AML - acute myeloid leukemia

Analysis of batch vs clinical traits

Number of clinical traits: 23

Number of batches based on the pattern for DNA methylation samples: 3

Correlation between batch and center in AML:

> table(batchID,two)
       two
batchID AB
   0741 96
   0742 73
   0743 25

There is only one center from which all patients come from.
Significant trait - batch correlations (all other correlations can be found in a table here)

Unknown macro: {csv}

"LAML_clinical_traits","DataType","NumberOfNAs","Test","Pvalue"
"days_to_form_completion","integer",2,"Kruskal-Wallis rank sum test",1.22E-26
"year_of_initial_pathologic_diagnosis","integer",2,"Kruskal-Wallis rank sum test",2.53E-26
"days_to_death","integer",82,"Kruskal-Wallis rank sum test",3.94E-04
"prior_diagnosis","factor",2,"Pearson's Chi-squared test",1.63E-03
"vital_status","factor",2,"Pearson's Chi-squared test",5.25E-03
"age_at_initial_pathologic_diagnosis","integer",2,"Kruskal-Wallis rank sum test",1.66E-02
"days_to_birth","integer",2,"Kruskal-Wallis rank sum test",1.90E-02
"hydroxyurea_administration_prior_registration_clinical_study_indicator","factor",2,"Pearson's Chi-squared test",3.05E-02
"pretreatment_history","factor",2,"Pearson's Chi-squared test",3.05E-02

Survival analysis

> death<-clinical[,4]
> vital<-clinical[,22]
> fup<-clinical[,7]
> x<-cbind(vital,death,fup)
> rownames(x)<-rownames(clinical)
> dim(x[is.na(x[, 2]) & is.na(x[, 3]), ])
[1] 14  3
> mask <- is.na(x[, 2]) & is.na(x[, 3]) #Exclude patients for whom there is no information for days to death or days to the last follow-up, total of 14 patients
> x1 <- x[!mask, ]
> dim(x1)
[1] 188   3
> status <- rep(1, 188) #create censoring indicator
> status[which(is.na(x1[, 2]))] <- 0
> x1[is.na(x1[, 2]), 2] <- x1[which(is.na(x1[, 2]), 2), 3] #Patients that don't have days to death get days to the last follow-up and status is 0
> x2 <- cbind(x1, status)
> k<-match(rownames(x2),meth[,1])
> methK<-meth[k,]
> library(survival)
Loading required package: splines
> surv <- Surv(as.numeric(x2[, 2]), as.numeric(x2[, 4])) #Create survival object
> plot(survfit(surv ~ 1), xlab = "days to death", ylab = "Probability", main = "Kaplan-Meier survival curve \n for TCGA AML (188 patients)")
> plot(survfit(surv ~ methK[, 2]), xlab = "days to death", ylab = "Probability", col = 1:3, main = "TCGA AML survival correlation with batch")
> legend(2000, 0.6, levels(as.factor(methK[, 2])), text.col = 1:3)
> summary(coxph(surv ~ methK[, 2]))
Call:
coxph(formula = surv ~ methK[, 2])

  n= 182, number of events= 116
   (6 observations deleted due to missingness)

                  coef exp(coef) se(coef)      z Pr(>|z|)
methK[, 2]0742 -0.2311    0.7937   0.2139 -1.080 0.279990
methK[, 2]0743  1.1784    3.2492   0.3541  3.328 0.000874 ***
---
Signif. codes:  0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’ 0.1 ‘ ’ 1

               exp(coef) exp(-coef) lower .95 upper .95
methK[, 2]0742    0.7937     1.2599    0.5219     1.207
methK[, 2]0743    3.2492     0.3078    1.6233     6.504

Concordance= 0.563  (se = 0.026 )
Rsquare= 0.06   (max possible= 0.997 )
Likelihood ratio test= 11.17  on 2 df,   p=0.003754
Wald test            = 14.35  on 2 df,   p=0.0007656
Score (logrank) test = 16.2  on 2 df,   p=0.0003037

Looks like batch correlates with patient survival.

DNA methylation data analysis

Was downloaded on December 19th, 450k arrays, 190 patients. However, it still was an old way of delivering the data when they process the files through Genome Studio (or Bead Studio) (not in idat format) and deliver somewhat normalized data (my understanding that this within array normalization and not between arrays). I combined values for the mathylated and unmethylated probes into the M value. For AML I don't have any technical variables that may affect the data besides the batch effect. For some reason information for amount, concentration, day-month-year plate row and column is completely missing in the clinical_aliquot_public.txt file. Do SVD and look whether batch is correlated with the first principal component.

Relative variance before normalization: