Package: LW1949 1.1.0.9000

Jean V. Adams

LW1949: An Automated Approach to Evaluating Dose-Effect Experiments Following Litchfield and Wilcoxon (1949)

The manual approach of Litchfield and Wilcoxon (1949) <http://jpet.aspetjournals.org/content/96/2/99.abstract> for evaluating dose-effect experiments is automated so that the computer can do the work.

Authors:Jean V. Adams [aut, cre]

LW1949_1.1.0.9000.tar.gz
LW1949_1.1.0.9000.zip(r-4.5)LW1949_1.1.0.9000.zip(r-4.4)LW1949_1.1.0.9000.zip(r-4.3)
LW1949_1.1.0.9000.tgz(r-4.4-any)LW1949_1.1.0.9000.tgz(r-4.3-any)
LW1949_1.1.0.9000.tar.gz(r-4.5-noble)LW1949_1.1.0.9000.tar.gz(r-4.4-noble)
LW1949_1.1.0.9000.tgz(r-4.4-emscripten)LW1949_1.1.0.9000.tgz(r-4.3-emscripten)
LW1949.pdf |LW1949.html
LW1949/json (API)
NEWS

# Install 'LW1949' in R:
install.packages('LW1949', repos = c('https://jvadams.r-universe.dev', 'https://cloud.r-project.org'))

Peer review:

Bug tracker:https://github.com/jvadams/lw1949/issues

On CRAN:

29 exports 3 stars 0.92 score 6 dependencies 40 scripts 153 downloads

Last updated 7 years agofrom:3867cfb859. Checks:OK: 1 NOTE: 6. Indexed: yes.

TargetResultDate
Doc / VignettesOKSep 17 2024
R-4.5-winNOTESep 17 2024
R-4.5-linuxNOTESep 17 2024
R-4.4-winNOTESep 17 2024
R-4.4-macNOTESep 17 2024
R-4.3-winNOTESep 17 2024
R-4.3-macNOTESep 17 2024

Exports:assessfitcoefprobitconstraincorrectvaldataprepestimablefillfitHandfitlinearfitLWautofitprobitfxcatgamtable1invprobitkeeponlyLWchi2LWestimateLWnomo1LWPnomoCoordplotDEplotDELPpredlinearpredLinespredLinesLPpredprobitprettylogprobitrelPotency

Dependencies:latticeMASSMatrixmgcvnlmeplotrix

Introduction to LW1949

Jean V. Adams

Rendered fromIntro.Rmdusingknitr::rmarkdownon Sep 17 2024.

Last update: 2017-03-19
Started: 2015-03-20

Readme and manuals

Help Manual

Help pageTopics
Assess Fit of Dose-Response Curveassessfit
Calculate the Coefficients of a Probit Regression Fitcoefprobit
Constrain Data to a Specified Rangeconstrain
Predict the Corrected Proportional Effectcorrectval
Prepare Datadataprep
Determine if a Dose-Effect Relation is Estimableestimable
Fill in Missing Valuesfill
Best Fit Using Estimated Expected EffectsfitHand
Determine Linear Regression Coefficients from Dose-Effect Datafitlinear
Best Fit Using Litchfield and Wilcoxon Evaluation of Dose-Effect ExperimentsfitLWauto
Fit a Probit Regression to Dose-Effect Datafitprobit
Define Effect Categoryfxcat
Fit a smooth GAM to Table 1 of Litchfield and Wilcoxon (1949)gamtable1
Convert Probit Scale to Proportionsinvprobit
Eliminate Consecutive Extreme Valueskeeponly
Automated Litchfield and Wilcoxon (1949) Evaluation of Dose-Effect ExperimentsLW1949-package LW1949
Chi-Squared StatisticLWchi2
Generate Litchfield and Wilcoxon EstimatesLWestimate
Recreate Litchfield and Wilcoxon's Nomograph No. 1LWnomo1
User Friendly Evaluation of Dose-Effect Experiments using Litchfield-Wilcoxon and Probit MethodsLWP
Find the Coordinate from the Scale of a NomographnomoCoord
Plot Dose-Effect ExperimentsplotDE
Plot Dose-Effect ExperimentsplotDELP
Determine the Effective Dose from a Linear Regression Fitpredlinear
Add Litchfield and Wilcoxon Predictions to a PlotpredLines
Add Litchfield and Wilcoxon Predictions to a PlotpredLinesLP
Determine the Effective Dose from a Probit Regression Fitpredprobit
Pretty Breakpoints on Log Scaleprettylog
Convert Proportions to the Probit Scaleprobit
Relative Potency of Two ToxinsrelPotency