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Please cite this vignette and the R package suddengains
as:
citation("suddengains")
#>
#> To cite package 'suddengains' in publications use:
#>
#> Wiedemann, M., Thew, G. R., Stott, R., & Ehlers, A. (2020).
#> suddengains: An R package to identify sudden gains in longitudinal
#> data. PLOS ONE. https://doi.org/10.1371/journal.pone.0230276
#>
#> A BibTeX entry for LaTeX users is
#>
#> @Article{,
#> author = {Milan Wiedemann and Graham R Thew and Richard Stott and Anke Ehlers},
#> title = {{suddengains}: {An} {R} package to identify sudden gains in longitudinal data},
#> journal = {PLOS ONE},
#> year = {2020},
#> doi = {10.1371/journal.pone.0230276},
#> url = {https://github.com/milanwiedemann/suddengains},
#> }
This vignette shows how the suddengains
R package can be
used to help with the methods of research studies looking at sudden
gains as described by Tang and DeRubeis (1999). More about the theoretical
background of sudden gains and why it might be helpful to use this
package can be found in our paper Wiedemann et
al. (2020). The following
vignette illustrates the main functions of the package using the example
data set sgdata
.
Below are two interactive tables of depression and rumination scores
from the data set (sgdata
) that comes with the
suddengains
package. The data is automatically loaded
together with the package when running
library(suddengains)
. Each measured construct contains a
baseline measure (s0), twelve weekly measures during
therapy (s1 to s12), and two follow-up
measures (fu1 and fu2). Note that some
values for each measure are missing, shown here as empty cells. For an
example of a missing value see bdi_s2 for id =
2 in the table below.
The package offers two methods to select cases for the calculation of sudden gains.
"pattern"
: cases providing enough data to apply the
Tang and DeRubeis (1999) criteria will be selected"min_sess"
: cases with a minimum number of available
data points (specified in min_sess_num
) will be
selectedBy default the argument return_id_lgl
is set to
FALSE
, which adds a new variable named
sg_select
at the end of the data frame specified in the
data
argument. This newly calculated variable
sg_select
is logical and indicates whether a case is
selected (TRUE
) or not selected (FALSE
) based
on the method specified. When the argument return_id_lgl
is
set to TRUE
, only the id variable specified in
id_var_name
and the new variable sg_select
will be returned as the output of this function.
# 1. method = "pattern"
select_cases(data = sgdata,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
method = "pattern",
return_id_lgl = FALSE)
# 2. method = "min_sess"
select_cases(data = sgdata,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
method = "min_sess",
min_sess_num = 9,
return_id_lgl = TRUE)
The following code shows how to select cases based on the
"pattern"
method and save them as an object called
sgdata_select
. This function goes through the data and
selects all cases with at least one of the following data patterns.
Data pattern | xn-2 | xn-1 | xn | xn+1 | xn+2 | xn+3 |
---|---|---|---|---|---|---|
1. | . | x | x | x | x | . |
2. | . | x | x | x | . | x |
3. | x | . | x | x | x | . |
4. | x | . | x | x | . | x |
Note: xn-2 to xn+3 are consecutive data points of the primary outcome measure. “x” = Present data; “.” = Missing data. “x” represents available data to be examined as a possible pregain session.
sgdata_select <- select_cases(data = sgdata,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
method = "pattern",
return_id_lgl = FALSE) %>%
dplyr::filter(sg_select == TRUE)
#> The method 'pattern' was used to select cases.
#> See help('select_cases') for more information.
This function calculates a cut-off value to use for the first sudden gains criterion based on the Reliable Change Index (RCI, Jacobson and Truax 1991). The following 5 elements are returned by the function
sd
: Standard deviation manually entered using the
sd
argument or the standard deviation of the values
specified in data_sd
reliability
: Reliability of the measure manually
specified in reliability
or the internal consistency
(Cronbach’s alpha) calculated from the item-by-item data specified in
data_reliability
.standard_error_measurement
: Standard error of
measurement, see formula below:\[ \text{standard_error_measurement} = {\text{sd}} \times \sqrt{1-\text{reliability}} \]
standard_error_difference
: Standard error of the
difference between two test scores, see formula below:\[ \text{standard_error_difference} = \sqrt{2\times (\text{standard_error_measurement})^2} \]
reliable_change_value
: Value that is considered to
reflect reliable change on a measure (Jacobson and Truax 1991). This value
is calculated using:\[\text{reliable_change_value} = 1.96 \times \text{standard_error_difference}\]
The last element of the list sg_crit1_cutoff
can be used
as a cut-off value for the first sudden gains criterion.
# Define cut-off value for first SG criterion
# The sd and the reliability are specified manually
define_crit1_cutoff(sd = 10.5,
reliability = 0.931)
# The reliability is specified manually
# The sd gets calculated from variable "bdi_s0" in "sgdata"
define_crit1_cutoff(data_sd = sgdata$bdi_s0,
reliability = 0.931)
To identify sudden gains/losses you can use the
identify_sg
and identify_sl
functions. These
functions return a data frame with new variables indicating for each
between-session interval whether a sudden gain/loss was identified. For
example the variable sg_2to3
holds information whether a
sudden gains occurred from session two to three, with two being the
pregain and three being the postgain session.
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = 0.25,
sg_crit3 = TRUE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE)
The argument crit123_details = TRUE
returns additional
information about whether each of the three sudden gains criteria are
met. More information about this can be found in the section
“Adaptations to the original sudden gains criteria” below.
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = 0.25,
sg_crit3 = TRUE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
If we wish to analyse sudden gains that occur immediately after the
first session, we include the option to specify a baseline measure in
sg_var_list
(in this example "bdi_s0"
) and set
identify_sg_1to2 == TRUE
. This will allow the
identification of sudden gains between session 1 and session 2, provided
data from the baseline measure and the first session are available.
To identify sudden losses, you can use the identify_sl
function. All arguments are the same as in the identify_sg
function, but the sg_crit1_cutoff
must be set to be a
negative value.
The package includes options for modifying or omitting the three original sudden gains criteria suggested by Tang and DeRubeis (1999):
sg_crit1_cutoff
. To omit the first criterion when
identifying sudden gains, this argument can be ‘switched off’ by using
sg_crit1_cutoff = NULL
.sg_crit2_pct
. The default is a
minimum of a 25% drop, i.e. sg_crit2_pct = 0.25
. To omit
the second criterion when identifying sudden gains, this argument can be
‘switched off’ by using sg_crit2_pct = NULL
.sg_crit3 = FALSE
. It is also possible to change the
significance level (\(\alpha\)) used to
determine the critical value based on the student t distribution, by
default sg_crit3_alpha = 0.05
.# This example only uses the first and second sudden gains criteria
# All following examples work the same for the "identify_sl()" function
# The argument "crit123_details = TRUE" returns details about each between session interval for each criterion.
# Details about the third criterion will show NAs for each between session interval because it's not being used (sg_crit3 = FALSE)
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = 0.25,
sg_crit3 = FALSE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
# This example only uses the first, second, and a modified third sudden gains criterion (sg_crit3_alpha = 0.01)
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = 0.25,
sg_crit3 = TRUE,
sg_crit3_alpha = 0.01,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
# This example only uses the first criterion and a modified second criterion (50%)
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = 0.50,
sg_crit3 = FALSE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
# This example only uses the first criterion
# Details about the second and third criterion will show NAs for each between session interval
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = NULL,
sg_crit3 = FALSE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
# This example only uses the first criterion
# Details about the second and third criterion will show NAs for each between session interval
identify_sg(data = sgdata,
sg_crit1_cutoff = 7,
sg_crit2_pct = NULL,
sg_crit3 = FALSE,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE,
crit123_details = TRUE)
The function check_interval()
can be
used to examine whether a specific between-session interval is a sudden
gain/loss.
# Check interval for sudden gain using all 3 criteria
# No missing data, alpha = 0.05
check_interval(pre_values = c(32, 31, 33),
post_values = c(5, 6, 7),
sg_crit1_cutoff = 7,
sg_crit2_pct = .25,
sg_crit3 = TRUE,
sg_crit3_alpha = .05,
identify = "sg")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the thrid criterion was adjusted for missingness.
#> # Check sudden gain
#> ## Met Criterion 1: YES
#> ## Met Criterion 2: YES
#> ## Met Criterion 3: YES
#> ## Sudden gain: YES
#>
#> # Detailed output
#> ## Criterion 1: Cut-off: 7
#> ## Criterion 2: Percentage change threshhold: 25 %
#> ## Criterion 3: Adjusted: YES, Critical value: 2.776
#> ## Number of pre gain values present: 3
#> ## Number of post gain values present: 3
#> ## Mean of pre gain values: 32
#> ## Mean of post gain values: 6
#> ## SD of pre gain values: 1
#> ## SD of post gain values: 1
# Check interval for sudden gain using all 3 criteria
# No missing data, alpha = 0.01
check_interval(pre_values = c(32, 31, 33),
post_values = c(5, 6, 7),
sg_crit1_cutoff = 7,
sg_crit2_pct = .25,
sg_crit3 = TRUE,
sg_crit3_alpha = .01,
identify = "sg")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the thrid criterion was adjusted for missingness.
#> # Check sudden gain
#> ## Met Criterion 1: YES
#> ## Met Criterion 2: YES
#> ## Met Criterion 3: YES
#> ## Sudden gain: YES
#>
#> # Detailed output
#> ## Criterion 1: Cut-off: 7
#> ## Criterion 2: Percentage change threshhold: 25 %
#> ## Criterion 3: Adjusted: YES, Critical value: 4.604
#> ## Number of pre gain values present: 3
#> ## Number of post gain values present: 3
#> ## Mean of pre gain values: 32
#> ## Mean of post gain values: 6
#> ## SD of pre gain values: 1
#> ## SD of post gain values: 1
# Check intervall for sudden gain using only third criterion
# Some missing data, alpha = 0.01
check_interval(pre_values = c(NA, 31, 33),
post_values = c(5, NA, 7),
sg_crit1_cutoff = NULL,
sg_crit2_pct = NULL,
sg_crit3 = TRUE,
sg_crit3_alpha = .01,
identify = "sg")
#> Third sudden gains criterion was applied.
#> The critical value for the thrid criterion was adjusted for missingness.
#> # Check sudden gain
#> ## Met Criterion 1: NA
#> ## Met Criterion 2: NA
#> ## Met Criterion 3: YES
#> ## Sudden gain: YES
#>
#> # Detailed output
#> ## Criterion 1: Cut-off: Criterion 1 was not applied
#> ## Criterion 2: Percentage change threshhold: Criterion 2 was not applied
#> ## Criterion 3: Adjusted: YES, Critical value: 9.925
#> ## Number of pre gain values present: 2
#> ## Number of post gain values present: 2
#> ## Mean of pre gain values: 32
#> ## Mean of post gain values: 6
#> ## SD of pre gain values: 1.414
#> ## SD of post gain values: 1.414
# Check intervall for sudden loss using all three criteria
# Some missing data, alpha = 0.05
check_interval(pre_values = c(5, NA, 7),
post_values = c(16, 12, 14),
sg_crit1_cutoff = -7,
sg_crit2_pct = .25,
sg_crit3 = TRUE,
sg_crit3_alpha = .05,
identify = "sl")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the thrid criterion was adjusted for missingness.
#> # Check sudden loss
#> ## Met Criterion 1: YES
#> ## Met Criterion 2: YES
#> ## Met Criterion 3: YES
#> ## Sudden loss: YES
#>
#> # Detailed output
#> ## Criterion 1: Cut-off: -7
#> ## Criterion 2: Percentage change threshhold: 25 %
#> ## Criterion 3: Adjusted: YES, Critical value: 3.182
#> ## Number of pre gain values present: 2
#> ## Number of post gain values present: 3
#> ## Mean of pre gain values: 6
#> ## Mean of post gain values: 14
#> ## SD of pre gain values: 1.414
#> ## SD of post gain values: 2
In the suddengains
R package we refer to this as “bysg”
(by sudden gain).
Here we see code to create a “bysg” data set identifying sudden gains
(specified using the argument identify = "sg"
) and save it
to the object called “bysg”. The table below shows the output including
the following 15 new variables:
id_sg
: Unique identifier for each sudden gainsg_crit123
: Logical variable indicating whether a
sudden gain was identifiedsg_session_n
: Pregain session numbersg_freq_byperson
: Frequency of sudden gains identified
for each case (id
)sg_bdi_2n
, sg_bdi_1n
,
sg_bdi_n
, sg_bdi_n1
, sg_bdi_n2
,
sg_bdi_n3
: Six extracted values of the sudden gains measure
around the sudden gainsg_magnitude
: Magnitude of the sudden gain for each
casesg_**bdi**_tx_change
: Total change on the sudden gains
measure from start (tx_start_var_name
) to end
(tx_end_var_name
) for each casesg_change_proportion
: Magnitude of the sudden gain
(sg_magnitude
) divided by the total change
sg_bdi_tx_change
sg_reversal_value
: Value representing the threshold for
the sudden gain to be considered ‘reversed’sg_reversal
: Logical variable indicating whether a
sudden gain reversedbysg <- create_bysg(data = sgdata,
sg_crit1_cutoff = 7,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
sg_measure_name = "bdi",
identify = "sg")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the third criterion was adjusted for missingness.
Here we see code to create a “bysg” data set identifying sudden
losses (specified using the argument identify = "sl"
) and
save it to the object called “bysl”. The following table shows the
output.
bysl <- create_bysg(data = sgdata,
sg_crit1_cutoff = -7,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
sg_measure_name = "bdi",
identify = "sl")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the third criterion was adjusted for missingness.
In the suddengains
R package we refer to this as
byperson (by person). This data set includes all cases with and all
cases without sudden gains. If multiple sudden gains were experienced by
a case, the argument multiple_sg_select
is used to specify
which gain should be selected; in the example below the first gain will
be selected.
byperson_first <- create_byperson(data = sgdata,
sg_crit1_cutoff = 7,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
sg_measure_name = "bdi",
identify_sg_1to2 = FALSE,
multiple_sg_select = "first")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the third criterion was adjusted for missingness.
#> The first gain/loss was selected in case of multiple gains/losses.
Depending on the research question it might be of interest to select the largest gain, as shown below. Notice that the selected gain for ID 5 is different depending on how multiple gains are handled. The first gain experienced by ID 5 is from session 3 to 4, whereas the largest gain was experienced from session 8 to 9.
byperson_largest <- create_byperson(data = sgdata,
sg_crit1_cutoff = 7,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
sg_measure_name = "bdi",
identify_sg_1to2 = FALSE,
multiple_sg_select = "largest")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the third criterion was adjusted for missingness.
#> The largest gain/loss was selected in case of multiple gains/losses.
The package can extract scores on secondary outcome or process
measures around the period of each gain. This function can be applied to
either the bysg or byperson dataset. Note that the variables specified
in extract_var_list
must be in the data set specified in
data
.
# For bysg dataset select "id" and "rq" variables first
sgdata_rq <- sgdata %>%
dplyr::select(id, rq_s0:rq_s12)
# Join them with the sudden gains data set, here "bysg"
bysg_rq <- bysg %>%
dplyr::left_join(sgdata_rq, by = "id")
# Extract "rq" scores around sudden gains on "bdi" in the bysg dataset
bysg_rq <- extract_values(data = bysg_rq,
id_var_name = "id_sg",
extract_var_list = c("rq_s1", "rq_s2", "rq_s3", "rq_s4",
"rq_s5", "rq_s6", "rq_s7", "rq_s8",
"rq_s9", "rq_s10", "rq_s11", "rq_s12"),
extract_measure_name = "rq",
add_to_data = TRUE)
#> Note: The measure specified in 'extract_var_list' must have the same number of repeated time points as the measure used to identify sudden gains.
These plots are created using the ggplot2 R-package (Wickham 2016) in five main steps:
# Create plot of average change in depression symptoms (BDI) around the gain
plot_sg_bdi <- plot_sg(data = bysg,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_pre_post_var_list = c("sg_bdi_2n", "sg_bdi_1n", "sg_bdi_n",
"sg_bdi_n1", "sg_bdi_n2", "sg_bdi_n3"),
ylab = "BDI", xlab = "Session",
colour_single = "#239b89ff")
# Create plot of average change in rumination (RQ) around depression sudden gains
plot_sg_rq <- plot_sg(data = bysg_rq,
id_var_name = "id",
tx_start_var_name = "rq_s1",
tx_end_var_name = "rq_s12",
sg_pre_post_var_list = c("sg_rq_2n", "sg_rq_1n", "sg_rq_n",
"sg_rq_n1", "sg_rq_n2", "sg_rq_n3"),
ylab = "RQ", xlab = "Session",
colour_single = "#440154FF")
# It is then possible to apply other ggplot2 functions to the plot if desired,
# e.g. y axis scale, or x axis labels ...
plot_sg_bdi <- plot_sg_bdi +
ggplot2::coord_cartesian(ylim = c(0, 50))
plot_sg_rq <- plot_sg_rq +
ggplot2::scale_x_discrete(labels = c("First", "n-2", "n-1", "n",
"n+1", "n+2", "n+3", "Last"))
#> Scale for x is already present.
#> Adding another scale for x, which will replace the existing scale.
Each plot will automatically return a warning message about how many missing values were present for each of the five components mentioned above. The warning messages from the BDI plot can be interpreted as follows:
tx_start_var_name
and the first variable specified
in sg_pre_post_var_list
togethersg_pre_post_var_list
tx_end_var_name
and the
last variable specified in
sg_pre_post_var_list
plot_sg_bdi
#> Warning: Removed 27 rows containing non-finite values (`stat_summary()`).
#> Removed 27 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 14 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 8 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 10 rows containing non-finite values (`stat_summary()`).
plot_sg_rq
#> Warning: Removed 30 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 30 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 14 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 10 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 12 rows containing non-finite values (`stat_summary()`).
To illustrate this functionality we create a data frame with a
grouping variable. The code below duplicates the data frame
sgdata
and adds a variable assigning each case to one of
two groups.
# Set seed
set.seed(123)
# Duplicate data
sgdata_group <- rbind(sgdata, sgdata)
# Overwrite id variable
sgdata_group$id <- c(1:86)
# Add random group variable
sgdata_group$group <- sample(seq(from = 1, to = 2, by = 1), size = 86, replace = TRUE)
# Create byperson data set
byperson_group <- create_byperson(data = sgdata_group,
sg_crit1_cutoff = 7,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3",
"bdi_s4", "bdi_s5", "bdi_s6",
"bdi_s7", "bdi_s8", "bdi_s9",
"bdi_s10", "bdi_s11", "bdi_s12"),
sg_measure_name = "bdi",
multiple_sg_select = "first")
#> First, second, and third sudden gains criteria were applied.
#> The critical value for the third criterion was adjusted for missingness.
#> The first gain/loss was selected in case of multiple gains/losses.
byperson_group_select <- select_cases(data = byperson_group,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
method = "pattern",
return_id_lgl = FALSE) %>%
dplyr::filter(sg_select == TRUE)
#> The method 'pattern' was used to select cases.
#> See help('select_cases') for more information.
The data frame sgdata_group
can now be used to
illustrate the plotting function for different groups. This function
works identically to the plot function for a single group. Further
arguments are used to specify the colours to be used for the different
groups.
plot_byperson_group <- plot_sg(data = byperson_group_select,
id_var_name = "id",
tx_start_var_name = "bdi_s1",
tx_end_var_name = "bdi_s12",
sg_pre_post_var_list = c("sg_bdi_2n", "sg_bdi_1n", "sg_bdi_n",
"sg_bdi_n1", "sg_bdi_n2", "sg_bdi_n3"),
group_var_name = "group",
group_levels = c(1, 2),
group_labels = c("Treatment A", "Treatment B"),
group_title = NULL,
colour_group = "viridis",
viridis_option = "B",
viridis_begin = 0.2,
viridis_end = 0.8,
apaish = TRUE,
ylab = "BDI", xlab = "Session")
The plot below shows the average gain for each group.
plot_byperson_group
#> Warning: Removed 402 rows containing non-finite values (`stat_summary()`).
#> Removed 402 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 106 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 304 rows containing non-finite values (`stat_summary()`).
#> Warning: Removed 98 rows containing non-finite values (`stat_summary()`).
The function plot_sg_trajectories()
can plot individual
trajectories of the cases in the data set. It is possible to select
specific IDs for plotting using the select_id_list
argument, or a number of random IDs using the sample_n
argument. Below, case IDs 2, 4, 5 and 9 are selected.
plot_trajectories_1 <- sgdata %>%
plot_sg_trajectories(id_var = "id",
select_id_list = c("2", "4", "5", "9"),
var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
show_id = TRUE,
id_label_size = 4,
label.padding = 0.2,
show_legend = FALSE,
colour = "viridis",
viridis_option = "D",
viridis_begin = 0,
viridis_end = 0.8,
connect_missing = FALSE,
scale_x_num = TRUE,
scale_x_num_start = 1,
apaish = TRUE,
xlab = "Session",
ylab = "BDI")
plot_trajectories_1
#> Warning: Removed 3 rows containing missing values (`geom_point()`).
#> Warning: Removed 3 rows containing missing values (`geom_label_repel()`).
This function can also be combined with a filter function to explore
specific groups of sudden gains cases, for example (1) all cases with a
sudden gain at session 3, or (2) three randomly selected
(select_n = 3
) cases who experienced more than one sudden
gain (dplyr::filter(sg_freq_byperson > 1
).
# 1. Create plot including all cases with a sudden gain at session 3
plot_trajectories_2 <- bysg %>%
dplyr::filter(sg_session_n == 3) %>%
plot_sg_trajectories(id_var = "id_sg",
var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
show_id = FALSE,
id_label_size = 4,
label.padding = 0.2,
show_legend = TRUE,
colour = "viridis",
viridis_option = "D",
viridis_begin = 0,
viridis_end = 0.8,
connect_missing = TRUE,
scale_x_num = TRUE,
scale_x_num_start = 1,
apaish = TRUE,
xlab = "Session",
ylab = "BDI")
# 1. Show all cases with a sudden gain at session 3
plot_trajectories_2
#> Warning: Removed 4 rows containing missing values (`geom_point()`).
# 2. Create plot including 3 randomly selected (select_n = 3) cases who experienced
# more than 1 gain (dplyr::filter(sg_freq_byperson > 1))
plot_trajectories_3 <- byperson_first %>%
dplyr::filter(sg_freq_byperson > 1) %>%
plot_sg_trajectories(id_var = "id_sg",
var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
select_n = 3,
show_id = FALSE,
id_label_size = 4,
label.padding = 0.2,
show_legend = TRUE,
colour = "viridis",
viridis_option = "D",
viridis_begin = 0,
viridis_end = 0.8,
connect_missing = TRUE,
scale_x_num = TRUE,
scale_x_num_start = 1,
apaish = TRUE,
xlab = "Session",
ylab = "BDI")
The count_intervals
function provides a summary of how
many between-session intervals were and were not analysed for sudden
gains. For more information see the help file for this function,
help(count_intervals)
. Here we see code to count only the
intervals of the data that was selected for the sudden gains study in
the above code using sgdata_select
.
total_between_sess_intervals
: The total number of
between-session intervals present in the data set, here:
sgdata_select
.total_between_sess_intervals_sg
: The total number of
gain intervals (i.e. sudden gains) present in the data set. By default
the first-to-second and penultimate-to-last intervals are not included
here. If identify_sg_1to2
is set to TRUE
the
first-to-second intervals will be included.available_between_sess_intervals_sg
: The total number
of between-session intervals that could feasibly be analysed for sudden
gains.not_available_between_sess_intervals_sg
: The total
number of between-session intervals that could not be analysed for
sudden gains (due to missing data).count_intervals(data = sgdata_select,
id_var_name = "id",
sg_var_list = c("bdi_s1", "bdi_s2", "bdi_s3", "bdi_s4",
"bdi_s5", "bdi_s6", "bdi_s7", "bdi_s8",
"bdi_s9", "bdi_s10", "bdi_s11", "bdi_s12"),
identify_sg_1to2 = FALSE)
#> $total_between_sess_intervals
#> [1] 429
#>
#> $total_between_sess_intervals_sg
#> [1] 351
#>
#> $available_between_sess_intervals_sg
#> [1] 298
#>
#> $not_available_between_sess_intervals_sg
#> [1] 53
The plot_sg_intervals()
can be used to visualise the
available data for each time point as well as the percentage of session
to session intervals that are analysed for potential sudden gains.
The describe_sg()
function provides descriptive
statistics about the sudden gains based on the variables from the
bysg
or byperson
datasets. The descriptives
(e.g. “sg_pct”, the percentage of cases with sudden gains in the
specified data set) are always in relation to the input data and
therefore will vary depending on whether the structure of the data set
is bysg
or byperson
.
# Describe bysg dataset ----
describe_sg(data = bysg,
sg_data_structure = "bysg")
#> $total_n
#> [1] 24
#>
#> $sg_total_n
#> [1] 24
#>
#> $sg_pct
#> [1] 100
#>
#> $sg_multiple_pct
#> [1] 70.83
#>
#> $sg_reversal_n
#> [1] 4
#>
#> $sg_reversal_pct
#> [1] 16.67
#>
#> $sg_magnitude_m
#> [1] 11
#>
#> $sg_magnitude_sd
#> [1] 3.43
# Describe byperson dataset ----
describe_sg(data = byperson_first,
sg_data_structure = "byperson")
#> $total_n
#> [1] 43
#>
#> $sg_total_n
#> [1] 24
#>
#> $sg_n
#> [1] 15
#>
#> $sg_pct
#> [1] 34.88
#>
#> $sg_multiple_n
#> [1] 8
#>
#> $sg_multiple_pct
#> [1] 18.6
#>
#> $sg_reversal_n
#> [1] 3
#>
#> $sg_reversal_pct
#> [1] 20
#>
#> $sg_magnitude_m
#> [1] 11.4
#>
#> $sg_magnitude_sd
#> [1] 3.98
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.
Health stats visible at Monitor.