lmmSeq | R Documentation |
Fits many linear mixed effects models for analysis of gaussian data with random effects, with parallelisation and optimisation for speed. It is suitable for longitudinal analysis of high dimensional data. Wald type 2 Chi-squared test is used to calculate p-values.
lmmSeq( modelFormula, maindata, metadata, id = NULL, offset = NULL, test.stat = c("Wald", "F", "LRT"), reduced = NULL, modelData = NULL, designMatrix = NULL, control = lmerControl(), cores = 1, removeSingles = FALSE, verbose = TRUE, returnList = FALSE, progress = FALSE, ... )
modelFormula |
the model formula. This must be of the form |
maindata |
data matrix with genes in rows and samples in columns |
metadata |
a dataframe of sample information with variables in columns and samples in rows |
id |
Optional. Used to specify the column in metadata which contains the sample IDs to be used in repeated samples for random effects. If not specified, the function defaults to using the variable after the "|" in the random effects term in the formula. |
offset |
Vector containing model offsets (default = NULL). If provided
the |
test.stat |
Character value specifying test statistic. Current options are "Wald" for type 2 Wald Chi square test using code derived and modified from car::Anova to improve speed for matrix tests. Or "F" for conditional F tests using Saiterthwaite's method of approximated Df. This uses lmerTest::lmer and is somewhat slower. |
reduced |
Optional reduced model formula. If this is chosen, a likelihood ratio test is used to calculate p-values instead of the default Wald type 2 Chi-squared test. |
modelData |
Optional dataframe. Default is generated by call to
|
designMatrix |
Optional custom design matrix generated by call to
|
control |
the |
cores |
number of cores to use for parallelisation. Default = 1. |
removeSingles |
whether to remove individuals with no repeated measures (default = FALSE) |
verbose |
Logical whether to display messaging (default = TRUE) |
returnList |
Logical whether to return results as a list or lmmSeq object (default = FALSE). Helpful for debugging. |
progress |
Logical whether to display a progress bar |
... |
Other parameters passed to
|
By default, p-values for each model term are computed using Wald type 2
Chi-squared test as per car::Anova()
. The underlying code for this has been
optimised for speed. However, if a reduced model formula is specified by
setting reduced
, then a likelihood ratio test (LRT) is performed instead
using anova
. This will double computation
time since two LMM have to be fitted for each gene. For LRT, models being
compared are optimised by maximum likelihood and not REML (REML=FALSE
).
Two key methods are used to speed up computation above and beyond simple
parallelisation. The first is to speed up lme4::lmer()
by calling
lme4::lFormula()
once at the start and then updating the lFormula
output
with new data. The 2nd speed up is through optimised code for repeated type 2
Wald Chi-squared tests (original code was derived from car::Anova). For
example, elements such as the hypothesis matrices are generated only once to
reduce unnecessarily repetitive computation, and the generation of p-values
from Chi-squared values is vectorised and performed at the end. F-tests using
the lmerTest
package have not been optimised and are therefore slower.
Parallelisation is performed using parallel::mclapply on unix/mac and parallel::parLapply on windows. Progress bars use pbmcapply::pbmclapply on unix/mac and pbapply::pblapply on windows.
The id
argument is usually optional. By default the id
column in the
metadata is determined as the term after the bar in the random effects term
of the model. Note that id
is not passed to lmer
. It is only really used
to remove singletons from the maindata
matrix and metadata
dataframe. The
id
is also stored in the output from lmmSeq
and used by plotting function
modelPlot()
. However, due to its flexible nature, in theory lmmSeq
should
allow for more than one random effect term, although this has not been tested
formally. In this case, it is probably prudent to specify a value for id
.
Returns an S4 class lmmSeq
object with results for gene-wise linear
mixed models; or a list of results if returnList
is TRUE
, which is
useful for debugging. If all genes return errors from lmer
, then an error
message is shown and a character vector containing error messages for all
genes is returned.
data(PEAC_minimal_load) logtpm <- log2(tpm +1) lmmtest <- lmmSeq(~ Timepoint * EULAR_6m + (1 | PATID), maindata = logtpm[1:2, ], metadata = metadata, verbose = FALSE) names(attributes(lmmtest))
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