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PopED (version 0.1.1)

mf6: The full Fisher Information Matrix (FIM) for one individual parameterized with A,B,C matrices & using the derivative of variance.

Description

Compute the full FIM for one individual given specific model(s), parameters, design and methods. This computation parameterizes the FIM calculation using A,B,C matrices (as in Retout et al.) but uses the derivative of variances. Should give the same answer as mf but computation times may be different.

Usage

mf6(model_switch, xt_ind, x, a, bpop, d, sigma, docc, poped.db)

Arguments

model_switch
A vector that is the same size as xt, specifying which model each sample belongs to.
xt_ind
A vector of sample times.
x
A vector for the discrete design variables.
a
A vector of covariates.
bpop
The fixed effects parameter values. Supplied as a vector.
d
A between subject variability matrix (OMEGA in NONMEM).
sigma
A residual unexplained variability matrix (SIGMA in NONMEM).
docc
A between occasion variability matrix.
poped.db
A PopED database.

Value

  • As a list:
  • retThe FIM for one individual
  • poped.dbA PopED database

References

S. Retout and F. Mentre, "Further developments of the Fisher Information Matrix in nonlinear mixed effects models with evaluation in population pharmacokinetics", J. of Biopharm. Stats., 13(2), 2003.

See Also

Used by mftot5.

Other FIM: LinMatrixH; LinMatrixLH; LinMatrixL_occ; calc_ofv_and_fim; ed_laplace_ofv; ed_mftot; evaluate.e.ofv.fim; evaluate.fim; gradf_eps; mf3; mf5; mf7; mf8; mftot0; mftot1; mftot2; mftot3; mftot4; mftot5; mftot6; mftot7; mftot; mf; ofv_criterion; ofv_fim

Examples

Run this code
## Warfarin example from software comparison in:
## Nyberg et al., "Methods and software tools for design evaluation 
##   for population pharmacokinetics-pharmacodynamics studies", 
##   Br. J. Clin. Pharm., 2014. 

library(PopED)

## find the parameters that are needed to define from the structural model
ff.PK.1.comp.oral.sd.CL

## -- parameter definition function 
## -- names match parameters in function ff
sfg <- function(x,a,bpop,b,bocc){
  parameters=c(CL=bpop[1]*exp(b[1]),
               V=bpop[2]*exp(b[2]),
               KA=bpop[3]*exp(b[3]),
               Favail=bpop[4],
               DOSE=a[1])
  return(parameters) 
}

## -- Define initial design  and design space
poped.db <- create.poped.database(ff_file="ff.PK.1.comp.oral.sd.CL",
                                  fg_file="sfg",
                                  fError_file="feps.prop",
                                  bpop=c(CL=0.15, V=8, KA=1.0, Favail=1), 
                                  notfixed_bpop=c(1,1,1,0),
                                  d=c(CL=0.07, V=0.02, KA=0.6), 
                                  sigma=0.01,
                                  groupsize=32,
                                  xt=c( 0.5,1,2,6,24,36,72,120),
                                  minxt=0,
                                  maxxt=120,
                                  a=70)
# warfarin optimization model

#for the FO approximation
ind=1

# no occasion defined in this example, so result is zero
output <- mf6(model_switch=t(poped.db$global_model_switch[ind,,drop=FALSE]),
   xt=t(poped.db$gxt[ind,,drop=FALSE]),
   x=zeros(0,1),
   a=t(poped.db$ga[ind,,drop=FALSE]),
   bpop=poped.db$gbpop[,2,drop=FALSE],
   d=poped.db$param.pt.val$d,
   sigma=poped.db$sigma,
   docc=poped.db$param.pt.val$docc,
   poped.db)

# in this simple case the full FIM is just the sum of the individual FIMs
# and all the individual FIMs are the same
det(output$ret*32) == det(evaluate.fim(poped.db,fim.calc.type=5))

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