,这些变化仍与结果类别保持一致。该分析为为什么FLAG基因经常出现在许多GWAS中提供了定量的数学解释,并表明通常用作检查点抑制剂研究标记的突变负担测量可能会遭受类似的并发症。正在计划进行前瞻性研究。引用格式:Jonathan Malcolm Friedman。体细胞突变的概率分析表明,来自TCGA和4个免疫检查点研究(均有≥20名患者和结果比)的所有测试的癌症药物组合的个体生存结局分类的AUC接近1.00
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Abstract 191: A probabilistic analysis of somatic mutations indicates individual survival outcome classes with AUC near 1.00 for all tested cancer-drug combinations from TCGA and 4 immune checkpoint studies (all having ≥ 20 patients and an outcome ratio < 6)
A new computational method to predict cancer treatment outcomes from somatic mutation data was tested. Using this method, treatment outcome success or failure for 78 different cancer-drug combinations (74 from TCGA & 4 from published immune checkpoint inhibitor studies) could be "predicted" for each patient with nearly perfect accuracy (AUC values from ROC curves at 1.000 or just below) based solely on individual patients9 somatic mutation information. Predictions worked for all examined cancer-drug combinations with information available for > 20 patients and with a treatment SUCCESS to FAILURE ratio between 1/6 and 6. Calculations disregarded outcome information about the patient for whom an outcome was being predicted, but so far only when calculating their own classification measure. More elaborate, independent calculations are being developed to eliminate the remnants of outcome information from one patient in classification measures calculated for other predicted patients, but these newer, more detailed calculations are ongoing. The methods avoid any (1) fitting of parameters to outcome or data, (2) use of linear algebraic methods, (3) determinations of scale factor values, and (4) use of some typically inaccurate types of experimentally estimated probability values. Instead, they use (1) more accurate metastatistics about an accurately determined type of probability value – the probability that the observed frequency of mutation for a gene differs from random in either separate population of the responder or of the non-responder patients – and (2) an analysis of some underlying causes of modeling bias – examining the sensitivity of how identifying non-random mutation frequencies can be perturbed by changes due to single patients. Statistics entailing extrapolation to an infinite sampling limit were avoided in favor of statistics more applicable to small finite samples. When one patient with a "known" outcome was deliberately varied, in a systematic non-random way, critical statistics exhibited consistent changes that differed depending on whether the varied patient belonged to the HIT or MISS outcome class and these changes remained consistent with outcome class when patients of "unknown" outcome were varied in a similar way. The analysis provided a quantitative mathematical explanation for why FLAG genes had appeared often in many GWAS and suggested that the mutational burden measure used often as a marker for checkpoint inhibitor studies might suffer from similar complications. Prospective studies are being planned. Citation Format: Jonathan Malcolm Friedman. A probabilistic analysis of somatic mutations indicates individual survival outcome classes with AUC near 1.00 for all tested cancer-drug combinations from TCGA and 4 immune checkpoint studies (all having ≥ 20 patients and an outcome ratio
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