Chapter 14: Survival Analysis

Introduction

Survival data often consists of a response variable that measures the duration of time until a specified event occurs and a set of independent variables thought to be associated with the event-time variable. Component lifetimes in industrial reliability, durations of jobs, and survival times in a clinical trial are examples of event times. The purpose of survival analysis is to model the underlying distribution of event times and to assess the dependence of the event time on other explanatory variables. In many situations, the event time is not observed due to withdrawal or termination of the study; this phenomenon is known as censoring. Survival analysis methods correctly use both the censored and uncensored observations.

Figure 14.1: Survival Analysis Menu

Usually, a first step in the analysis of survival data is the estimation of the distribution of the survival times. The survival distribution function (SDF), also known as the survivor function, is used to describe the lifetimes of the population of interest. The SDF evaluated at time t is the probability that an experimental unit from the population will have a lifetime exceeding t. The product limit and actuarial methods are popular techniques for estimating survival distributions.

Proportional hazards regression is a useful technique for assessing the relationship between survival times and a set of explanatory variables. The proportional hazards model of Cox (1972) assumes a parametric form for the effects of explanatory variables on survival times and allows an unspecified form for the underlying survivor function. The proportional hazards model is also known as Cox regression.

Survival Analysis Task Features

The Life Tables task provides both the actuarial (also known as life-table) method and product-limit method (also known as the Kaplan-Meier method). You can define strata and test the homogeneity of survival functions across strata with rank tests and a likelihood ratio test based on an underlying exponential distribution. In addition, you can test the association between co-variates and the lifetime variable with the log-rank test and the Wilcoxon test. Plots provided are the survival function, -log (survival function), log(-log(survival function)), hazard function, and probability density function.

The Proportional Hazards task performs Cox regression. You can choose from five different model selection techniques, select from four different methods for handling tied event times, and produce a survivor function plot with confidence intervals.

The examples in this chapter demonstrate how you can use the Survival tasks in the Analyst Application to analyze survival data.