This pipeline uses various statistical tests to identify selected clinical features related to mutation rate.
Testing the association between 2 variables and 6 clinical features across 316 samples, statistically thresholded by P value < 0.05 and Q value < 0.3, 2 clinical features related to at least one variables.
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2 variables correlated to 'Time to Death'.
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MUTATIONRATE_NONSYNONYMOUS , MUTATIONRATE_SILENT
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1 variable correlated to 'AGE_mutation.rate'.
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MUTATIONRATE_SILENT
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No variables correlated to 'AGE', 'KARNOFSKY.PERFORMANCE.SCORE', 'RACE', and 'ETHNICITY'.
Complete statistical result table is provided in Supplement Table 1
Table 1. Get Full Table This table shows the clinical features, statistical methods used, and the number of variables that are significantly associated with each clinical feature at P value < 0.05 and Q value < 0.3.
| Clinical feature | Statistical test | Significant variables | Associated with | Associated with | ||
|---|---|---|---|---|---|---|
| Time to Death | Cox regression test | N=2 | shorter survival | N=0 | longer survival | N=2 |
| AGE | Spearman correlation test | N=0 | ||||
| AGE | Linear Regression Analysis | N=1 | ||||
| KARNOFSKY PERFORMANCE SCORE | Spearman correlation test | N=0 | ||||
| RACE | Kruskal-Wallis test | N=0 | ||||
| ETHNICITY | Wilcoxon test | N=0 |
Table S1. Basic characteristics of clinical feature: 'Time to Death'
| Time to Death | Duration (Months) | 0.3-180.2 (median=31) |
| censored | N = 134 | |
| death | N = 181 | |
| Significant variables | N = 2 | |
| associated with shorter survival | 0 | |
| associated with longer survival | 2 |
Table S2. Get Full Table List of 2 variables significantly associated with 'Time to Death' by Cox regression test
| HazardRatio | Wald_P | Q | C_index | |
|---|---|---|---|---|
| MUTATIONRATE_NONSYNONYMOUS | 0 | 0.001364 | 0.0027 | 0.42 |
| MUTATIONRATE_SILENT | 0 | 0.003922 | 0.0039 | 0.44 |
Table S3. Basic characteristics of clinical feature: 'AGE'
| AGE | Mean (SD) | 60.16 (11) |
| Significant variables | N = 0 |
Table S4. Basic characteristics of clinical feature: 'AGE'
| AGE | Mean (SD) | 60.16 (11) |
| Significant variables | N = 1 |
Table S5. Get Full Table List of one variable significantly correlated to 'AGE' by Linear regression analysis [lm (mutation rate ~ age)]. Compared to a correlation analysis testing for interdependence of the variables, a regression model attempts to describe the dependence of a variable on one (or more) explanatory variables assuming that there is a one-way causal effect from the explanatory variable(s) to the response variable. If 'Residuals vs Fitted' plot (a standard residual plot) shows a random pattern indicating a good fit for a linear model, it explains linear regression relationship between Mutation rate and age factor. Adj.R-squared (= Explained variation / Total variation) indicates regression model's explanatory power.
| Adj.R.squared | F | P | Residual.std.err | DF | coef(intercept) | coef.p(intercept) | |
|---|---|---|---|---|---|---|---|
| MUTATIONRATE_SILENT | 0.00939 | 3.91 | 0.0489 | 2.89e-07 | 306 | 2.89e-09 ( 3.32e-07 ) | 0.0489 ( 0.000236 ) |
No variable related to 'KARNOFSKY.PERFORMANCE.SCORE'.
Table S6. Basic characteristics of clinical feature: 'KARNOFSKY.PERFORMANCE.SCORE'
| KARNOFSKY.PERFORMANCE.SCORE | Mean (SD) | 75.71 (13) |
| Score | N | |
| 40 | 2 | |
| 60 | 13 | |
| 80 | 36 | |
| 100 | 5 | |
| Significant variables | N = 0 |
Table S7. Basic characteristics of clinical feature: 'RACE'
| RACE | Labels | N |
| AMERICAN INDIAN OR ALASKA NATIVE | 2 | |
| ASIAN | 10 | |
| BLACK OR AFRICAN AMERICAN | 10 | |
| WHITE | 286 | |
| Significant variables | N = 0 |
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Expresson data file = OV-TP.patients.counts_and_rates.txt
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Clinical data file = OV-TP.merged_data.txt
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Number of patients = 316
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Number of variables = 2
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Number of clinical features = 6
For survival clinical features, Wald's test in univariate Cox regression analysis with proportional hazards model (Andersen and Gill 1982) was used to estimate the P values using the 'coxph' function in R. Kaplan-Meier survival curves were plot using the four quartile subgroups of patients based on expression levels
For continuous numerical clinical features, Spearman's rank correlation coefficients (Spearman 1904) and two-tailed P values were estimated using 'cor.test' function in R
For multi-class clinical features (ordinal or nominal), one-way analysis of variance (Howell 2002) was applied to compare the log2-expression levels between different clinical classes using 'anova' function in R
For two-class clinical features, two-tailed Student's t test with unequal variance (Lehmann and Romano 2005) was applied to compare the log2-expression levels between the two clinical classes using 't.test' function in R
For multiple hypothesis correction, Q value is the False Discovery Rate (FDR) analogue of the P value (Benjamini and Hochberg 1995), defined as the minimum FDR at which the test may be called significant. We used the 'Benjamini and Hochberg' method of 'p.adjust' function in R to convert P values into Q values.
In addition to the links below, the full results of the analysis summarized in this report can also be downloaded programmatically using firehose_get, or interactively from either the Broad GDAC website or TCGA Data Coordination Center Portal.