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httk 2.4.0 (2024-8-14)
This release accompanies the submission of the new manuscript
“Enabling Transparent Toxicokinetic Modeling for Public Health Risk
Assessment” and includes changes intended to better faciliate
development of new HTTK models through improved model clarity.
In addition we have incorporated comments received on manuscript
“Impact of Gut Permeability on Estimation of Oral Bioavailability for
Chemicals in Commerce and the Environment” provided by reviewers at
ALTEX.
Bug Fixes
- Cleaned up functions for model 3compartment
- Corrected error where non-restrictive clearance option was not
working for model pbtk
- Set restrictive.clearance=TRUE by defailt in ‘calc_hep_clearance’
when model = “unscaled”
- Corrected compartment names for model “gas_pbk” – “Calv”, “Cendexh”,
and “Cmixexh” were being returned in ppmv units, while “Calvppmv”,
“Cendexhppmv”, and “Cmixexhppmv” were in uM
- Calculation of Fabs corrected for non-human species to follow Yu and
Amidon (1999) using small intestine mean residence time and radius.
(Thank you ALTEX reviewers)
- Intestinal flow rate correction to the Qgut model now scales with
body weight (rodent Fgut was being predicted way too low)
- Corrected units of Peff in calculation of Fabs by ‘calc_fabs.oral’–
calculations now indicate that more chemicals are poorly absorbed.
- Revised ‘calc_css’ to handle models with no specified analytic
solution
- Revised ionization code in ‘armitage_eval’ so that pka_donor and
pka_accept values now correctly used (thank you Meredith Scherer)
- Corrected bug in ‘solve_model’ when only specific times requesed and
plots=TRUE (thank you Kimberly Troung)
- Corrected bug with ‘get_chem_id’ when using ‘add_chemtable’ without
DTXSIDs (thank you Marc Beal and Miyuki Breen)
- Corrected bug with ‘creater_mc_samples’ where arguments were not
getting passed to ‘invitro_mc’ (thank you Hsing-Chieh Lin and Weihsueh
Chiu)
- Corrected bug in ‘solve_model’ where tsteps was ignored if times
were specified
Enhancements
- A physiology data table from ‘httkpop_generate’ can now be passed to
‘calc_mc_css’ and ‘calc_mc_tk’ (and ‘calc_mc_css’ via …) so that a
consistent populatin can be used across monte carlo runs. See argument
httkpop.dt.
- Physico-chemical properties are now retrieved from the CompTox
Chemicals Dashboard programmatically using R package ctxR (Thank
you Paul Kruse)
- ‘calc_fabs.oral’ now calculates oral uptake rate kgutabs using
Caco-2 permeability, according to method of Lennernas (1997) (Thank you
ALTEX reviewers)
- Revised and changed name of ‘get_fabsgut’ to ‘get_fbio’ and modified
function to use ‘calc_fbio.oral’ rather than call oral bioavailability
subfunctions directly
- Replaced conversion of human effective gut permeability to rat using
Wahajudin et al. (2011) regression (Thank you ALTEX reviewers)
- Loading message displaying version now appears when package is
loaded (thank you EPA NAMs class)
- Cleaned up code for various ODE models to make them more consistent
and better annotated (added more comments)
- Reordered variables in modelinfo files for consistency so that diff
can be used more easily to compare two models
- Modified ‘calc_kair’ to only allow neutral chemical fraction to
partition into air (thank you Jon Arnot)
- Updated help files describing models
- Default ODE solver tolerances increased to just below significant
figures reported by HTTK (we report 4 sig figs, now require the solver
to only converge to 5)
- ‘solve_[MODEL]’ functions now exclusively pass arguments to deSolve
through “…”
- New modelinfo file variable default.solver.method can be set –
specifies the default ODE solver approach for deSolve if “lsoda” is not
desired
- Revised ‘calc_css’ to better calculate the day on which steady-state
is reached
- Added internal function ‘check_model’ to provide more informative
error messages when key model parameters are missing
- Updated scoping on several functions so that data.tables are handled
locally within the functions and not passed by reference.
- Precision of time points added by tsteps argument in ‘solve_model’
now limited to ten times higher than small.time
- Additional time points now reported in ‘solve_model’ immediately
after dose events to improve plotting
httk 2.3.1 (2024-3-19)
This patch addresses a number of bugs.
Bug Fixes
- Argument keepit100 was being improperly ignored by
get_fabsgut
- Fixed issue where
create_mc_samples
could not handle
argument parameters being a list (as in,
parameters=parameterize_steadstate(chem.name=“bisphenola”))
- Error messages for
calc_css
now explain that function
is only applicable to dynamical (time-evolving) models and handles
errors with other models (such as 3compartmentss) more gracefully
- Changed Rblood2plasma to Rfblood2plasma for fetal plasma in model
fetal_pbtk (Thank you to Kimberly Troung)
- Liquid densities previous referred to as ppmv for
convert_units
were actually ppmw. Cannot calculate ppmv
without chemical-specific liquid density, which we do not know.
- Added model descriptor compartment.state to indicate which
compartments are liquid and which are gaseous
- ‘calc_analytic_css_3compss’ was reporting blood concentrations when
asked for plasma
Enhancements
- Changed
armitage_eval
to allow chemical specification
by usual arguments chem.name, chem.cas, and DTXSID. Preserved
casrn.vector for backward compatibility.
- Changed
armitage_eval
to allow multiple instances of
chemicals (no longer using CASRN as row names) – thank you Katie Paul
Friedman for suggestion
- Added Katie Paul Friedman (USEPA) as contributor for long history of
suggesting refinements and putting up with bugs
- Function
solve_model
now gives warnings when ignoring
elements of dosing for a given model and route
(acceptible dosing.params are now specified by the modelinfo_[MODEL].R
file)
httk 2.3.0 (2023-12-05)
This version accompanies the submission of manuscript Honda et al.
“Impact of Gut Permeability on Estimation of Oral Bioavailability for
Chemicals in Commerce and the Environment”. Find the analysis scripts on
GitHub
Bug Fixes
- Added parameter plasma.vol to one
compartment model so that Monte Carlo works for non-human species
- Added default units for Aexh and
Ainh state variables in
gas_pbtk model so that
calc_css
works for accumulative chemcials
- Corrected the Linakis et
al. (2020) vignette to reflect that all CvTdb data used there
already are in uM
- Corrected ppbv unit conversions in
convert_units
- Precision of time output in
solve_model
is no longer
restricted to four significant figures
- Fixed bug with Monte Carlo functions (for example,
calc_mc_oral_equiv
) wherein you could not specify the
argument parameters to be a table created by
create_mc_samples
(thanks Jayme Coyle and Tyler
Lalonde)
- Revised
convert_units
to handle multiple molecular
weights – this enables convert_mc_oral_equivalent
to take a
table of parameters for Monte Carlo
- Updated the checks and reported error messages in
get_clint
and get_invtroPK_param
to be more
informative
- Corrected calculation of mean blood:plasma partition coefficient
when measured RBlood2plasma is avaialble
- Clint and fup
are now adjusted for in vitro binding when
invitrouv=FALSE
(thanks cm16120)
New Features
- Added in vitro measured Caco-2 membrane permeability data
for 310 chemicals allowing characterization of oral bioavailability
- Added new function
load_honda2023
to load QSPR
(quantitative structure-property relationship model) predictions for
Caco-2 membrane permeability for ~10,000 chemicals – QSPR is optimized
to detect low permeability chemicals and therefore predicts only three
values (low/medium/high permeability)
- Added new functions
calc_fbio.oral
,
calc_fabs.oral
, and calc_fgut.oral
for
calculating systemic bioavailability as \(Fbio
= Fabs \times Fgut \times Fhep\) where first-pass hepatic
metabolism was already available from
calc_hep_bioavailability
.
- Changed the name of the variable describing fraction absorbed from
the gut prior to first-pass hepatic metabolism to \(Fabsgut\) to reflect that \(Fabs\) and \(Fgut\) are now modeled separately (that is,
Fabsgut = Fabs Fgut).
- Integrated \(Fabs\) and \(Fgut\) into oral exposure for all TK models
and integrated into population variability and uncertainty functions
within
invitro_uv
- Added new function
benchmark_httk
to compare current
function of the package against historical performance (stored in
data.frame httk.performance
)
- We now skip over the first five minutes when calculating Cmax in
calc_tkstats
to allow PBTK model to distribute iv
doses
Enhancements
- Added QSPR predictions for Fup and Clint for several thousand
chemicals using the Dawson et al. (2020)
models – accessible from
load_dawson2021
(thank you Alex
Fisher and Mike Tornero!)
- Predicted phys-chem properties for most chemicals using OPERA v2.9 (updated
armitage_eval
to properly convert water solubility from
OPERA units)
- Package now requires ggplot2 – will gradually shift
all plotting from base R
- Returned and updated the Pearce et
al. (2017) vignette on Evaluation of Tissue Partitioning
- Revised function
convert_units
, expanding the variety
of unit conversions available – it is critical to distringuish between
state of matter (liquid vs. gas)
- Model 1compartment allows volatile
chemicals again since clearance is amorphous for that model (likely
underestimated without exhalation)
- Many manuscript references listed in function documentation were
converted to a BibTex format from manual insertion of the citations.
(thanks Lily Whipple)
- Updated
get_physchem_param
to be case-insensitive
- New Clint and
Fup data curated from literature by ICF from Black et
al. (2021), Williamson et
al. (2020), Zanelli
et al. (2012), Yamagata et
al. (2017), and Zanelli et
al. (2019) (thank you Noelle Sinski and Colin Guider)
httk 2.2.2 (2023-02-20)
Bug Fixes
- Corrected analytic steady-state functions for PBTK, 3-compartment,
and 3-compartment steady-state models to return plasma, not blood
concentrations (via blood:plasma ratio)
- Removed inappropriate second adjustment for binding in intrinsic
hepatic clearance assay from
cal_hep_clearance
– Kilford (2008)
adjustment now only occurs in parameterization functions* Added new
function apply_clint_adjustment
to standardize
implementation of adjustment (thanks Todor Antonijevic)
- Fixed major bug in
calc_ionization
that caused error
when argument pH was a vector – impacts Monte Carlo for ionized
compounds
- Corrected equation tracking amount inhaled in gas pbtk model (thanks
Cecilia Tan)
- Fixed bugs that prevented using Monte Carlo with phys-chem
parameters
- Fixed error for species with missing in vitro data (thanks
Lu En-Hsuan)
- Fixed bug where
solve_model
returned other than
requested times when argument times was specified (thanks Kimberly
Truong)
New Features
- Added updated vignette from Pearce et al. (2017):
v79i04.R
- Added new vignette on “Introduction to IVIVE”
- Added functions
calc_fup_correction
and
apply_fup_adjustment
to consolidate and make uniform
application of the Pearce et
al. (2017) lipid binding adjustment to in vitro measured
fup
- We now export function
calc_dow
for the distribution
coefficient
- New function
calc_ma
separates membrane affinity
calculation from parameterize_schmitt
- New function
calc_kair
separates calculation of
blood:air, water:air, and mucus:air partition coefficients from
parameterize_gas_pbtk
Enhancements
- Added cutoff of logKow/logDow no greater than 6 for
calc_fup_correction
and calc_hep_fu
based on
the idea that the in vitro assays are not long enough to reach
concentration ratios greater than 1,000,000 to 1
- Updated
calc_analytic_css_pbtk
to reflect Breen et
al. (2022) modification to glomerular filtration in the kidney
get_cheminfo
now lists required parameters when
chemicals are excluded (thanks Ben Savage)
- Returned
daily.dose
argument to
calc_mc_css
(still defaults to 1 mg/kg/day)
- Simplified arguments needed for
calc_mc_css
and
calc_mc_tk
since now internally using do.call
wherever possible to pass arguments
- Revised restrictive.clearance argument for function
solve_model
- Added inline code comments to
predict_partitioning_schmitt
identifying corresponding
equations in Schmitt
(2008)
- Added option
class.exclude
to get_cheminfo
– defaults to TRUE
, but if FALSE
then chemical
classes are not excluded on the basis of specified model
- Updated various function documentation
httk 2.2.1 (2022-09-24)
This minor update removes UTF-8 characters from the package and
changes the calculation of kUrt on line 292 of
model_gas_pbtk.c
to reduce vulnerability to machine
precision errors.
httk 2.2.0 (2022-09-08)
This version accompanies the submission of the Breen et
al. manuscript “Simulating Toxicokinetic Variability to Identify
Susceptible and Highly Exposed Populations”
Enhancements
- HTTK-Pop population simulator:
- Replaced HTTK-Pop data from NHANES cycles 2007-2012 with data from
most recent 3 NHANES cycles (2013-2018)
- Reduced size of data file httkpop.RData. NHANES data now stored as
object
mecdt
of class data.table
, rather than
as object nhanes_mec_svy
of class
survey.design2
. Also, no longer storing pre-calculated
spline fits for serum creatinine and hematocrit vs. age, or
pre-calculated age distributions (used by HTTK-Pop in
virtual-individuals mode); these are now calculated “on the fly”.
- In CKD-EPI equation used to estimate GFR for simulated adults based
on serum creatinine, age, sex, and race (black/non-black): set
race factor
to 1 by default (that is, treat all simulated
adults as “non-black” for purposes of GFR estimation), to reflect recent
changes in clinical practice. (Control this behavior with
httkpop_generate()
argument
ckd_epi_race_factor
)
- Add residual variability to GFR estimated using CKD-EPI equation, by
default. (Control whether to add residual variability using
httkpop_generate()
argument
gfr_resid_var
)
- Phys-chem properties:
- PBTK model equations:
- Revised renal clearance to be GFR x [Unbound concentration in
arterial plasma] (previously it was GFR x [Unbound conc in kidney
plasma])
- Miscellaneous:
- Added suggestion message to set
default.to.human=TRUE
when rat fup is 0 (Thanks Jim Sluka)
- Added wrapper functions (
get_wetmore...
) for backward
compatibility (Thanks Jim Sluka)
- Updated
invitro_mc
to remove inconsistencies and
correct handling of fup where median is zero
but upper 95th is non-zero
- Added internal function
remd0non0u95
to draw random
numbers such that the median is zero and the upper 97.5th quantile is
non-zero, taking limit of detection into account
- Revised and expanded documentation for
calc_mc_css
and
calc_mc_oral_equiv
- Added logical arguments to
invitro_mc
to directly allow
user to turn uncertainty and variability off (previously this was done
by setting CV to NULL)
- If Monte Carlo for the fup measurement
(that is, uncertainty) is turned off user may choose to provide columns
for unadjusted.Funbound.plasma or
fup.mean from their own methods
- Moved Kilford et
al. (2008) correction for fraction unbound in hepatocyte assay from
calc_hep_clearance
to the parameterize_X
functions and invitro_mc
– can now be toggled with argument
adjusted.Clint
- New vignette “Introduction to HTTK” added that includes material
from Breen et
al. (2021)
Bug Fixes
- uM units on
calc_mc_css
were incorrectly calculated in
v2.1.0 (only), mg/L units unaffected, but this will have impacted
equivalent doses calculated with calc_mc_oralequiv
(Thank
you Marc Beal!)
- User provided DTXSID chemical identifiers were not passed
appropriately in the
calc_half_life
and prohibited the
ability to obtain steady state parameters.
- Error fixed in
create_mc_samples
related to
default.to.human
argument not being passed to
parameterize_schmitt
httk 2.1.0 (2022-03-26)
This version accompanies the submission of the Kapraun et
al. manuscript “Evaluation of a Rapid, Generic Human Gestational Dose
Model”
New Features
- New HT-PBTK model added as described by Kapraun et
al. (submitted) including functions
solve_fetal_pbtk
and parameterize_fetal_pbtk
- QSAR predicted chemical-specific plasma protein unbound plasma
fraction (fup) and intrinsic hepatic clearance
(Clint) values data from Dawson et al. (2021)
is now included as Dawson2021 and can be added with the new function:
load_dawson2021
- QSAR predicted chemical-specific plasma protein unbound plasma
fraction (fup) and intrinsic hepatic clearance
values (Clint) data from Pradeep et
al. (2020) is now included as Pradeep2020 and can be added with the
new function:
load_pradeep2020
- Added function
calc_halflife
(thank you Imran
Shah)
Enhancements
- Updated
predict_partitioning_schmitt
removing the hard
coded predicted fup regression values from Pearce et
al. (2017) and created stand-alone data matrix
pearce2017regression read in by the
function.
- Internal reusable function
convert_units
added to
ensure consistency in unit conversions across functions
- Units corrected for gas_pbtk model to more naturally handle ppmv
(parts per million by volume) and uM
- Reworked code for
predict_partitioning_schmitt
– now we
read list of tissues needed for a model from modelinfo_X.R
variable alltissues
- Further revised documentation to Armitage et al. (2014)
functions (thank you Madison Feshuk)
- Expanded documentation for function
get_cheminfo
and
table chem.phys_and_invitro.data (thank you
Lynne Haber and Mark Bradley)
- Expanded example for
add_chemtable
to address
ionization (thank you Johann Fribl)
- Added Clint data from Dawson (2021)
training set (CHEMBL)
- Revised
get_cheminfo
to incorporate a chemical class
filter to remove “PFAS” compounds for all models, except
3compartmentss, based on Wambaugh et
al.(2015).
Bug Fixes
- Corrected swapped area_bottom values in
table well_param for the Armitage model. (thank you
Todor Antonijevic)
- Contribution from Todor Antonijevic:
- this.conc_ser_alb,
this.conc_ser_lip, and
this.Vdom added to the list of arguments.
- the volume of headspace calculated as in Armitage et
al. (2014).
- the volume of medium calculated as in Armitage et
al. (2014).
- f_ratio calculated as in Armitage et al. (2014)
- kow added in the denominator of
cwat, that is kowP_domf_oc
Vdom*
- Corrected major bug introduced in 2.0.0 (vectorization of
calc_ionization
) that caused
pKa`s to be ignored in many cases (thank you
Wu Yaoxing)
- Corrected monkey cardiac output (thank you Peter Egeghy)
- Corrected rabbit plasma volume and total body water (thank you Jo
Nyffeler)
httk 2.0.4 (2021-05-10)
Enhancements
- Sarah Davidson is new lead HTTK software engineer (thank you Mark
Sfeir!)
- Added Xiaoqing Chang and Shannon Bell as contributors thanks to
substantial efforts improving the package
- Changed DESCRIPTION to indicate LazyDataCompression is xz
- Revised and expanded documentation for functions related to Armitage et al. 2014 in
vitro distribution model – armitage_eval() and
armitage_estimate_sarea()
- Revised documentation to several functions missing value description
(thank you Julia Haider and Gregor Seyer)
- Revised examples where arguments had changed (thank you Julia
Haider)
- Revised and expanded documentation for functions related to Armitage et al. 2014 in
vitro distribution model – armitage_eval() and
armitage_estimate_sarea()
- Revised
get_cheminfo
behavior to change chemical
hepatic clearance values where p-value is not consistent with decrease
(p-value > clint.pvalue.threshold, default
0.05) to zero.
- Revised
get_cheminfo
behavior to remove fraction
unbound in plasma values if credible interval spans from < 0.1 to
> 0.9 (turn off with
fup.ci.cutoff=FALSE).
- Revised
get_cheminfo
to include
median.only argument allowing confidence
intervals to be removed for chemical intrinsic hepatic clearance
(Clint) values and fraction unbound in plasma
(fup) values where they exist (turn on with
median.only=TRUE).
- Revised
get_cheminfo
to filter volatile compounds using
Henry`s law constant for all models, excluding the
gas_pbtk model.
Bug Fixes
- Fixed problems with Clint values reported
from Wood et
al. 2017, fraction unbound in hepatocyte assay adjustment was being
applied twice (thank you Xiaoqing Chang)
- Fixed problems with clearance from source “Ito/Riley”: “not
determined” was mistakenly being interpreted as “0” rather than not
measured (thank you Xiaoqing Chang)
httk 2.0.3 (2020-09-25)
Enhancements
- Updated literature chemical-specific human and rat in vitro
data:
- Renamed
calc_stats
to calc_tkstats
–
calc_stats
remains temporarily but calls
calc_tkstats
- Added warnings to deprecated function names
calc_stats
and calc_hepatocyte_clearance
- Revised how default.to.human works, so that
get_cheminfo
and parameterize_schmitt
now
handle odd cases (like species is zero but human is not) better
- Argument info for
get_cheminfo
is now case insensitive
add_chemtable
(really internal function
augment.table
) changed to enforce significant figures
(default 4)
- OPERA phys-chem properites provided by CompTox Chemicals Dashboard
have been slightly revised
- Updated documentation to well parameters for Armitage et al. (2014)
model (thank you Katie Paul-Friedman and Greg Honda)
- added
allow.na
argument to add_chemtable
so that values can be deleted (thanks Nisha Sipes)
Bug Fixes
- Fixed logic statement in solve_model to eliminate warning
- Problem with
create_mc_samples
not setting
parameter.names variable when parameters are passed to it was fixed by
Tom Moxon – thank you!
add_chemtable
changed so that pValue and
pValue.Reference
set to NA
when
Clint is changed (thanks Nisha Sipes)
- Output for
calc_tkstats
corrected to display
Rblood2plasma
- Minor fix with argument suppress.messages
in
parameterize_pbtk
httk 2.0.2 (2020-07-19)
Enhancements
- Updated default dosing scheme so that a single-time, initial
dose comes into effect if no other dosing
information is specified, and any dosing info that is specified using
whatever dosing arguments overrides the default. Combinations of dosing
arguments can still be specified.
- Adjusted 3compartmentss model to
effectively make use of any passed chemical identifier information,
especially as it is needed in using
get_physchem_param
to
look up any missing parameter needed in predicting tissue:plasma
partition coefficients using
predict_partitioning_schmitt
.
Bug Fixes
- Fixed errors in the different models` steady state solver functions
to support parameter input of key object types, especially lists and
compound data.tables/data.frames. (thank you, Nisha Sipes)
httk 2.0.1 (2020-03-02)
New Features
- New function
set_httk_precision
is now used throughout
code to enforce a standard set of significant figures (4) and precision
(nothing less than 1e-9).
Enhancements
- Added
calc_hepatic_clearance
wrapper function for
calc_hep_clearance
to allow backwards compatibility
- Revised
get_chemid
to not crash in certain cases (thank
you, Shannon Bell)
- Revised Linakis
et al. (submitted) vignette
Bug Fixes
- Fixed output of
calc_mc_oral_equivalent
(was sometimes
returning all samples unasked, thank you Dan Dawson)
httk 2.0.0 (2020-02-17)
This version is consistent with consistent with Linakis et
al. (submitted) “Development and Evaluation of a High Throughput
Inhalation Model for Organic Chemicals”
New Features
- New generic inhalation PBPK model
gas_pbtk
- New chemical specific parameters for volatile chemicals have been
added:
Enhancements
- Significantly rewrote underlying code to allow more easy integration
of new models. (goodbye spaghetti code!)
- Rewritten functions include:
calc_analytic_css
calc_mc_css
convert_httkpop
(renamed from
convert_httk
)
solve_*
model functions
- Renamed a few httk-pop functions for clarity:
httkpop_biotophys_default
replaces
httkpop_bio
convert_httkpop
replaces convert_httk
- New functions introduced:
solve_model
(mostly used by solve_*
model
functions)
calc_mc_tk
(performs Monte Carlo simulation using a
solve_*
function)
- Models must be much more thoroughly described now, with all relevant
information placed in modelinfo_* files in the /R directory.
- New model-specific functions introduced:
analytic_css_*
: Model-specific analytic steady-state
solution
convert_httkpop_*
: Model-specific functions for
converting HTTK-pop biometrics to model parameters
- Beta testing and bug reports provided by Xiaoqing Chang.
- EPA
s DSSTox Chemical Structure ID
s (DTXSIDs, see https://comptox.epa.gov/dashboard) now work as chemical
identifiers in addition to name and CAS.
- Results now truncated to appropriate significant figures (4) and
precision (1e-12).
- New physiological parameters have been added for monkeys
- To decrease package size the load image
option of
load_sipes2017
was eliminated
- Added vignette for Figure 6 from Frank, et al. (2018)
“Defining toxicological tipping points in neuronal network
development.”
httk 1.10.1 (2019-09-10)
Enhancements
- Changed all file name starting letters to lowercase.
Bug Fixes
- Many bug fixes (thank you David Trudel).
version 1.10.0 (2019-07-12)
This version is consistent with the submitted manuscript Wambaugh et al.
“Assessing Toxicokinetic Uncertainty and Variability in Risk
Prioritization”. Major enhancements were made to allow propagation
of measurement-specific uncertainty and population variability into
IVIVE predictions.
New Features
- New human experimental measurements of fup
and Clint are reported for 418 and 467
chemicals, respectively.
- Data on both fup and
Clint are jointly available for 389 of those
chemicals.
- Clint and fup
values can now be either numeric values (as before) or distributions
characterized by as “MEDIAN,LOWER95TH,UPPER95TH,PVALUE” for
Clint and “MEDIAN,LOWER95TH,UPPER95TH” for
fup. The code has been substantially revised
to accommodate this.
Enhancements
- Added a
minimum.Funbound.plasma
argument since some of
the Bayesian estimates are very low and at some point the values seem
implausible. A value of 0.0001 was selected since it half the lowest
reported measured value. Setting minimum.Funbound.plasma=0
removes this restriction.
- Monte Carlo coefficient of variation for
Clint and fup has
been divided into separate values for uncertainty (from measurement) and
variability (population/genetic). Default values for coefficients of
variation are
fup.meas.cv=0.4
,
clint.meas.cv=0.3
, fup.pop.cv=0.3
,
clint.pop.cv=0.3
, (from Wambaugh et al,
submitted). Note that most of the new fup
measurements have a lower CV than 0.3.
- All documentation converted to roxygen2
format.
- Vignette names have been updated to make the related publication
clear
- All references to fub (previously
“fraction unbound” but confusing with “fraction unbound in blood”) have
been converted to fup (the intended “fraction
unbpund in plasma”) where appropriate.
- Rewrote
calc_analytic_css
to handle all models in the
same manner.
- Changed argument values “mg” and “mol” for
output.units in
calc_mc_oral_equivalent
to “mgpkgpday” and “umolpkgpday”.
(idea from Katie Paul-Friedman)
- Changed httk-pop argument fup.censor to
fup.censored.dist.
- Armitage et
al. (2014) model functions now work with input of vectors (to allow
data.table compatibility) or input of data.table
- Added the physico-chemical parameters needed to run Armitage et al. model
- Updated
honda.ivive
argument functionality, reduced to
four options as in Honda et
al. (2019) Figure 8 panels a-d, changed “plasma.binding” to
“bioactive.free.invivo”, and exported function to allow user to call
help file
- Added concentration as an option set by
honda.ivive
- Added concentration = “tissue” as an
option to
calc_css
functions
- Added bioactive.free.invivo as an option
to
calc_analytic_css
functions, and calc_mc...
functions
- Function
get_physchem_param
: exported and now works
with vectors of CAS and/or parameters
Bug Fixes
- Corrected error where non-human species were using the incorrect
p-value for Clint when
default.to.human=TRUE
(human p-value is now used). (thank
you Jason Phillips and Shyam Patel for bug report).
- Shyam Patel (Sciome) identified an error in how flow means were
scaled by age in httk-pop Monte Carlo sampler.
- Fixed
calc_mc_css
warnings
httk 1.9.2 (2019-04-22)
Bug Fixes
- Updated tests to reflect correct model predictions.
- Fixed errors that was causing the
3compartmentss and
1compartment models to not work with Monte
Carlo. (thank you Jo Nyffeler for bug report).
httk 1.9.1 (2019-04-15)
Bug Fixes
- Fixed significant errors in
calc_analytic_css
that were
causing Css to be over-estimated roughly 10x,
therefore reducing the oral equivalent dose 10x (thank you Nisha Sipes
for bug report).
httk 1.9 (2019-02-04)
This version is consistent with the submitted version of Honda et al. “Using
the Concordance of In Vitro and In Vivo Data to
Evaluate Extrapolation Assumptions”
New Features
- New rat-specific in vitro TK data provided for 65 chemicals
(Honda et
al.)
- New functions for calculating in vitro disposition
according to the Armitage et
al. (2014) model (thank you James Armitage):
armitage_eval
armitage_estimate_sarea
Enhancements
- Mark Sfeir is new lead HTTK software engineer (thank you Robert
Pearce!)
- Moved code base to Bitbucket internally (thank you Sean Watford and
Jeremy Dunne)
- Added arguments to IVIVE functions (for example,
calc_mc_css
) to use sets of assumptions identified by Honda et al.
(for example, IVIVE=“Honda1”) (thank you Katie Paul-Friedman)
- Changed all model parameter sets to include physico-chemical
properties to better facilitate Monte Carlo analysis
- Updated
load_sipes2017
to be much faster by loading an
image by default
- Updated help files for Sipes2017 and
load_sipes2017
.
get_wetmore_X
functions changed to
get_lit_X
httkpop_bio
exported to user functions (function name
since changed to httkpop_biotophys_default
)
- For time point after first dose: bug now corrected when not starting
at time 0 (thank you Xiaoqing Chang)
- Added figures to help files of
solve_[MODEL]
functions
- Added
hematocrit
argument to
calc_rblood2plasma
- Changed amounts in model 1compartment to
not bescaled by body weight, added BW to
parameters for that model thank you Tom Moxon)
- Converted all phys-chem properties except
pKa to values predicted by OPERA (Mansouri et al.,
2018) – see https://github.com/NIEHS/OPERA
- Added missing logP and
MW for some chemicals using predictions from
OPERA
- Renamed and added vignettes
Bug Fixes
- Corrected mistake in
get_cheminfo
help file:
exlude.fub.zero
defaults to FALSE
for model
3compartmentss and TRUE
for
others
- Corrected (thank you Jason Phillips), updated, and added
pKa values from Strope et
al. (2018)
- Corrected
calc_mc_css
bug: species now passed to
function monte_carlo
httk 1.8 (2018-01-23)
This version is consistent with the published version of Pearce et al.
“Evaluation and calibration of high-throughput predictions of chemical
distribution to tissues”. This version contains calibrations for
tissue:plasma partition coefficient calibration predictions.
New Features
- Added arguments to multiple functions for whether or not to use new
calibration regressions (
regression
) and adjusted
Funbound.plasma
(adjusted.Funbound.plasma
).
- Hepatic clearance and plasma binding predictions for ~8000 chemicals
from Simulations Plus ADMET Predictor used in Sipes et al. (2017)
is now included as Sipes2017 and can be added
with the new function:
load_sipes2017()
.
- New data has been added from an IVIVE evaluation of toxicokinetics
Wambaugh et al. 2018
- New toxicokinetic concentration vs. time data were added to
chem.invivo.PK.data (full time course) and
chem.invivo.PK.summary.data (TK statistics
such as Cmax and AUC on a per treatment basis).
- A new table is included: chem.invivo.PK.aggregate
data (TK statistics such as volume of distribution and
elimination rate on a per chemical basis)
- kgutabs default changed to 2.18.
Enhancements
- Funbound.plasma values from Wetmore et al. 2012 and
2013 that were
previously rounded to 2 decimal places are now rounded to 3, resulting
in additional compounds with measurable
Funbound.plasma that were otherwise assumed to
be below the limit of detection.
- pKa data is now readable when values are
separated by a semicolon rather than a comma. These values were
previously misread as neutral.
- Partition coefficients can now be predicted without calculating all
of them, using the tissues argument.
calc_mc_css
runs faster when not using httkpop and
calculating Rblood2plasma, now only calculated
once.
- chem.lists is updated, and
is.pharma
has been added as a function.
calc_analytic_css
does not recalculate all partition
coefficients when specifying a tissue.
- logP values from EPISuite or valued
NA
have been replaced with predictions from OPERA where
available.
- First-pass hepatic metabolism has been added in the form of the
parameter hepatic.bioavailability to the
models 1compartment
(
parameterize_1comp
) and
3compartmentss
(parameterize_steadystate
). Oral doses for these models are
now multiplied by hepatic.bioavailability and
Fgutabs before entering systemic
circulation.
- kinhabs and
kdermabs, both of which were unused in the
models, are removed.
modelPBTK.c
, the source file for the
pbtk model, now has updated variable names,
and corresponding changes are made in solve_pbtk
.
- The time step immediately after addition of dose is added to better
capture peak concentration for iv dosing.
Bug Fixes
- Corrected
calc_mc_css bug
: daily.dose now working as an
argument (previously only running as 1).
httk 1.7 (2017-07-15)
This version is consistent with the JSS publication of Pearce et al. “httk: R
Package for High-Throughput Toxicokinetics”.
Bug Fixes
- Corrected intrinsic clearances for (about 10) compounds from Brown et
al. (2007),
- Corrected output message from
calc_mc_css
- Corrected Funbound.plasma used for
predicting partitioning into interstitial protein (negligible difference
in predictions)
- Corrected bug in calculating Rblood2plasma
in
calc_mc_css
, and added faster method for calculating
Rblood2plasma for
3compartmentss
.
httk 1.6 (2017-06-08)
This version includes data and modifications as reported in the
recently submitted Pearce et al. paper
“Evaluation and Calibration of High-Throughput Predictions of Chemical
Distribution to Tissues”.
Enhancements
- The Schmitt
(2008) method for partition coefficients has been modified and
calibrated using experimental data.
- The new method is now default, although the previous approach is
available (set
regression=FALSE
and
Funbound.plasma.pc.correction=FALSE
for other
models).
- The membrane affinity regression has been updated and always used in
place of the old approach
- Added function
available_rblood2plasma
- in vivo Rblood2plasma used when
available
- well-stirred blood correction and restrictive.clearance options
added
- New in vitro data from Uchimura et al. (2010), Brown et al. (2007)
and Pirovano et
al. (2016), Gulden et
al. (2002)
- Tonnelier et
al. (2012) Funbound.plasma values of 0.005
changed to 0 in
chem.physical_and_invitro.data
- New tissue.data table with Ruark et al. (2014) that
contains different formatting with human and rat specific data
parameterize_schmitt
: added
force.human.fub
argument
- added plasma protein and neutral lipid volume fractions to
physiology.data for use in package
calc_mc_css
: defaults to direct resampling. no longer
coerces species to human when httkpop=TRUE
. When another
species is entered, a warning is thrown and the function behaves as if
httkpop=FALSE
.
- updated help file references and examples
- removed temperature from Schmitt parameters
- overwrite 0 values for
Fubound.plasma
when
overwrite=FALSE
in add_chemtable
- added vignette for generating partition coefficient plots
- added DSSTOX info, new columns:
DSSTox_Substance_Id,
Structure_Formula, or
Substance_Type. overwrote:
MW and SMILES
- added pc.data and
obach2008 tables
- httkpop option in
calc_mc_css
: well-stirred correction
and new Funbound.plasma
used by default. New partition
coefficients used with other models by default.
Bug Fixes
- corrected
parameterize_3comp
default.to.human
bug – no longer always set to false
httk 1.5 (2017-03-02)
This version is consistent with Ring et
al. “Identifying populations sensitive to environmental chemicals by
simulating toxicokinetic variability”, which is accepted for
publication at Environment International. Revisions include models,
data, and vignettes for “httk-pop” functionality. “httk-pop” allows
Monte Carlo simulation of physiological variability using data from the
National Health and Nutrition Examination Survey.
New Features
- httk-pop Monte Carlo human variability functionality is the new
default, although the previous approach is available (set
httkpop=FALSE
).
Enhancements
default.to.human
argument added to
calc_hepatic_clearance
and calc_stats
.
calc_hepatic_clearance
and
calc_total_clearance
do not necessarily require all
parameters.
- Argument
tissue
added to
calc_analytic_css
, calc_mc_css
, and
calc_mc_oral_equiv
, enabling tissue specific calculations
in addition to plasma.
calc_dow
argument fraction.neutral
changed
to fraction.charged
, thus treating Zwitter ions as
neutrals
- Multiple iv doses enabled in
solve_*
functions.
get_rblood2plasma
function added to retrieve in
vivo Rblood2plasma from
chem.physical_and_invitro.data.
Bug Fixes
- Corrected minor bug for
get_cheminfo
- Corrected bug in
monte_carlo
: Upper bound placed at
limit of detection for censored.params
truncated normal
distribution. However, this has no impact on the default case where the
limit of detection is .01 the mean .005 because of the small standard
deviation size (.0015). Only large coefficients of variation or
Funbound.plasma values close to the limit of
detection would be affected.
httk 1.4 (2016-02-03)
This revision incorporates changes suggested by the reviewers of Pearce et al., which
was accepted, pending minor revision, in the Journal of Statistical
Software (now included in vignettes).
- Table name PK.physiology.data changed to
physiology.data.
httk 1.3 (2015-10-14)
This revision adds ~200 more chemicals (from two recent publications
including Wetmore et
al. (2015) and make several small changes to improve usability and
stability.
httk 1.2 (2015-05-11)
This version is consistent with a newly submitted article Pearce et al. “httk: R
Package for High-Throughput Toxicokinetics” to the Journal of
Statistical Software describing use of this package.
- This revision changes some model parameter names to follow a more
systematic naming convention.
- Minor bugs have been corrected.
httk 1.1 (2015-03-06)
Initial public (CRAN) release (March 6, 2015).
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.