It is often claimed that theory of mind (ToM) is facilitated by pretend play (PP),
or by a particular type of PP, social pretend play (SPP). Here we challenge that view,
proposing instead that ToM might be useful for driving SPP, rather than the reverse.
We discuss background theory, review pertinent studies, and explain why the “ToM first”
view is at least equally likely.
The first form of pretend to consider is solitary PP, emerging at 12–18 months, in
which one engages in three basic types of transformation: substitutes one object for
another, projects imaginary characteristics onto objects, and imagines situations
that do not exist (Leslie, 1987). The second form is social pretend play (SPP), which
involves the same basic transformations but occurs with others, and emerges around
age 3. We address these two forms of PP consecutively.
There is a fundamental similarity, or isomorphism (Leslie, 1987), between PP and ToM.
For all three types of transformation just described, PP involves projecting a different
reality onto a situation, all while knowing what the real situation is (Lillard, 1993).
For example, a child might mentally project a telephone onto a banana, engaging in
both of the first two types of transformation. Similarly, understanding false belief—a
foundational skill in ToM—involves understanding that someone is projecting a different
reality onto a situation, when one knows what the real situation is. For example,
a child might see someone as mentally projecting a chocolate bar inside a drawer,
while the chocolate bar is actually in the cupboard.
Theoretically, then, the ability to imagine a situation that differs from one's present
reality underlies both PP and understanding others' minds, in particular, false belief
(Leslie, 1987; Flavell, 1988; Forguson and Gopnik, 1988; Moses and Chandler, 1992).
Leslie (1987) argued that the cognitive architecture that enables one to engage in
PP also enables one to understand false belief, suggesting that PP should be related
to ToM.
Hence it is possible that PP engenders ToM by giving children practice at projecting
representations that differ from reality onto that reality. In pursuit of evidence
on this point, many researchers have examined the correlation between PP and ToM.
For example, Taylor and Carlson (1997) assessed preschoolers' PP sophistication by
examining their tendency to use imaginary objects in pretend action sequences (e.g.,
holding an imaginary toothbrush to brush one's teeth rather than using a finger as
a toothbrush). The researchers examined whether this more sophisticated form of PP
correlated with children's performance on standard ToM assessments. However, across
many studies, findings are inconsistent: Although some observe significant relationships
(Suddendorf et al., 1999; Nielsen and Dissanayake, 2000) others do not, even with
the same measures and very similar samples (Schwebel et al., 1999; Lillard, 2001b).
Even within studies that found that solitary PP and ToM were related, inconsistency
was observed among measures. For example, Taylor and Carlson (1997) found that ToM
correlated with self- but not object-directed pretense, and Lalonde and Chandler (1995)
found a significant relationship for “engages in simple make-belief actions alone”
but not for “uses … objects for make-believe activities alone” (p. 395). Cumulatively,
these inconsistent findings undermine the idea of a reliable causal relationship between
solitary PP and ToM.
This brings us to the second type of PP, social PP. When children engage in SPP, they
pretend to be other people with distinct thoughts and emotions. A major theory of
how we understand others' minds, simulation theory, suggests that pretending to be
someone else aids ToM because it gives children practice in simulating others' mental
states and imagining oneself in another's shoes (Harris, 1995). If pretending to be
others does involve such metarepresentations, it would be expected to predict ToM
(Lillard, 2001a).
Indeed, researchers often find correlations between SPP and ToM. For example, Astington
and Jenkins (1995) assessed the sophistication of preschoolers' pretend play through
coding their explicit role assignments (e.g., “I'll be the mommy”) and joint proposals
(e.g., “Let's go to the store”). These behaviors were associated with children's ToM.
Several earlier studies are also consistent with these findings (Rubin and Maioni,
1975; Connolly and Doyle, 1984; Peisach and Hardeman, 1985; Lalonde and Chandler,
1995). Another type of SPP is having an imaginary companion. When children postulate
imagined beings, they must represent those beings' mental states. Indeed, Taylor and
Carlson (1997) found correlations between having an imaginary companion and ToM (see
also Giménez-Dasí et al., 2014).
However, just as for PP, results are inconsistent (Cole and LaVoie, 1985). Some of
the same studies that find positive relationships for certain ToM measures report
null results for other measures. For example, in the studies cited above, PP correlated
with spatial but not affective perspective taking (Rubin and Maioni, 1975), affective
but not cognitive perspective taking (Connolly and Doyle, 1984), and to appearance
reality but not false belief (Schwebel et al., 1999). Other research revealed inconsistent
relationships between ToM and different pretense measures. For example, although Youngblade
and Dunn (1995) found that ToM was related to role enactment, it was not related to
explicit role assignments, in contrast to Astington and Jenkins (1995), who found
that ToM was related to joint proposals and role assignments but not to a more general
measure of social pretense. At the very least, such inconsistent relationships suggest
that SPP does not reliably improve ToM.
Nonetheless, a single-time-point correlational study is not an ideal design for inferring
causality. Lagged designs, although imperfect, are better, and some longitudinal studies
have found evidence for a causal relationship. One found that children's SPP at 33
months predicted ToM at 40 months (Youngblade and Dunn, 1995). Another with four time
points and several different measures of PP and SPP found that certain aspects of
PP related to concurrent ToM and predicted ToM over time (Lillard and Kavanaugh, 2014).
However, not all measures were related at all time points. For example, pretense production
at 24 months (in a social situation with the mother) predicted ToM at 48 months but
not at 60 months, and sophistication of the child's play narrative with an experimenter
at 36 months predicted (at trend-level) ToM at 60 but not 48 months.
However, neither of these studies investigated whether these lagged relationships
could be explained differently, namely, whether earlier ToM might foster both SPP
earlier, and ToM later. In this case, it might look as if SPP at Time 1 leads to ToM
at Time 2, when in fact SPP at Time 1 was simply a by-product of having more advanced
ToM at Time 1. We know of only one study that could shed light on this, by also testing
ToM at Time 1 (Jenkins and Astington, 2000). In this study earlier ToM predicted later
SPP, whereas earlier SPP did not predict later ToM, suggesting that better ToM might
enable children to engage in more, and more advanced, PP.
Although these findings are suggestive, the most solid evidence for a causal effect
of SPP on ToM would come from training studies, in which some children experience
an intervention to promote SPP and then are compared to an otherwise matched control
group who did not. Indeed, several such studies have reported that SPP training improves
ToM or related skills (Rosen, 1974; Saltz and Johnson, 1974; Fink, 1976; Saltz et
al., 1977; Burns and Brainerd, 1979; Dockett, 1998). However, these studies all had
significant methodological shortcomings (see Lillard et al., 2013), including unmasked
experimenters who may have influenced posttest performance and unequal adult contact
between groups. A study designed to rule out these possible confounds found no improvement
in ToM for children in a SPP training group (Smith et al., 1981).
In a recent study, Qu et al. (2015) reported that SPP improves ToM, but given the
training content, this conclusion is questionable. In four, 45 min sessions, kindergartners
were read books with distinctly ToM-related scenarios (e.g., a child has a false belief
about where her books are) and then acted out the stories. Controlling for pretest
ToM skills, children who had this experience had better posttest ToM compared to children
in a free play control group. Although the particular training experience described
here appears to be effective in improving ToM, the conclusion that, in general, children's
naturalistic SPP leads to better ToM goes beyond the data.
Furthermore, we recently failed to show evidence for the proposed simulation mechanism
(Dore and Lillard, unpublished raw data, 2013). We reasoned that if SPP helps ToM
by causing children to think about mental states, then SPP should prime mental states,
leading to a stronger orientation toward mental states afterwards. In two studies,
children played with an experimenter for 10 min. In a doll condition, the experimenter
guided children through a partially scripted play session focusing on role play, cognition,
and emotions with Playmobil dolls and animals. In a block condition with a Magneato
construction set, the experimenter avoided using mental state language and directed
play away from any child-generated pretense. Before and after the play session, children
were given a task designed to assess their preference for thinking about people in
terms of mental states vs. behaviors (Lillard and Flavell, 1990). Children in the
doll condition did not describe people in terms of their mental states any more than
did children in the block condition. Although null results should be interpreted with
caution, this data from two studies we conducted (N = 100) failed to support a mechanism
by which SPP might improve ToM: by causing children to focus on mental states.
Overall, the evidence described here is not strongly supportive of a causal relationship
in which PP promotes ToM skills. (For a more detailed discussion of studies up to
2013, we urge readers to see the Theory of Mind section of Lillard et al., 2013.)
Two other possibilities should be given equal consideration: a third variable underpinning
both ToM and SPP, and reverse directionality, in which better ToM skills enable SPP—making
SPP one reason why ToM is useful. One longitudinal study finds this reverse relationship
(Jenkins and Astington, 2000), as described above, and more studies should be designed
to test this possibility.
Given the state of the research, why is it so often assumed that PP helps ToM (Leslie,
1987; Flavell, 1988; Forguson and Gopnik, 1988; Moses and Chandler, 1992; Harris,
2000; Lillard, 2001a; Bergen, 2002; Ashiabi, 2007; Wellman, 2014)? Researchers might
be swayed by what Smith (1988) called “play ethos,” the strong belief that PP promotes
development. When researchers design, run, and interpret their empirical investigations
from the perspective that PP must help development, it seems highly possible that
their beliefs might unintentionally bias their findings. We note that researchers
who have found significant correlations between PP and ToM tend to frame their findings
in the context of a positive effect of PP and the training studies described here
are clearly designed with this causal direction in mind. Training studies designed
to assess the reverse causal relationship might train ToM and examine whether PP,
or sophistication of PP, increases. Longitudinal studies in natural settings could
be designed to be able to assess both directions of causality, controlling for potentially
related variables like verbal ability. Finally, future training studies designed to
assess the potential causal role of PP in ToM development can take care to avoid the
methodological problems common in this literature.
Why is the relationship between PP and ToM an important one to pin down? Surely, even
confidence that the causal view is incorrect should not lead one to conclude that
PP does not have value in children's lives in other ways, either to promote well-being
(Lillard et al., 2013), for relaxation (Hutt et al., 1989), to promote positive adult-child
interaction (Paley, 2005) or even for fun (Power, 2000). However, embracing the idea
that PP promotes ToM without solid evidence is not beneficial, and may even be indirectly
harmful if such efforts detract from undertakings with better-established effectiveness.
More and better research to clarify the relationship between these complex activities
will have important theoretical and practical applications.
Conflict of interest statement
The authors declare that the research was conducted in the absence of any commercial
or financial relationships that could be construed as a potential conflict of interest.