Help for package nlmixr2data

Title:

Nonlinear Mixed Effects Models in Population PK/PD, Data

Version:

2.0.9

Description:

Datasets for 'nlmixr2' and 'rxode2'. 'nlmixr2' is used for fitting and comparing nonlinear mixed-effects models in differential equations with flexible dosing information commonly seen in pharmacokinetics and pharmacodynamics (Almquist, Leander, and Jirstrand 2015 <doi:10.1007/s10928-015-9409-1>). Differential equation solving is by compiled C code provided in the 'rxode2' package (Wang, Hallow, and James 2015 <doi:10.1002/psp4.12052>).

License:

GPL (≥ 3)

Encoding:

UTF-8

RoxygenNote:

7.2.3

Depends:

R (≥ 2.10)

LazyData:

true

BugReports:

https://github.com/nlmixr2/nlmixr2data/issues/

URL:

https://nlmixr2.github.io/nlmixr2data/, https://github.com/nlmixr2/nlmixr2data/

NeedsCompilation:

Packaged:

2024-01-31 19:55:55 UTC; matt

Author:

Matthew Fidler

[aut, cre], Rik Schoemaker

[ctb], Kyle Baron [ctb], Thierry Wendling [ctb], Ted Grasella [ctb], C Weil [ctb], Yaning Wang [ctb], R O'Reilly [ctb], David D'Argenio [ctb], Rodriguez-Vera [ctb], D Gaver [ctb], Yuan Xiong [ctb], Wenping Wang [aut]

Maintainer:

Matthew Fidler <matthew.fidler@gmail.com>

Repository:

CRAN

Date/Publication:

2024-01-31 20:40:02 UTC

1 Compartment Model Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Bolus_1CPT

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
CL: Individual Clearance
SS: Steady State
II: Interdose Interval
SD: Single Dose Flag
CMT: Compartment

Details

Richly sampled profiles were simulated for 4 different dose levels (10, 30, 60 and 120 mg) of 30 subjects each as single dose (over 72h), multiple dose (4 daily doses), single and multiple dose combined, and steady state dosing, for a range of test models: 1- and 2-compartment disposition, with and without 1st order absorption, with either linear or Michaelis-Menten (MM) clearance(MM without steady state dosing). This provided a total of 42 test cases. All inter-individual variabilities (IIVs) were set at 30%, residual error at 20% and overlapping PK parameters were the same for all models. A similar set of models was previously used to compare NONMEM and Monolix4. Estimates of population parameters, standard errors for fixed-effect parameters, and run times were compared both for closed-form solutions and using ODEs. Additionally, a sparse data estimation situation was investigated where 500 datasets of 600 subjects each (150 per dose) were generated consisting of 4 random time point samples in 24 hours per subject, using a first-order absorption, 1-compartment disposition, linear elimination model.

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model w/ Michaelis-Menten Elimination

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Bolus_1CPTMM

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
VM: Individual Vm constant
KM: Individual Km constant
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

2 Compartment Model

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Bolus_2CPT

Format

A data frame with 7,920 rows and 16 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V1: Individual Central Compartment Volume
CL: Individual Clearance
Q: Individual Between Compartment Clearance
V2: Periperial Volume
SS: Steady State Flag
II: Interdose interval
SD: Single Dose Flag
CMT: Compartment Indicator

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

2 Compartment Model with Michaelis-Menten Clearance

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Bolus_2CPTMM

Format

A data frame with 7,920 rows and 15 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Central Compartment Volume
VM: Individual Vmax
KM: Individual Km
Q: Individual Q
V2: Individual Peripheral Compartment Volume
SD: Single Dose Flag
CMT: Compartment Indicator

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Infusion_1CPT

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
CL: Individual Clearance
SS: Steady State
II: Interdose Interval
SD: Single Dose Flag
RATE: NONMEM Rate
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model w/MM elimination Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Infusion_1CPTMM

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
KM: Individual Km constant
VM: Individual Vm constant
SD: Single Dose Flag
RATE: NONMEM Rate
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

2 Compartment Model with Infusion Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Infusion_2CPT

Format

A data frame with 7,920 rows and 17 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
CL: Individual Clearance
Q: Individual Inter-compartmental Clearance
V2: Individual Peripheral Volume
SS: Steady State
RATE: NONMEM Rate
II: Interdose Interval
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

2 Compartment Model w/MM elimination Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Infusion_2CPTMM

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
Q: Individual Between Compartment Clearance
V: Individual Simulated Volume
V2: Individual Peripheral Volume
KM: Individual Km constant
VM: Individual Vm constant
SD: Single Dose Flag
RATE: NONMEM Rate
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model with Oral Absorption Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Oral_1CPT

Format

A data frame with 7,920 rows and 15 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
V: Individual Simulated Volume
CL: Individual Clearance
KA: Individual Ka
SS: Steady State
II: Interdose Interval
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model w/ Oral Absorption & Michaelis-Menten Elimination

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Oral_1CPTMM

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
KA: Individual Absorption constant
V: Individual Simulated Volume
VM: Individual Vm constant
KM: Individual Km constant
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

2 Compartment Model with Oral Absorption Simulated Data from ACOP 2016

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Oral_2CPT

Format

A data frame with 7,920 rows and 15 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
Q: Individual Inter-compartmental Clearance
V1: Individual Simulated Volume
V2: Individual Simulated Peripheral Volume
CL: Individual Clearance
KA: Individual Ka
SS: Steady State
II: Interdose Interval
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

1 Compartment Model w/ Oral Absorption & Michaelis-Menten Elimination

Description

This is a simulated dataset from the ACOP 2016 poster. All Datasets were simulated with the following methods.

Usage

Oral_2CPTMM

Format

A data frame with 7,920 rows and 14 columns

ID: Simulated Subject ID
TIME: Simulated Time
DV: Simulated Dependent Variable
LNDV: Simulated log(Dependent Variable)
MDV: Missing DV data item
AMT: Dosing AMT
EVID: NONMEM Event ID
DOSE: Dose
KA: Individual Absorption constant
V1: Individual Simulated Volume
V2: Individual Simulated Perhipheral Volume
Q: Individual Inter-compartmental Clearance
VM: Individual Vm constant
KM: Individual Km constant
SD: Single Dose Flag
CMT: Compartment

Details

Source

Schoemaker R, Xiong Y, Wilkins J, Laveille C, Wang W. nlmixr2: an open-source package for pharmacometric modelling in R. ACOP 2016

Simulated Data Set for comparing objective functions

Description

This is a simulated dataset from Wang2007 where various NONMEM estimation methods (Laplace FO, FOCE with and without interaction) are described.

Usage

Wang2007

Format

A data frame with 20 rows and 3 columns

ID: Simulated Subject ID
Time: Simulated Time
Y: Simulated Value

Source

Table 1 from Wang, Y Derivation of Various NONMEM estimation methods. J Pharmacokinet Pharmacodyn (2007) 34:575-593.

Inverse Guassian absorption model

Description

Inverse Guassian absorption model

Usage

invgaussian

Format

A data frame with 32 rows and 6 columns

time: Time of observation
cp: Concentration

Source

Figure 9.7 in D'Argenio DZ, Schumitzky A, and Wang X (2009). "ADAPT 5 User's Guide: Pharmacokinetic/Pharmacodynamic Systems Analysis Software".

Mavoglurant PK data

Description

This was used in a full PBPK model. This one was published for mavoglurant (Wendling et al. 2016).

Usage

mavoglurant

Format

A data frame with 2,678 rows by 14 columns

ID: Subject ID
CMT: Compartment Number
EVID: Event ID
MDV: Missing DV
DV: Dependent Variable, Mavoglurant
AMT: Dose Amount Keyword
TIME: Time (hr)
DOSE: Dose
OCC: Occasion
RATE: Rate
AGE: Age
SEX: Sex
WT: Weight
HT: Height

Source

Wendling et al. 2016

Parent/Metabolite dataset

Description

Parent/Metabolite dataset

Usage

metabolite

Format

A data frame with 32 rows and 6 columns

time: Time of observation
y1: Parent Concentration
y2: Metabolite Concentration

Source

D'Argenio DZ, Schumitzky A, and Wang X (2009). "ADAPT 5 User's Guide: Pharmacokinetic/Pharmacodynamic Systems Analysis Software".

Nimotuzumab PK data

Description

ID: Subject ID
TIME: Time (hrs)
AMT: Dose Amount Keyword
RATE: Rate
DV: Dependent Variable, Nimotuzumab
TAD: Time After Dose
CMT: Compartment Number
OCC: Occasion
MDV: Missing DV
EVID: Event ID
WGT: Weight
BSA: Body Surface Area
AGE: Age
HGT: Height
DOS: Dose

Usage

nimoData

Format

A data frame with 441 rows by 15 columns

Source

Rodriguez-Vera et al. 2015

One compartment test dataset showing NONMEM 7.4.3 output

Description

This is a example dataset originally created to show how similar mrgsolve and NONMEM were (See ).

Usage

nmtest

Format

A data frame with 7,157 rows and 15 columns

id: NONMEM id
time: NONMEM time
cp: NONMEM cp output from 7.4.3
cmt: cmt specification 1=depot, 2=central
amt: Nonmem dose
evid: NONMEM Event ID
ii: Interdose Interval
ss: Steady state flag
addl: Individual Clearance
rate: Rate of the infusion
lagt: Lag time
bioav: Bioavailability
rat2: Modeled rate when mode == 1
dur2: Duration when mode == 2
mode: Mode = 0 is no modification, modeled rate when mode=1 and modeled duration when mode=2

Details

The original dataset was created by Kyle Baron and is composed of id<100 the id>100 are modifications by Matthew Fidler to benchmark steady state infusions with lag times and other uncommon features.

Note that rxode2/nlmixr2 will not always match these behaviors by default, we choose behaviors that we believe make sense. There are options to make rxode2/nlmixr2 behave more like NONMEM. However behaviors we believe are wrong we do not support.

Author(s)

Kyle Baron & Matthew Fidler

Single Dose Phenobarbitol PK/PD

Description

This is from a PK study in neonatal infants. They received multiple doses of phenobarbital for seizure prevention.

Usage

pheno_sd

Format

A data frame with 744 rows and 8 columns

ID: Infant ID
TIME: Time (hr)
AMT: Dose (ug/kg)
WT: Weight (kg)
APGR: A 5-minute Apgar score to measure infant health
DV: The concentration of phenobarbitol in the serum (ug/mL)
MDV: If the dependent variable (DV) is missing; 0 for observations, 1 for doses
EVID: Event ID

Details

The data were originally given in Grasela and Donn(1985) and are analyzed in Boeckmann, Sheiner and Beal (1994), in Davidian and Giltinan (1995), and in Littell et al. (1996).

Source

Pinheiro, J. C. and Bates, D. M. (2000), Mixed-Effects Models in S and S-PLUS, Springer, New York. (Appendix A.23)

Davidian, M. and Giltinan, D. M. (1995), Nonlinear Models for Repeated Measurement Data, Chapman and Hall, London. (section 6.6)

Grasela and Donn (1985), Neonatal population pharmacokinetics of phenobarbital derived from routine clinical data, Developmental Pharmacology and Therapeutics, 8, 374-383.

Boeckmann, A. J., Sheiner, L. B., and Beal, S. L. (1994), NONMEM Users Guide: Part V, University of California, San Francisco.

Littell, R. C., Milliken, G. A., Stroup, W. W. and Wolfinger, R. D. (1996), SAS System for Mixed Models, SAS Institute, Cary, NC.

Pump failure example dataset

Description

The records the number of failures and operation time for groups of 10 pumps.

Usage

pump

Format

A data frame with 10 rows and 5 columns

y: Number of pump failures
t: Failure Time
group: Continuous Operation (=1) or Intermittent Operation(=2)
ID: ID for group of 10 pumps
logtstd: Centered operation times

Source

https://support.sas.com/documentation/cdl/en/statug/63033/HTML/default/viewer.htm#statug_nlmixed_sect040.htm

References

Gaver, D. P. and O'Muircheartaigh, I. G. (1987), "Robust Empirical Bayes Analysis of Event Rates," Technometrics, 29, 1-15.

Pregnant Rat Diet Experiment

Description

16 pregnant rats have a control diet, and 16 have a chemically treated diet. The litter size for each rat is recorded after 4 and 21 days. This dataset is used in the SAS Probit-model with binomial data, and saved in the nlmixr2 package as rats.

Usage

rats

Format

A data frame with 32 rows and 6 columns

trt: Treatment; c= control diet; t=treated diet
m: Litter size after 4 days
x: Litter size after 21 days
x1: Indicator for trt=c
x2: Indicator for trt=t
ID: Rat ID

Source

https://support.sas.com/documentation/cdl/en/statug/63033/HTML/default/viewer.htm#statug_nlmixed_sect040.htm

References

Weil, C.S., 1970. Selection of the valid number of sampling units and a consideration of their combination in toxicological studies involving reproduction, teratogenesis or carcinogenesis. Fd. Cosmet. Toxicol. 8, 177-182.

Williams, D.A., 1975. The analysis of binary responses from toxicological experiments involving reproduction and teratogenicity. Biometrics 31, 949-952.

McCulloch, C. E. (1994), "Maximum Likelihood Variance Components Estimation for Binary Data," Journal of the American Statistical Association, 89, 330 - 335.

Ochi, Y. and Prentice, R. L. (1984), "Likelihood Inference in a Correlated Probit Regression Model," Biometrika, 71, 531-543.

Multiple dose theophylline PK data

Description

This data set starts with the day 1 concentrations of the theophylline data that is included in the nlme/NONMEM. After day 7 concentrations were simulated with once a day regimen for 7 days (QD).

Usage

theo_md

Format

A data frame with 348 rows by 7 columns

ID: Subject ID
TIME: Time (hr)
DV: Dependent Variable, theophylline concentration (mg/L)
AMT: Dose Amount (kg)
EVID: rxode2/nlmixr2 event ID (not NONMEM event IDs)
CMT: Compartment number
WT: Body weight (kg)

Source

NONMEM/nlme

Multiple dose theophylline PK data

Description

This data set is the day 1 concentrations of the theophylline data that is included in the nlme/NONMEM.

Usage

theo_sd

Format

A data frame with 144 rows by 7 columns

ID: Subject ID
TIME: Time (hr)
DV: Dependent Variable, theophylline concentration (mg/L)
AMT: Dose Amount (mg)
EVID: rxode2/nlmixr2 event ID (not NONMEM event IDs)
CMT: Compartment Number
WT: Body weight (kg)

Source

NONMEM/nlme

Warfarin PK/PD data

Description

Warfarin PK/PD data

Usage

warfarin

Format

A data frame with 519 rows and 9 columns

id: Patient identifier (n=32)
time: Time (h)
amt: Total drug administered (mg)
dv: Warfarin concentrations (mg/L) or PCA measurement
dvid: Dependent identifier Information (cp: Dose or PK, pca: PCA, factor)
evid: Event identifier
wt: Weight (kg)
age: Age (yr)
sex: Sex (male or female, factor)

Source

Funaki T, Holford N, Fujita S (2018). Population PKPD analysis using nlmixr2 and NONMEM. PAGJA 2018

References

O'Reilly RA, Aggeler PM, Leong LS. Studies of the coumarin anticoagulant drugs: The pharmacodynamics of warfarin in man. Journal of Clinical Investigation 1963; 42(10): 1542-1551

O'Reilly RA, Aggeler PM. Studies on coumarin anticoagulant drugs Initiation of warfarin therapy without a loading dose. Circulation 1968; 38: 169-177.

Simulated Friberg Myelosuppression model (Yuan Xiong)

Description

ID: Subject ID
TIME: Time (hrs)
RATE: Rate
AMT: Dose Amount Keyword
DV: Dependent Variable, WBC
CMT: Compartment Number
V2I: Input Peripheral Volume
V1I: Input Central Volume
V1I: Input Clearance
EVID: nlmixr2/rxode2 classic evid

Usage

wbcSim

Format

An object of class data.frame with 280 rows and 10 columns.

Source

Simulated Data for WBC pac ddmore model

1 Compartment Model Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

1 Compartment Model w/ Michaelis-Menten Elimination

Description

Usage

Format

Details

Source

See Also

2 Compartment Model

Description

Usage

Format

Details

Source

See Also

2 Compartment Model with Michaelis-Menten Clearance

Description

Usage

Format

Details

Source

See Also

1 Compartment Model Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

1 Compartment Model w/MM elimination Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

2 Compartment Model with Infusion Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

2 Compartment Model w/MM elimination Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

1 Compartment Model with Oral Absorption Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

1 Compartment Model w/ Oral Absorption & Michaelis-Menten Elimination

Description

Usage

Format

Details

Source

See Also

2 Compartment Model with Oral Absorption Simulated Data from ACOP 2016

Description

Usage

Format

Details

Source

See Also

1 Compartment Model w/ Oral Absorption & Michaelis-Menten Elimination

Description

Usage