Assumes exposure given covariates and outcome is a normal-errors linear regression. Pooled exposure measurements can be assumed precise or subject to additive normal processing error and/or measurement error. Parameters are estimated using maximum likelihood.
p_ndfa_nonconstant(g, y, xtilde, c = NULL, errors = "processing",
start_nonvar_var = c(0.01, 1), lower_nonvar_var = c(-Inf, 1e-04),
upper_nonvar_var = c(Inf, Inf), jitter_start = 0.01,
nlminb_list = list(control = list(trace = 1, eval.max = 500, iter.max =
500)), hessian_list = list(method.args = list(r = 4)),
nlminb_object = NULL)Numeric vector of pool sizes, i.e. number of members in each pool.
Numeric vector of poolwise Y values (number of cases in each pool).
Numeric vector (or list of numeric vectors, if some pools have replicates) with Xtilde values.
Numeric matrix with poolwise C values (if any), with one row for each pool. Can be a vector if there is only 1 covariate.
Character string specifying the errors that X is subject to.
Choices are "neither", "processing" for processing error only,
"measurement" for measurement error only, and "both".
Numeric vector of length 2 specifying starting value for non-variance terms and variance terms, respectively.
Numeric vector of length 2 specifying lower bound for non-variance terms and variance terms, respectively.
Numeric vector of length 2 specifying upper bound for non-variance terms and variance terms, respectively.
Numeric value specifying standard deviation for mean-0
normal jitters to add to starting values for a second try at maximizing the
log-likelihood, should the initial call to nlminb result
in non-convergence. Set to NULL for no second try.
List of arguments to pass to nlminb
for log-likelihood maximization.
List of arguments to pass to
hessian for approximating the Hessian matrix. Only
used if estimate_var = TRUE.
Object returned from nlminb in a
prior call. Useful for bypassing log-likelihood maximization if you just want
to re-estimate the Hessian matrix with different options.
List containing:
Numeric vector of parameter estimates.
Variance-covariance matrix.
Returned nlminb object from maximizing the
log-likelihood function.
Akaike information criterion (AIC).
Lyles, R.H., Van Domelen, D.R., Mitchell, E.M. and Schisterman, E.F. (2015) "A discriminant function approach to adjust for processing and measurement error When a biomarker is assayed in pooled samples." Int. J. Environ. Res. Public Health 12(11): 14723--14740.
Schisterman, E.F., Vexler, A., Mumford, S.L. and Perkins, N.J. (2010) "Hybrid pooled-unpooled design for cost-efficient measurement of biomarkers." Stat. Med. 29(5): 597--613.