What is gmvjoint?

gmvjoint allows the user to fit joint models of survival and multivariate longitudinal data, where the longitudinal sub-models are specified by generalised linear mixed models (GLMMs). The joint models are fit via maximum likelihood using an approximate EM algorithm first proposed by Bernhardt et al. (2015). The GLMMs are specified using the same syntax as for package glmmTMB (Brooks et al., 2017). The joint models themselves are then the flexible extensions to those in e.g. Wulfsohn and Tsiatis (1997). The user is able to simulate data under many different response types.

Currently, six families can be fit: Gaussian; Poisson; binomial; Gamma; negative binomial; and generalised Poisson.


You can install the latest ‘official’ release from CRAN in the usual way:


or the latest development version using devtools:


MacOS users may be interested in swapping their BLAS library to one which provides an optimal BLAS implementation for Mac hardware (vecLib).


To fit a joint model, we first need to specify the longitudinal and survival sub-models.

The longitudinal sub-model must be a list which contains the specification of the longitudinal process along with its random effects structure in the same syntax as a glmmTMB model (which itself is the same as the widely-used lme4). As an example, suppose we want to fit a trivariate model on the oft-used PBC data, with a linear time-drug interaction term on albumin, a spline term on (logged) serum bilirubin and a linear fit on spiders, we specify

PBC <- subset(PBC, select = c('id', 'survtime', 'status', 'drug', 'time',
                              'serBilir', 'albumin', 'spiders'))
PBC <- na.omit(PBC) 
long.formulas <- list(
  albumin ~ drug * time + (1 + time|id),
  log(serBilir) ~ drug * splines::ns(time, 3) + (1 + splines::ns(time, 3)|id),
  spiders ~ drug * time + (1|id)

where we note interactions and spline-time fits are possible.

The survival sub-model must be set-up using Surv() from the survival package e.g.

surv.formula <- Surv(survtime, status) ~ drug

Currently interaction terms in the survival sub-model specification are unsupported.

Now we can do the joint model call through the main workhorse function joint. This notably take a list of family arguments which must match-up in the desired order as the longitudinal process list. We then fit our joint model via

fit <- joint(long.formulas = long.formulas, surv.formula = surv.formula, data = PBC, 
             family = list("gaussian", "gaussian", "binomial"))

where extra control arguments are documented in ?joint. For certain families, we could additionally supply disp.formulas which specify the dispersion model for the corresponding longitudinal process. Numerous S3 methods exist for the class of object joint creates: summary(), logLik(), fixef(), ranef(), fitted(), resid(), and vcov(). LaTeX-ready tables can also be generated by S3 method xtable(). Data can be simulated under a host of different parameter set-ups using the simData() function.

We bridge from a set of joint model parameter estimates to a prognostic one by dynamic predictions dynPred. We can assess discriminatory capabilities of the joint() model fit by the ROC function, too.

To-do list

Currently the largest limitation exists with the relatively strict data structure necessary and the corresponding calls to the joint function. The below lists these (known) limitations and plans for relaxing.

Note I’m a PhD student, and the S3 methods (and some functions themselves) have largely arisen out of things I needed, or thought would be a good idea at some point!


Bernhardt PW, Zhang D and Wang HJ. A fast EM Algorithm for Fitting Joint Models of a Binary Response to Multiple Longitudinal Covariates Subject to Detection Limits. Computational Statistics and Data Analysis 2015; 85; 37–53

Mollie E. Brooks, Kasper Kristensen, Koen J. van Benthem, Arni Magnusson, Casper W. Berg, Anders Nielsen, Hans J. Skaug, Martin Maechler and Benjamin M. Bolker (2017). glmmTMB Balances Speed and Flexibility Among Packages for Zero-inflated Generalized Linear Mixed Modeling. The R Journal, 9(2), 378-400.

Murray, J and Philipson P. A fast approximate EM algorithm for joint models of survival and multivariate longitudinal data. Computational Statistics and Data Analysis 2022

Wulfsohn MS, Tsiatis AA. A joint model for survival and longitudinal data measured with error. Biometrics. 1997; 53(1), 330-339.