Flexible parametric survival analysis with the elastic net

Version 0.60 (84.4 KB) by Statovic
Parametric survival analysis for proportional hazards regression and competing risk models.
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Updated 23 Dec 2022

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This toolbox implements flexible parametric survival analysis for the proportional hazards regression model with optional right censoring. There are three main functions:
  1. flexph(): parametric proportional hazards regression;
  2. flexphreg(): parametric proportional hazards regression with elastic net regularization;
  3. flexphcr(): parametric proportional hazards regression for competing risk data.
We have five kinds of parametric baseline hazard functions: exponential, Weibull, natural cubic splines, log-logistic and integrated splines (or i-splines); see below for mathematical details.
Let t = (t_1, ..., t_n) denote n time-to-event data points. We model the hazard function at time t by:
h(t) = h_0(t) exp(z'*beta), t > 0, beta \in R^p
where z is a vector of covariates and h_0(t) is the baseline hazard function to be discussed below. The cumulative hazard function is
H(t) = H_0(t) exp(z'*beta)
where H_0(t) is the cumulative baseline hazard. The survival function is then
S(t) = exp(-H(t)) = exp(-H_0(t))^exp(z'*beta) = S_0(t)^exp(z'*beta)
where S_0(t)=exp(-H_0(t)) is the baseline survival function. Following Royston and Mahesh (2002), we write the log of the cumulative hazard function H(t) as:
log H(t) = log H_0(t) + z'*beta = s(t) + z'*beta
where s(t) is a parametric log cumulative baseline hazard function which may depend on other parameters. The type of s(t) is selected with the argument modeltype. Possible options are:
(1) 'exp': exponential baseline hazard [exponential regression]
Log cumulative baseline hazard: s(t) = gamma_0 + log(t)
(2) 'natural': natural cubic splines
Baseline cumulative hazard is fitted using natural cubic splines with m internal knots (k_min,k_1,...k_m,k_max). Let x = log(t). We have:
s(t) = gam0 + gam1 x + gam2 v_1(x) + ...
where the j-th basis function v_j(x) is:
v_j(x) = max(0,x-k_j)^3 - lam_j max(0,x-k_min)^3 - (1-lam_j) max(0,x-k_max)^3
lam_j = (k_max - k_) / (k_max - k_min).
The argument m>0 determines the number of knots. For more technical details, please see Royston and Mahesh (2002).
(3) 'log-logistic: log-logistic baseline hazard
(4) 'weibull': Weibull baseline hazard [Weibull regression]
Log cumulative baseline hazard: s(t) = gamma_0 + gamma_1 x
(5) 'ispline': integrated splines.
All functions allo right censoring with the argument d = (d_1, ..., d_n) where d(i)=0 implying a censored data point.
For examples of usage, please see example[1-10].m.

Cite As

Statovic (2024). Flexible parametric survival analysis with the elastic net (https://www.mathworks.com/matlabcentral/fileexchange/119998-flexible-parametric-survival-analysis-with-the-elastic-net), MATLAB Central File Exchange. Retrieved .

Royston, Patrick, and Mahesh K. B. Parmar. “Flexible Parametric Proportional-Hazards and Proportional-Odds Models for Censored Survival Data, with Application to Prognostic Modelling and Estimation of Treatment Effects.” Statistics in Medicine, vol. 21, no. 15, Wiley, 2002, pp. 2175–97, doi:10.1002/sim.1203.

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MATLAB Release Compatibility
Created with R2022b
Compatible with any release
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Version Published Release Notes
0.60

-added flexphcr() for competing risk analysis and corresponding CIF functions
-added i-splines (enables monotonic cumulative baseline estimates)
-added further examples

0.55

-added a function to compute baseline survival and hazard functions from any model on the elastic net path
-improved examples

0.51

-fix for change in behaviour of fitcox() in Matlab versions prior to 2022

0.5

-added flexphreg() for elastic net regularisation
-updated printSummary()
-added two examples to demonstrate regularisation
-improved all examples

0.4

-added the log-logistic baseline hazard function (option 'log-logistic')
-improved parameter initialization
-added example6.m which fits a log-logistic baseline hazard

0.3

-better parameter initialization
-orthogonalization of spline bases implemented using the routine mgsog() by Mo Chen (sth4nth@gmail.com)
-improved search with Hessian calculation
-added printSummary() to print regression results

0.2.1

-fixed an issue estimation of baseline hazard with fitcox() in Matlab 2022b

0.2.0

-added exponential and Weibull proportion hazard regression models
-added two more examples

0.1.0