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Cox Proportional Hazards Regression Model

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Cox Proportional Hazards Regression Model Mai Zhou Department of Statistics University of Kentucky A search in the New England Journal of Medicine, Nov. 2001 --- Nov ... – PowerPoint PPT presentation

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Title: Cox Proportional Hazards Regression Model


1
Cox Proportional Hazards Regression Model
  • Mai Zhou
  • Department of Statistics
  • University of Kentucky

2
  • A search in the New England Journal of Medicine,
    Nov. 2001 --- Nov. 2002 article for Cox
    proportional hazards yield gt300 results.
  • A search in Journal of American Medical
    Association yields similar result.
  • Some quotes from abstracts of NEJM

3
  • ..The time to cancer in the two groups was
    compared by KaplanMeier analysis and a Cox
    proportional-hazards model (5/2002)
  • The presence of an interaction between sex and
    digoxin therapy with respect to the primary end
    point of death from any cause was evaluated with
    the use of MantelHaenszel tests of heterogeneity
    and a multivariable Cox proportional-hazards
    model, adjusted for demographic and clinical
    variables. (10/2002)
  • With the use of Cox proportional-hazards models,
    the body-mass index was evaluated (8/2002)
  • We used proportional-hazards regression models to
    estimate the effect on mortality of combination
    therapy (11/2001)
  • Methods We estimated graft survival using
    proportional-hazards techniques, adjusting for
    patient and donor characteristics, for a series
    of 30,564 Medicare patients receiving .
  • Methods In this prospective cohort study, we
    estimated the effects of air pollution on
    mortality, while controlling for individual risk
    factors. Survival analysis, including Cox
    proportional-hazards regression modeling, was
    conducted with data.

4
Exponential Random Variable
  • Two ways of describing an Exponential random
    variable.
  • 1. Length of life
    CDF, pdf
  • 2. Force of mortality, hazard, risk,
    intensity.

5
Hazard at time t
  • Imaging some evil force try to kill you at time
    the intensity of the force is
    must .
  • The probability you die in the next small time
    interval
    (provided you still alive at
    time ) is

6
  • If constant, then we get
    Exponential distribution.
  • Easiest in the language of hazard.
  • But may not be appropriate for many cases.
  • OK to describe an electric component
  • under constant working condition.
  • But my hazard goes up if I am going
  • through a high stress time, downhill
    skiing
  • Average US population daily hazard based on 2000
    census is bath-tub shaped.

7
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8
Exponential Regression Model
  • Every patients lifetime is an exponential r.v.
  • The only difference is the constant
    hazard.
  • This patient is female, young and have
  • no family history of heart problems ---
  • her risk (constant) is low. (or 20
    lower )
  • Constant for patient depends
    on his/her
  • covariates (gender, age, gene ..)

9
Exponential regression Model (cont.)
  • The constant hazard for patient i is
  • The exp( ) is used to ensure the constants are
    always positive.
  • Other positive, monotone function can also be
    used. If the range of covariates is always
    positive then we may get by without function.

10
Cox Model is Exponential modelunder a variable
(crazy) time clock
  • I went through two years worth of trouble
  • in the past two months (faster clock)
  • life in the fast lane
  • One year for a dog is like 7 years for a human.
  • Cox model only uses the rank order of the data to
    estimate the risk ratios. Clocks do not change
    the rank ordering.
  • We do not have to know how fast/slow the clock
  • ---- (semiparametric).

11
  • But every patient uses the same crazy clock!
  • Still make sense to say patient A has 20 lower
    risk than average, but did not make sense to say
    the risk is 0.8 without specify the clock.
  • Model assumption may not always be true.
    Solution----stratified Cox model
  • where only the people in the same
  • stratum share a clock different
  • strata can have different clocks.

12
  • Censoring. The lifetime observations may be
    (right) censored.
  • We can estimate the crazy clocks speed.
  • (Kaplan-Meier estimator and its relatives.)
  • (but this time we use more than just the
    orders of the data.)
  • Easy to convert hazards to survival probability
    plots.

13
Cox Model with time-dependent Covariates
  • Exponential r.v. ? piece-wise exponential
  • Evil force is only constant in an interval of
    time
  • In a relative short time, the hazard should be
    close to constant.
  • The constant may change after switching
    treatment, after operation, after some other
    event etc.

14
Cox model with time-dependent covariates
Piece-wise exponential regression model under
crazy clock
  • Piece-wise exponential has
  • hazard in time interval
  • hazard in time interval
  • etc.

15
  • Cox model use these information as follows
  • If a patient switches treatment (from trt one to
    trt two) at time 62, then he/she will be treated
    like two patients
  • One dropped out of trt one at time 62 still
    alive,
  • one entered trt two at time 62, may be die
    later.
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