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authorJohannes Ranke <jranke@uni-bremen.de>2017-03-04 09:58:00 +0100
committerJohannes Ranke <jranke@uni-bremen.de>2017-03-04 09:58:00 +0100
commit3010c9dcbc7f90f15b55c14919f6688d61d14414 (patch)
tree781d9678bd25b451bce0c7b6d47e396be9c6ca1c /vignettes
parentb847fec686bc1db59079412eb18063d3514ecf75 (diff)
Mention pkgdown.jrwb.de/mkin in README
Add very small twa vignette, update pkgdown docs
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+---
+title: Calculation of time weighted average concentrations with mkin
+author: Johannes Ranke
+date: "`r Sys.Date()`"
+bibliography: references.bib
+vignette: >
+ %\VignetteEngine{knitr::rmarkdown}
+ %\VignetteIndexEntry{Calculation of time weighted average concentrations with mkin}
+ %\VignetteEncoding{UTF-8}
+---
+
+Since version 0.9.45.1 of the 'mkin' package, a function for calculating
+time weighted average concentrations for decline kinetics (*i.e.* only
+for the compound applied in the experiment) is included.
+
+Time weighted average concentrations for the DFOP model are calculated using
+the formulas given in the FOCUS kinetics guidance [@FOCUSkinetics2014, p. 251]:
+
+SFO:
+
+$$c_\textrm{twa} = c_0 \left( 1 - e^{- k t} \right) $$
+
+FOMC:
+
+$$c_\textrm{twa} = c_0 \frac{\beta}{t (1 - \alpha)}
+ \left( \left(\frac{t}{\beta} + 1 \right)^{1 - \alpha} - 1 \right) $$
+
+DFOP:
+
+$$c_\textrm{twa} = \frac{c_0}{t} \left(
+ \frac{g}{k_1} \left( 1 - e^{- k_1 t} \right) +
+ \frac{1-g}{k_2} \left( 1 - e^{- k_2 t} \right) \right) $$
+
+Often, the ratio between the time weighted average concentration $c_\textrm{twa}$
+and the initial concentration $c_0$
+
+$$f_\textrm{twa} = \frac{c_\textrm{twa}}{c_0}$$
+
+is needed. This can be calculated from the fitted initial concentration $c_0$ and
+the time weighted average concentration $c_\textrm{twa}$, or directly from
+the model parameters using the following formulas:
+
+SFO:
+
+$$f_\textrm{twa} = \left( 1 - e^{- k t} \right) $$
+
+FOMC:
+
+$$f_\textrm{twa} = \frac{\beta}{t (1 - \alpha)}
+ \left( \left(\frac{t}{\beta} + 1 \right)^{1 - \alpha} - 1 \right) $$
+
+DFOP:
+
+$$f_\textrm{twa} = \frac{1}{t} \left(
+ \frac{g}{k_1} \left( 1 - e^{- k_1 t} \right) +
+ \frac{1-g}{k_2} \left( 1 - e^{- k_2 t} \right) \right) $$
+

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