Prospective Mental Imagery in Depression: Impact on Reward Processing and Reward-Motivated Behaviour


Scientific Update and Overview

Prospective Mental Imagery in Depression: Impact on 
Reward Processing and Reward-Motivated Behaviour

Fritz Renner 1 , Jessica Werthmann 1, Andreas Paetsch 1, Hannah E. Bär 1, Max Heise 1, 

Sanne J. E. Bruijniks 1

[1] Clinical Psychology and Psychotherapy Unit, Institute of Psychology, University of Freiburg, Freiburg, Germany. 

Clinical Psychology in Europe, 2021, Vol. 3(2), Article e3013, https://doi.org/10.32872/cpe.3013

Received: 2020-03-30 • Accepted: 2021-02-08 • Published (VoR): 2021-06-18

Handling Editor: Winfried Rief, Philipps-University of Marburg, Marburg, Germany

Corresponding Author: Fritz Renner, Clinical Psychology and Psychotherapy Unit, Institute of Psychology, 
University of Freiburg, Engelbergerstr. 41, 79106 Freiburg, Germany. E-mail: fritz.renner@psychologie.uni-freiburg.de

Abstract
Background: Mental imagery has long been part of cognitive behavioural therapies. More 
recently, a resurgence of interest has emerged for prospective mental imagery, i.e. future-directed 
imagery-based thought, and its relation to reward processing, motivation and behaviour in the 
context of depression.
Method: We conducted a selective review on the role of prospective mental imagery and its 
impact on reward processing and reward-motivated behaviour in depression.
Results: Based on the current literature, we propose a conceptual mechanistic model of 
prospective mental imagery. Prospective mental imagery of engaging in positive activities can 
increase reward anticipation and reward motivation, which can transfer to increased engagement 
in reward-motivated behaviour and more experiences of reward, thereby decreasing depressive 
symptoms. We suggest directions for future research using multimodal assessments to measure the 
impact of prospective mental imagery from its basic functioning in the lab to real-world and 
clinical implementation.
Conclusion: Prospective mental imagery has the potential to improve treatment for depression 
where the aim is to increase reward-motivated behaviours. Future research should investigate how 
exactly and for whom prospective mental imagery works.

Keywords
prospective mental imagery, depression, reward processing, motivation, behavioural activation

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Highlights
• This review provides a selected update of the literature on prospective mental imagery.
• Prospective mental imagery might decrease depression via reward processing and 

reward-motivated behaviours.
• Suggestions for future research to investigate these hypotheses are provided.

According to Beck’s cognitive model, individuals with depression hold negative views 
about the self, others and the future (Beck, Rush, Shaw, & Emery, 1979). In addition 
to the negatively biased content of future thinking in depression, the importance of 
thought modality, particularly mental representations, has increasingly been recognized 
as a key target in psychotherapy (Arntz, 2020). Thinking about events or activities in 
the future might draw on imagery-based thought, involving a rich perceptual experience 
in the absence of external sensory input (Pearson, Naselaris, Holmes, & Kosslyn, 2015). 
Prospective mental imagery, i.e. future-directed imagery-based thought, has recently 
gained interest in the context of depression. In this review, we provide a selected 
update of the recent scientific literature on prospective mental imagery and its impact 
on reward processing (i.e., anticipation or experience of reward) and reward-motivated 
behaviour (i.e., behaviour driven by the motivation to attain rewards) in depression. 
Drawing from the wider research in this area, we present a conceptual model linking 
prospective mental imagery to reward processing and reward-motivated behaviour and 
discuss future directions for research. For a broader discussion of the nature, function 
and clinical applications of mental imagery in depression and other mental disorders 
see e.g. Blackwell, 2019; Holmes, Blackwell, Burnett Heyes, Renner, and Raes, 2016; Ji, 
Kavanagh, Holmes, MacLeod, and Di Simplicio, 2019; Renner and Holmes, 2018.

I d e n t i f y i n g  C o r e  C l i n i c a l  F e a t u r e s  i n  D e p r e s s i o n : 
R e w a r d  P r o c e s s i n g

Major Depressive Disorder (MDD) is characterized by low mood and/or the loss of 
interest in previously rewarding or enjoyable activities as well as a number of other 
emotional, cognitive and physical symptoms (American Psychiatric Association, 2013). 
MDD is a heterogeneous disorder, meaning that two individuals with a diagnosis of MDD 
may have little or no symptoms in common (Strunk & Sasso, 2017). This presents a 
major challenge for research and treatment development in depression (Fried, 2015, 2017; 
Olbert, Gala, & Tupler, 2014). Accordingly, recent initiatives have called to focus research 
on core clinical features rather than psychiatric syndromes in depression and other 
mental disorders (Insel et al., 2010). Alterations in reward processing are common in 
psychopathology (Zald & Treadway, 2017) and therefore one potential treatment target in 
this context. In depression, alterations in reward processing might manifest in a reduced 

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sensitivity to reward, resulting in decreased approach motivation (Alloy et al., 2016). Def­
icits in reward processing represent a central aspect of anhedonia, defined as “diminished 
interest or pleasure in almost all activities” (American Psychiatric Association, 2013). 
Diminished interest and diminished experienced pleasure correspond to two distinct 
components of reward processing: Reward anticipation and reward consummation (Gard, 
Germans Gard, Kring, & John, 2006; Treadway & Zald, 2011). Reward anticipation can be 
further divided into anticipated reward, i.e. the expectation of how rewarding/pleasant 
a future activity will be, and anticipatory reward, i.e. the subjective experience of how 
rewarding/pleasant it is to think about a future activity (Baumgartner, Pieters, & Bagozzi, 
2008). Reward consummation, on the other hand, refers to rewarding/pleasant feelings 
experienced while engaging in enjoyable activities (Gard, Germans Gard, Kring, & John, 
2006). While both components are important, research has suggested that deficits in 
reward-motivated behaviour are primarily driven by reduced or dysfunctional reward 
anticipation (Bakker et al., 2017; Gorka et al., 2014). Given that these deficits in reward 
processing are not adequately addressed by current treatments of depression (Treadway 
& Zald, 2011), one way forward in treatment innovation is to develop procedures directly 
targeting reward anticipation and reward-motivated behaviours.

T a r g e t i n g  R e w a r d  A n t i c i p a t i o n ,  R e w a r d 
M o t i v a t i o n  a n d  R e w a r d - M o t i v a t e d  B e h a v i o u r s 

U s i n g  P r o s p e c t i v e  M e n t a l  I m a g e r y
By drawing on shared brain structures and functions (Dijkstra, Bosch, & van Gerven, 
2019; Kosslyn, Ganis, & Thompson, 2001; Pearson et al., 2015), vivid mental imagery can 
give rise to an “as real” experience and evoke emotional responses at subjective, physio­
logical and neural levels (Ji, Burnett Heyes, MacLeod, & Holmes, 2016). These properties 
of prospective mental imagery allow us to simulate engagement in behavioural activities 
and to “pre-experience” future activities, thereby providing “a taste” of different courses 
of action and their potential (emotional) consequences (Moulton & Kosslyn, 2009). This 
makes prospective mental imagery an excellent candidate procedure to target reward 
anticipation and reward-motivated behaviours.

Recently, a number of studies have emerged that tested the impact of prospective 
mental imagery of positive events or activities on reward anticipation and reward-mo­
tivated behaviour. These studies have the common aim of investigating new ways of 
promoting positive experiences, in line with recent calls for treatment innovation in 
depression to focus on positive affect systems (Dunn, 2012; Dunn et al., 2019). Studies 
presented here also fit within the broader literature that highlights the role of expectan­
cies in mental disorders (Rief & Glombiewski, 2017; Rief et al., 2015). In depression, an 
absence of positive expectancies might manifest as low anticipated reward/pleasure from 
engaging in otherwise enjoyable activities.

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Several studies have investigated the impact of mental imagery on reward antici­
pation. In a case-series, Hallford, Sharma, and Austin (2020) asked participants with 
depression to rate anticipatory pleasure of future events over a no-treatment baseline 
phase. Participants then switched to an intervention phase in which they completed an 
episodic future thinking task involving vivid imagery of engaging in enjoyable upcom­
ing activities, focussing on contextual and episodic detail of these events. The authors 
found large effects of the intervention on anticipatory pleasure. In two experimental 
studies, Hallford, Farrell, and Lynch (2020) further tested the impact of guided episodic 
thinking about past or future positive events on anticipated and anticipatory pleasure 
in a non-clinical sample. Participants were instructed to imagine past or future events 
from a first-person perspective emphasising positive aspects of the events. In general, 
the authors found support for their hypothesis that guided episodic thinking of positive 
events (past- and future-oriented) increases anticipated and anticipatory pleasure (com­
pared to baseline ratings). In an earlier study, Pictet et al. (2016) tested the effect of 
an imagery cognitive bias modification (CBM) procedure on depression, anhedonia and 
anticipatory and consummatory pleasure in individuals with depressive symptoms. They 
found positive effects of the CBM intervention involving imagery of positive everyday 
experiences (compared to a closely matched control condition) on anhedonia and antic­
ipatory pleasure as well as a stronger increase in consummatory pleasure (compared 
to a waitlist control condition). This is in line with earlier findings by Blackwell et 
al. (2015), who found positive effects of an imagery CBM intervention (compared to 
an active control condition) on the anhedonia item of the Beck Depression Inventory. 
These studies suggest that imagery-based interventions might have merit in targeting 
reward-related processes in depression.

Other studies have focussed on the effects of mental imagery on approach motiva­
tion. For example, Linke and Wessa (2017) tested the effects of an online mental imagery 
training, compared to a waitlist control condition, on reward sensitivity and approach 
tendencies towards positive activities and edibles. During the imagery training, partici­
pants imagined the positive emotions, affirmative thoughts and pleasurable sensations 
associated with previously selected positive activities every second day over a two-week 
period. The authors found that the imagery training successfully increased reward sensi­
tivity and faster approach tendencies for activities (Linke & Wessa, 2017). Another study 
tested the effects of a positive prospective imagery intervention for planned everyday 
enjoyable and routine activities in a non-clinical sample (Renner, Murphy, Ji, Manly, & 
Holmes, 2019). Participants first selected and planned activities following the procedures 
described in behavioural activation treatment for depression (Martell, Addis, & Jacobson, 
2001). Participants in a motivational imagery condition then vividly imagined engaging 
in each of their planned activities. Participants in a no-imagery control condition plan­
ned the activities, but did not engage in the imagery exercise. The prospective imagery 
intervention increased anticipated pleasure/reward and motivation to engage in the 

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activities, compared to the control condition. In two independent experiments, Boland, 
Riggs, and Anderson (2018) asked non-depressed and dysphoric participants to simulate 
positive events using vivid mental imagery. They found that event likelihood (i.e., how 
likely participants thought the event would happen to them in the future) for positive 
events increased following imagery simulation of the events compared to a neutral 
imagery control task. Taken together, these studies demonstrate that engaging in positive 
prospective mental imagery of everyday activities has an impact on reward processing 
and transfers to approach motivation for engaging in the simulated activities.

Finally, a number of studies have investigated the transfer of the motivating effect of 
mental imagery interventions to self-reported activity levels outside the lab. One study 
conducted a secondary analysis of a randomized controlled trial (Blackwell et al., 2015) 
to test the effects of a four-week positive mental imagery intervention on self-reported 
behavioural activation in individuals with major depressive disorder (Renner, Ji, Pictet, 
Holmes, & Blackwell, 2017). Participants randomized to the positive imagery condition 
showed a greater increase in self-reported behavioural activation over the study period, 
compared to participants randomized to a control condition (Renner et al., 2017). In 
line with these findings, Renner et al. (2019; reviewed above) found that positive men­
tal imagery simulations of planned activities was associated with higher completion 
of activities that participants had previously been putting-off doing. Considering all 
types of activities, mental imagery led to a higher completion compared to a control 
group receiving activity reminder messages but not to a control group without reminder 
messages. Thus, while these preliminary findings need replication, they provide initial 
evidence that the positive effects of prospective mental imagery on approach motivation 
for rewarding activities might transfer to reward-motivated behaviour outside the labo­
ratory.

The studies reviewed here suggest that positive prospective mental imagery of activ­
ities can facilitate reward anticipation, reward motivation and reward-motivated behav­
iour. This is clinically relevant given that reward anticipation deficits are not adequately 
addressed in current treatments of depression (Treadway & Zald, 2011). Drawing from 
this broader literature, in the following paragraph, we provide a conceptual model de­
scribing how prospective mental imagery could promote the engagement in reward-mo­
tivated behaviour and its clinical potential to impact mood and depressive symptoms.

M e n t a l  I m a g e r y  a s  M o t i v a t i o n a l  A m p l i f i e r :
A  C o n c e p t u a l  M o d e l

Figure 1 provides a conceptual model illustrating the expected effects of prospective 
mental imagery on reward-motivated behaviour: positive prospective mental imagery of 
activities gives rise to a motivational amplifier effect by facilitating reward anticipation, 
reward motivation and reward-motivated behaviour. Given the power of mental imagery 

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to amplify emotions (Holmes, Geddes, Colom, & Goodwin, 2008), it has the potential 
to evoke the anticipation of reward-related emotions by drawing upon prior knowledge 
and experiences (Kavanagh et al., 2005; Moulton & Kosslyn, 2009; Schacter et al., 2008). 
Anticipating the positive emotional consequences of future behaviour, in turn, predicts 
reward motivation and reward-motivated behaviour (Hallford & Sharma, 2019; Mellers & 
McGraw, 2001; Sherdell, Waugh, & Gotlib, 2012; Treadway & Zald, 2011). This transfer 
from imagery to behaviour might be further facilitated by a boost in prospective memory 
for the simulated activity (Schacter, Benoit, & Szpunar, 2017). Actual engagement in 
simulated activities might then lead to a reward experience. The episodic memory of this 
experience, in turn, affects subsequent imagery simulations of similar future activities 
(Figure 1, see Table 1 for key term definitions).

Figure 1

Conceptual Model of the Motivational Amplifier Hypothesis

Note. Positive prospective mental imagery of engaging in (everyday) activities (e.g. running) can increase 
reward anticipation (anticipatory and anticipated reward) and reward motivation, which can transfer to 
increased engagement in reward-motivated behaviour and reward experience. Note that concepts in bold boxes 
are part of the literature review above.

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Table 1

Definition of Key Terms Used in the Conceptual Model

Concept Definition

Prospective mental imagery Future-directed imagery-based thought, involving a rich 

perceptual experience without external sensory input

Reward processing

Reward anticipation

Anticipated reward Expectation of how rewarding/pleasant a future activity 

will be

Anticipatory reward Subjective experience of how rewarding/pleasant it is to 

think about a future activity

Reward experience Pleasant/rewarding feelings experienced while engaging in 

the activity

Reward motivation Amount of effort an individual is prepared to expend for 

reward attainment

Reward-motivated behaviour Behaviour driven by the motivation to attain rewards

Prospective memory Remembering to carry out a planned activity in the future

Episodic memory Memory of personal experiences

The conceptual model has clinical potential insofar as it illustrates how positive prospec­
tive mental imagery could be used to promote behavioural activation in depression. The 
central assumption here is that reduced reward anticipation in depression contributes 
to a downward-spiral of reduced reward-motivated behaviours due to a loss of interest 
in previously rewarding activities that reduces the experience of rewards in daily life 
and, consequently, worsens depressive symptoms such as low mood (Figure 2). Based 
on our conceptual model, we hypothesise that positive prospective mental imagery of 
everyday activities can reverse this process by acting as a motivational amplifier boosting 
behavioural activation and thereby alleviating depressive symptoms (Figure 2).

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Figure 2

Reversing the Downward Spiral of Depression with Prospective Mental Imagery

Note. Key assumption: Reduced reward anticipation leads to a downward spiral of reduced reward-motivated 
behaviour and less reward experiences, resulting in increased depressive symptoms (left side). Key hypothesis: 
Targeting reward anticipation using vivid prospective mental imagery leads to increased reward-motivated 
behaviour and more reward experiences, resulting in a decrease of depressive symptoms (right side).

In summary, the recent literature reviewed above supports the idea that positive prospec­
tive mental imagery of activities can facilitate reward anticipation, reward motivation 
and reward-motivated behaviour. However, the reviewed studies primarily relied on 
self-report and more work is needed to investigate how the transfer of imagery to 
behaviour beyond the laboratory can be facilitated and how prospective mental imagery 
might benefit clinical practice.

F u t u r e  D i r e c t i o n s
Recent literature has emphasised the importance of conducting multimodal research 
to understand and thereby improve clinical interventions (Holmes, Craske, & Graybiel, 
2014). A future endeavour might thus be to extend previous research on the mechanism 
underlying prospective mental imagery beyond self-report. Neuroimaging, for instance, 
has provided initial evidence for a recruitment of brain regions implicated in reward pro­
cessing, such as the dorsal (caudate nucleus) and ventral striatum (nucleus accumbens), 

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during prospective mental imagery of positive events (D’Argembeau, Xue, Lu, Van der 
Linden, & Bechara, 2008; Gerlach, Spreng, Madore, & Schacter, 2014). Other measures 
that have been used to evaluate imagery-based manipulations and reward processing 
include pupil size, attention bias and approach/avoidance tendencies (Anderson, Laurent, 
& Yantis, 2011; Henderson, Bradley, & Lang, 2018; Linke & Wessa, 2017; Schneider, 
Leuchs, Czisch, Sämann, & Spoormaker, 2018; Werthmann, Jansen, & Roefs, 2016). Sim­
ilar approaches could prove useful to further investigate reward processing as a work­
ing mechanism of prospective mental imagery for behavioural activation. Ultimately, 
investigations beyond self-report will help us fine-tune imagery-based interventions and 
thereby guide treatment innovation for depression.

Another important question in experimental psychopathology research is how lab­
based findings hold up under everyday circumstances. Recent research in the broader 
field of clinical psychology demonstrated the added value of combining laboratory ex­
periments with Ecological Momentary Assessment (EMA; e.g. Bakker et al., 2019; Moran, 
Culbreth, & Barch, 2017; Ramirez & Miranda, 2014) and of integrating experimental 
manipulations into daily life (Huffziger et al., 2013; Huffziger, Ebner-Priemer, Koudela, 
Reinhard, & Kuehner, 2012). For example, Bakker and colleagues (2019) showed that 
when neural activity in reward processing regions was lower, assessed in the lab, EMA 
of reward anticipation and activity pleasantness were increasingly dissociated from one 
another. Findings like these can be valuable to refine or develop interventions by identi­
fying treatment targets (e.g. coupling of anticipation and engagement) under well-speci­
fied circumstances (e.g. low neural activity in reward-processing brain regions). These 
findings are also relevant in the context of earlier findings regarding challenges with the 
transfer of experimental prospective mental imagery interventions from lab to the real 
world (Renner et al., 2019). Integration of EMA with lab-based experiments as well as 
the use of Ecological Momentary Interventions (EMI; Myin-Germeys, Klippel, Steinhart, 
& Reininghaus, 2016) or manipulations of reward processing through prospective mental 
imagery in daily life may offer an additional means to facilitate the transfer from lab to 
real-world behaviour.

Moreover, individuals may differ in the extent to which they benefit from prospec­
tive mental imagery interventions. Studies already pointed to individual variation in 
processes related to prospective mental imagery, such as anticipatory pleasure (Hallford, 
Sharma, & Austin, 2020) and the perception of reward (Locke & Braver, 2008), and sug­
gested promising potential predictors or moderators that should be investigated in future 
studies. Potential moderators include individual differences in generating vivid mental 
imagery (Blackwell et al., 2015; Renner et al., 2017, 2019), procrastination (Renner et al., 
2019) and the number of depressive episodes (Blackwell et al., 2015). Additionally, when 
moving towards clinical applications, the question of how individual differences interact 
with the active ingredients of prospective imagery interventions becomes relevant. For 
example, initial evidence highlights the importance of simulating rewarding aspects of 

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planned activities in non-clinical participants, but it has not yet been investigated if 
individuals who have difficulties experiencing pleasure/reward from (thinking about) 
activities (i.e., individuals with anhedonia) benefit from simulating rewarding aspects 
of planned activities. Relatedly, prospective mental imagery interventions developed in 
the lab might need to be adjusted for clinical groups. For example, individuals with low 
mood and depression experience more difficulty in generating vivid prospective imagery 
and experience less spontaneous positive imagery (Hallford, Barry, et al., 2020; Holmes et 
al., 2016; Ji, Holmes, MacLeod, & Murphy, 2019; Morina, Deeprose, Pusowski, Schmid, & 
Holmes, 2011). Individuals with depression might thus benefit from additional training in 
generating vivid imagery for positive events.

Imagery based interventions have been used as stand-alone interventions as well as 
part of regular CBT for depression (Renner & Holmes, 2018). So far, we have mainly 
discussed the use of prospective mental imagery to target specific core clinical features in 
depression. Another line of inquiry involves integrating prospective imagery procedures 
to enhance the effects of established treatments for depression. Recent studies have 
suggested that CBT might be improved by the use of cognitive support strategies that 
enhance memory for the session content, and subsequently outcome (Harvey et al., 2017, 
2014). We suggest that prospective mental imagery could potentially work as a cognitive 
support strategy for CBT skill acquisition. CBT skills have been defined as the ability to 
re-evaluate the accuracy of one's own automatic beliefs or underlying stable cognitive 
patterns (a cognitive therapy skill; CT skill) and to engage proactively in pleasurable 
activities (a behavioral therapy skill; BT skill) (Strunk, DeRubeis, Chiu, & Alvarez, 2007). 
In non-clinical settings, mental imagery has been linked to improved skill acquisition in 
health-related and sport contexts (Anton, Bean, Hammonds, & Stefanidis, 2017; Dana & 
Gozalzadeh, 2017). In a clinical setting, mental imagery has been indirectly linked to BT 
skill by demonstrating an impact on self-reported behavioural activation (Renner et al., 
2017; reviewed above). Future studies should investigate how and for whom prospective 
mental imagery may increase the acquisition of CBT skills. Further down the road, for a 
successful clinical implementation, training sessions in prospective mental imagery could 
be included as part of a regular behavioural activation treatment protocol (Martell et al., 
2001) to facilitate engagement in pleasant and rewarding activities.

O v e r a l l  C o n c l u s i o n
In this review, we provided a selected update of the recent scientific literature on pro­
spective mental imagery and its impact on reward processing and reward-motivated 
behaviour in depression. Overall, the studies presented here suggest that prospective 
mental imagery simulations of activities can increase reward processing related to these 
activities as well as reward motivation and reward-motivated behaviors. Thus, these 
initial studies suggest that prospective mental imagery is a promising experimental 

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intervention in the context of depression, where the aim is to increase engagement in 
potentially rewarding activities. Future directions for research in this area may focus 
on multimodal assessments of prospective mental imagery effects to gain a better under­
standing of the processes involved, from basic mechanisms to everyday situations and its 
clinical applications.

Funding: All authors are supported by a Sofja Kovalevskaja Award from the Alexander von Humboldt Foundation 

and the German Federal Ministry for Education and Research awarded to FR.

Acknowledgments: The authors have no additional (i.e., non-financial) support to report.

Competing Interests: The authors have declared that no competing interests exist.

Twitter Accounts: @Fritz_Renner, @andreaspaetsch

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	Prospective Mental Imagery in Depression
	(Introduction)
	Identifying Core Clinical Features in Depression: Reward Processing
	Targeting Reward Anticipation, Reward Motivation and Reward-Motivated Behaviours Using Prospective Mental Imagery
	Mental Imagery as Motivational Amplifier: A Conceptual Model
	Future Directions
	Overall Conclusion
	(Additional Information)
	Funding
	Acknowledgments
	Competing Interests
	Twitter Accounts

	References