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In R's survival and rms packages, Kaplan-Meier (Surv and survift) and Cox Proportional Hazards (cph) are implemented.

I am following the conversation in the question "How to get predictions in terms of survival time from a Cox PH model?".

I have been experimenting with these two by adding one-by-one the predictors I have in my dataset. These are not time-dependent meaning for one record, there is only one observation for these predictors which do not depend on a time basis.

The format for KM requires a Surv object to be made first before given to the survfit function for further processing.

fit      <- Surv(time,status)~X1+X2+X3+ ... +Xn
model.km <- survfit(fit)

cph also uses a similar way to create a Cox model.

model.cox = cph(fit, surv=TRUE, x=TRUE, y=TRUE)

Do I have to add all of my predictors in the dataset into the Surv in order to get a legitimate or wholesome representation of my data?

I always try to add each one at a time into the functions and look out for ones that will cause an error which I remove to go further the creation. If one of these predictors are not welcomed into Surv, survfit and cph, I instantly remove them from the creation and not the dataset. Is this method that I do correct?

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Are you sure you know what survfit(Surv(time, status) ~ x1 + x2 + ... + x_n, data = data) is doing? – rawr Jan 11 '14 at 2:17
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I know that survfit() provides survival estimates for life tables and survival curves in Kaplan-Meier and survival estimates for CPH. I am just having a hard time providing all of my other variables to the formula. Thank you for noticing this question! – user3119058 Jan 11 '14 at 7:12
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That's not what I was asking. survfit(Surv(time, event) ~ x1 + x2 + ... + x_n) would be approximately like doing survfit(coxph(Surv(time, event) ~ strata(x1) + strata(x2) + ... + strata(x_n))) – rawr Jan 11 '14 at 15:39
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Not sure what you're doing. The link you referenced is about model prediction, ie, extrapolation to data not observed. You seem to be using "predictors" in the model-building sense of the word, ie, which covariates best describe the data I observe. These are separate issues neither of which are the scope of this site (programming), so you'd do better to ask the place where your original link is from. That being said, generally if you are getting an error from adding a variable to your model, there may be a problem with your data/implementation and not the variable's usefulness in itself. – rawr Jan 11 '14 at 16:36
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Again, there are way too many factors to consider, so I cannot give a good answer. There is a whole body of research and literature about model building techniques, most are still hotly debated. But this should be where your particular expertise comes into play: if you know certain predictors are important (published or common knowledge), then they should be included. If you are exploring, maybe you should use a published algorithm for model building. But there are always caveats and exceptions to everything. In the end, you always need to convince others that your methods are sound. – rawr Jan 11 '14 at 16:47

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