I am still wondering whether control 1 versus control 2 has a specific
meaning. For example, perhaps controlID = 1 means that the study used a
wait-list control group, whereas controlID = 2 means that the study used an
attentional control group. Is this the case? Or is controlID just an
arbitrary set of labels, where you could have replaced the numerical values
as follows without losing any information?
studyID yi controlID
1 .1 A
1 .2 B
1 .3 A
1 .4 B
2 .5 C
2 .6 D
3 .7 E
On Wed, Jul 21, 2021 at 10:29 AM Jack Solomon <kj.jsolomon at gmail.com>
wrote:
Dear James,
Thank you for your reply. "controlID" distinguishes between effect sizes
(SMDs in this case) that have been obtained by comparing the treated groups
to control 1 vs. control 2 (see below).
I was wondering if adding such an ID variable (just like schoolID) and
the random effect associated with it would also mean that we are
generalizing beyond the levels of controlID, which then, would mean that we
anticipate that each study 'could' have any number of control groups and
not just limited to a max of 2?
Thanks again, Jack
studyID yi controlID
1 .1 1
1 .2 2
1 .3 1
1 .4 2
2 .5 1
2 .6 2
3 .7 1
On Wed, Jul 21, 2021 at 10:13 AM James Pustejovsky <jepusto at gmail.com>
wrote:
Hi Jack,
To make sure I follow the structure of your data, let me ask: Do
controlID = 1 or controlID = 2 correspond to specific *types* of control
groups that have the same meaning across all of your studies? Or is this
just an arbitrary ID variable?
In my earlier response, I was assuming that controlID in your data is
just an ID variable. Using random effects specified as
~ | studyID/controlID
means that you're including random *intercept* terms for each unique
control group nested within studyID. It has nothing to do with the number
of control groups.
James
On Mon, Jul 19, 2021 at 10:56 PM Jack Solomon <kj.jsolomon at gmail.com>
wrote:
Dear James,
I'm coming back to this after a while (preparing the data). A quick
follow-up. So, you mentioned that if I have several studies that have used
more than 1 control group (in my data up to 2), I can possibly add a
random-effect (controlID) to capture any heterogeneity in the effect sizes
across control groups nested within studies.
My question is that adding a controlID random-effect (a binary
indicator: 1 or 2) would also mean that we intend to generalize beyond the
possible number of control groups that a study can employ (for my data
beyond 2 control groups)?
Thank you,
Jack
On Thu, Jun 24, 2021 at 4:52 PM Jack Solomon <kj.jsolomon at gmail.com>
wrote:
Thank you very much for the clarification. That makes perfect sense.
Jack
On Thu, Jun 24, 2021 at 4:44 PM James Pustejovsky <jepusto at gmail.com>
wrote:
The random effect for controlID is capturing any heterogeneity in the
effect sizes across control groups nested within studies, *above and beyond
heterogeneity explained by covariates.* Thus, if you include a covariate to
distinguish among types of control groups, and the differences between
types of control groups are consistent across studies, then the covariate
might explain all (or nearly all) of the variation at that level, which
would obviate the purpose of including the random effect at that level.
On Thu, Jun 24, 2021 at 9:56 AM Jack Solomon <kj.jsolomon at gmail.com>
wrote:
Thank you James. On my question 3, I was implicitly referring to my
previous question (a previous post titled: Studies with independent
samples) regarding the fact that if I decide to drop 'sampleID', then I
need to change the coding of the 'studyID' column (i.e., then, each sample
should be coded as an independent study). So, in my question 3, I really
was asking that in the case of 'controlID', removing it doesn't require
changing the coding of any other columns in my data.
Regarding adding 'controlID' as a random effect, you said: "... an
additional random effect for controlID will depend on how many studies
include multiple control groups and whether the model includes a covariate
to distinguish among types of control groups (e.g., business-as-usual
versus waitlist versus active control group)."
I understand that the number of studies with multiple control groups
is important in whether to add a random effect or not. But why having "a
covariate to distinguish among types of control groups" is important in
whether to add a random effect or not?
Thanks, Jack
On Thu, Jun 24, 2021 at 9:17 AM James Pustejovsky <jepusto at gmail.com>
wrote:
Hi Jack,
Responses inline below.
James
I have come across a couple of primary studies in my meta-analytic
pool
that have used two comparison/control groups (as the definition of
'control' has been debated in the literature I'm meta-analyzing).
(1) Given that, should I create an additional column ('control') to
distinguish between effect sizes (SMDs in this case) that have been
obtained by comparing the treated groups to control 1 vs. control
2 (see
below)?
Yes. Along the same lines as my response to your earlier question,
it seems prudent to include ID variables like this in order to describe the
structure of the included studies.
(2) If yes, then, does the addition of a 'control' column call for
the
addition of a random effect for 'control' of the form: "~ |
studyID/controlID" (to be empirically tested)?
I expect you will find differences of opinion here. Pragmatically,
the feasibility of estimating a model with an additional random effect for
controlID will depend on how many studies include multiple control groups
and whether the model includes a covariate to distinguish among types of
control groups (e.g., business-as-usual versus waitlist versus active
control group).
At a conceptual level, omitting random effects for controlID leads
to essentially the same results as averaging the ES across both control
groups. If averaging like this makes conceptual sense, then omitting the
random effects might be reasonable.
(3) If I later decide to drop controlID from my dataset, I think I
can
still keep all effect sizes from both control groups intact
without any
changes to my coding scheme, right?
I don't understand what you're concern is here. Why not just keep
controlID in your dataset as a descriptor, even if it doesn't get used in
the model?