Optimizing Expectations About Endocrine Treatment for Breast Cancer: Results of the Randomized Controlled PSY-BREAST Trial


Research Articles

Optimizing Expectations About Endocrine Treatment for
Breast Cancer: Results of the Randomized Controlled
PSY-BREAST Trial

Meike C. Shedden-Mora ab, Yiqi Pan a, Sarah R. Heisig b, Pia von Blanckenburg c,

Winfried Rief c, Isabell Witzel d, Ute-Susann Albert e, Yvonne Nestoriuc abf

[a] Department of Psychosomatic Medicine and Psychotherapy, University Medical Center Hamburg-Eppendorf,
Hamburg, Germany. [b] Department of Clinical Psychology and Psychotherapy, Hamburg University, Hamburg,
Germany. [c] Department of Clinical Psychology and Psychotherapy, Philipps-University of Marburg, Marburg, Germany.
[d] Department of Gynecology, University Medical Center Hamburg-Eppendorf, Hamburg, Germany. [e] Department of
Gynecology, University Medical Center Würzburg, Würzburg, Germany. [f ] Department of Clinical Psychology, Helmut
Schmidt University Hamburg, Hamburg, Germany.

Clinical Psychology in Europe, 2020, Vol. 2(1), Article e2695, https://doi.org/10.32872/cpe.v2i1.2695

Received: 2019-06-20 • Accepted: 2019-11-05 • Published (VoR): 2020-03-31

Handling Editor: Cornelia Weise, Philipps-University of Marburg, Marburg, Germany

Corresponding Author: Meike C. Shedden-Mora, Department of Psychosomatic Medicine and Psychotherapy,
University Medical Center Hamburg-Eppendorf, Martinistraße 52, 20246 Hamburg, Germany. Phone:
+49-40-7410-54323. Fax: +49-40-7410-54975. E-mail: m.shedden-mora@uke.de

Abstract
Background: Medication side effects are strongly determined by non-pharmacological, nocebo
mechanisms, particularly patients’ expectations. Optimizing expectations could minimize side
effect burden. This study evaluated whether brief psychological expectation management training
(EXPECT) optimizes medication-related expectations in women starting adjuvant endocrine
therapy (AET) for breast cancer.
Method: In a multisite randomized controlled design, 197 women were randomized to EXPECT,
supportive therapy (SUPPORT), or treatment as usual (TAU). The three-session cognitive-
behavioral EXPECT employs psychoeducation, guided imagery, and side effect management
training. Outcomes were necessity-concern beliefs about AET, expected side effects, expected
coping ability, treatment control expectations, and adherence intention.
Results: Both interventions were well accepted and feasible. Patients’ necessity-concern beliefs
were optimized in EXPECT compared to both TAU and SUPPORT, d = .41, p < .001; d = .40, p
< .001. Expected coping ability and treatment control expectations were optimized compared to
TAU, d = .35, p = .02; d = .42, p < 001, but not to SUPPORT. Adherence intention was optimized
compared to SUPPORT, d = .29, p = .02, but not to TAU. Expected side effects did not change
significantly.

This is an open access article distributed under the terms of the Creative Commons Attribution
4.0 International License, CC BY 4.0, which permits unrestricted use, distribution, and
reproduction, provided the original work is properly cited.

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Conclusion: Expectation management effectively and partly specifically (compared to SUPPORT)
modified medication-related expectations in women starting AET. Given the influence of
expectations on long-term treatment outcome, psychological interventions like EXPECT might
provide potential pathways to reduce side effect burden and improve quality of life during
medication intake.

Keywords
expectation management, nocebo effect, psychological intervention, side effect, adjuvant endocrine treatment,
breast cancer, oncology

Highlights
• Expectation management (EXPECT) optimizes expectations prior to endocrine

therapy for breast cancer.
• EXPECT improved necessity-concern beliefs, coping and control expectations

and adherence intention.
• EXPECT was partly more effective than the supportive therapy control

condition.
• Expectation management provides a pathway to reduce side effect burden

during long-term medication.

Medication side effects are substantially determined by mechanisms which are not di‐
rectly attributable to the pharmacodynamics of the treatment. These non-specific side
effects are well-known from the nocebo phenomenon which manifests itself when ad‐
verse effects occur after placebo intake (Barsky, Saintfort, Rogers, & Borus, 2002). Nocebo
effects may also emerge as part of routine treatments. Hence, non-specific medication
side effects might aggravate the impact of specific side effects (Rief, Bingel, Schedlowski,
& Enck, 2011).

Nocebo-related side effects are predominantly determined by psychological mech‐
anisms, most relevantly patients’ expectations (Webster, Weinman, & Rubin, 2016).
Expectations are influenced by treatment information, social observation, and other
learning processes through negative experiences with prior medication intake (Colloca
& Miller, 2011). Analogous to expecting treatment benefits, patients also develop expecta‐
tions about potential adverse events (Laferton, Kube, Salzmann, Auer, & Shedden-Mora,
2017), and form beliefs about their medication’s necessity and possible concerns (Horne,
Weinman, & Hankins, 1999). These side effect expectations and medication beliefs
are linked to the actual occurrence of side effects of cancer treatments (Colagiuri &
Zachariae, 2010; Nestoriuc et al., 2016), and other therapies (Faasse & Petrie, 2013;
Nestoriuc, Orav, Liang, Horne, & Barsky, 2010). Importantly, side effect expectations
and medication beliefs not only predict long-term quality of life, but also medication
non-adherence (Horne et al., 2013; Nestoriuc et al., 2016; Pan et al., 2018).

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As expectations are potentially modifiable factors, optimizing patients’ treatment
expectations has been put forward as a novel strategy to improve treatment outcome and
minimize side effect burden (Bingel, 2014; Heisig, Shedden-Mora, Hidalgo, & Nestoriuc,
2015; Laferton et al., 2017; Nestoriuc et al., 2016). First evidence from experimental
studies suggests that psychological expectation management can effectively improve par‐
ticipants’ expectations regarding anti-cancer treatments (Heisig, Shedden-Mora, Hidalgo,
& Nestoriuc, 2015), reduce pain (Peerdeman et al., 2016) and even reverse nocebo effects
(Bartels et al., 2017). To date, the PSY-HEART-trial (Rief et al., 2017) showed that brief
expectation management prior to open-heart surgery successfully changes expectations
(Laferton, Auer, Shedden-Mora, Moosdorf, & Rief, 2016), improves long-term disability,
quality of life and reduces the length of hospital stay (Auer et al., 2017).

This study employs expectation management in patients undergoing adjuvant en‐
docrine therapy (AET) for breast cancer. AET is the state-of-the-art treatment for hor‐
mone-receptor-positive breast cancer. Intake for at least five years improves disease-free
survival and time to recurrence (Burstein et al., 2014). Despite its proven clinical efficacy,
non-adherence rates ranging from 28% to 73% within the 5-year intake period have
been reported (Murphy, Bartholomew, Carpentier, Bluethmann, & Vernon, 2012). As low
adherence is associated with poorer survival (Hershman et al., 2011), ensuring patients’
adherence is crucial. Side effects such as arthralgia, hot flushes, weight gain, and loss
of libido can substantially reduce quality of life (Cella & Fallowfield, 2008) and cause
treatment discontinuation (Demissie, Silliman, & Lash, 2001). Side effects occur related to
the specific pharmacodynamics of AET (e.g., hot flushes are caused by the deprivation
of estrogen), but can also be treatment-unrelated (e.g., dizziness) (Gibson, Lawrence,
Dawson, & Bliss, 2009). Relevantly, side effect expectations predict the actual occurrence
of cancer treatment side effects (Colagiuri & Zachariae, 2010), long-term quality of life,
and non-adherence in AET (Nestoriuc et al., 2016; Pan et al., 2018).

The aim of this study was to evaluate whether a three-session psychological ex‐
pectation management training (EXPECT; von Blanckenburg, Schuricht, Albert, Rief, &
Nestoriuc, 2013; von Blanckenburg et al., 2015) optimizes patients’ AET-related expecta‐
tions when starting AET. This study reports the pre- to post-intervention change of
expectations of the PSY-BREAST trial (expectation-focused PSYchological pre-treatment
intervention to improve outcome in BREAST cancer treatment). EXPECT was compared
to a psychological control intervention (supportive therapy, SUPPORT), and treatment
as usual (TAU). It is hypothesized that EXPECT but not SUPPORT and TAU improves
expectations regarding the prescribed AET medication and its side effects, the expected
ability to cope with potential side effects, and treatment control expectations. Secondly, it
is hypothesized that only EXPECT improves the intention to adhere to AET.

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M e t h o d

Study Design
This was a three-arm multisite (two centers with four clinics), randomized controlled tri‐
al. It was registered at ClinicalTrials.gov (NCT01741883). Ethical approval was obtained
from the respective local ethics committees (Marburg, Hamburg). Outcomes for this
analysis were compared between baseline and post-intervention (Figure 1). A detailed de‐
scription of the design is provided in the study protocol (von Blanckenburg et al., 2013).
After study inclusion, patients were randomly assigned to receive EXPECT, SUPPORT,
or TAU. Treatment as usual (TAU) in all groups consisted of the general guideline-based
oncologic regime in the certified breast cancer centers, usually surgery and radiation,
followed by adjuvant endocrine treatment with tamoxifen or third-generation aromatase
inhibitors (Kreienberg et al., 2012). The decision of the type of AET mainly depended on
the women’s menopausal status. All patients were offered one session basic psycho-on‐
cological support by a trained psycho-oncologist of the hospital staff. After discharge,
patients were treated in an outpatient setting by a gynecologist, general practitioner, and
if desired, a psycho-oncologist with up to 12 sessions. Patients were allocated in a 1:1:1
ratio stratified according to the Hospital Anxiety and Depression Scale (sum score ≤13 vs.
>13) and type of medication (aromatase inhibitor vs. tamoxifen).

Participant Enrollment
Data were collected between November 2012 and May 2015 at the Philipps University
of Marburg and the University Medical Center Hamburg-Eppendorf, Germany. Patients
were recruited post-surgery during their hospital stay. Included were women aged 18-80
years, with hormone-receptor-positive breast cancer or ductal carcinoma in situ to whom
first-line adjuvant endocrine treatment with tamoxifen or third generation aromatase
inhibitors was prescribed. Further inclusion criteria were the ability to give informed
consent and sufficient German language skills. Exclusion criteria were advanced breast
cancer, the presence of any other cancer or comorbid somatic illness causing predomi‐
nant disability, severe psychiatric illness (e.g., psychosis, checked by structured psychiat‐
ric interview, mini-DIPS), and adjuvant chemotherapy.

After providing written informed consent, all patients received a medication infor‐
mation leaflet accompanied by an oral briefing by trained research assistants. This
previously validated information illustrated the mode of action, the desired effects, and
potential side effects of AET in order to homogenize knowledge (Heisig, Shedden-Mora,
von Blanckenburg, et al., 2015). The information briefing was followed by baseline
assessment and randomization. Outcome assessors (trained research assistants) were
blinded to group allocation throughout the study. For this analysis, the sample of n =
197 patients will allow the detection of small effect sizes, f(V) = .11, with 80% power and
α = .05.

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Psychological Interventions
Patients received three individual weekly or bi-weekly treatment sessions of 50-75-mi‐
nutes by a clinical psychologist, followed by up to three 15-minutes booster phone calls
at one, three, and six months. A detailed description of the interventions can be found in
the study protocol (von Blanckenburg et al., 2013) and case report (von Blanckenburg et
al., 2015). All therapists received regular supervision by experienced psycho-oncologists.
Therapist allegiance evaluated via video ratings was considered as high (Appendix).

EXPECT – Expectation Management Training

EXPECT is based on cognitive-behavioral therapy and aims to prevent nocebo-related
side effects from AET by optimizing treatment-related expectations. The focus on side ef‐
fects is counterbalanced by therapeutic work towards strengthening beliefs of treatment
control, benefit, and necessity. EXPECT is manualized; however, topics are adapted to
the patient’s individual expectations using a personalized intervention booklet. The three
sessions have the following goals and topics:

Session 1. Psychoeducation about AET (mode of action, benefits, potential side effects)
is given. The impact of expectations and the nocebo effect are discussed. The aim is to
strengthen beliefs about AET’s necessity while keeping concerns at a realistic minimum
(Heisig, Shedden-Mora, von Blanckenburg, et al., 2015). An imagery exercise guides the
patients towards visualizing the expected benefits of AET.

Session 2. Coping strategies for managing the three individually most feared side
effects are developed (Mann et al., 2012). These include behavioral techniques, cognitive
strategies, and management of specific triggers. Strategies are summarized in a written
problem-solving scheme, and patients are encouraged to create a practical ‘tool-box’.

Session 3. To strengthen resources for the medication intake period, resourceful activi‐
ties (e.g., gardening) are encouraged. To support defocusing from side effects, attention
control strategies are discussed. To enhance effective patient-doctor communication,
patients receive a communication skills training. At the end of the session, the tool-box
and all previous topics are reviewed.

Booster calls. The three booster calls aim to provide therapeutic support during the
first months of medication intake. Patients are encouraged to apply the learned coping
strategies for side effects, which are adapted if necessary.

Supportive Therapy (SUPPORT)

Supportive therapy was designed as an active psychological control condition to account
for general therapeutic factors such as the therapist’s attention and the patient-thera‐
pist relationship (Markowitz, Manber, & Rosen, 2008). It allows distinguishing specific
effects of EXPECT from psychological placebo effects. It applies common factors of
psychotherapy such as elicitation of affect, empathy, and reflective listening. In contrast
to EXPECT, no explicit theoretical framework and no expectation-targeted interventions

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are provided. Each session is structured into three phases: the beginning (inquiring about
relevant topics), the therapeutic dialog (encouraging the patient to talk about any theme
of affective valence), and the ending (revising addressed themes). The booster calls are
conducted analogously to EXPECT, with focus on the patient’s emotional state.

Assessment
Patients’ Expectations

Medication-related expectations about AET were assessed using the Necessity-Concern
Balance as measured by the Beliefs about Medicines Questionnaire (BMQ; Horne et al.,
1999). A difference score ranging from -4 to 4 is calculated by subtracting the mean
expected necessity scale (5 items) from the mean expected concerns scale (6 items)
(Horne et al., 2013). Positive scores indicate stronger necessity beliefs than concerns (≈
functional balance).

The mean intensity of 44 expected side effects was assessed using the General Assess‐
ment of Expected Side Effects Scale (GASE-expect; Nestoriuc et al., 2016) which measures
the expected intensity of 23 general and 21 AET-specific side effects on a 0 (‘not present’)
to 3 (‘severe’) scale.

The expected ability to cope with the potential 44 expected side effects in case of their
presence was assessed on a 1 (‘expect to cope badly’) to 4 (‘expect to cope very well’)
scale.

Treatment control expectation was assessed with the respective item (‘How much
do you think your AET can help your breast cancer?’) from the Brief Illness Percep‐
tion Questionnaire (B-IPQ), ranging from 0 (‘not at all’) to 10 (‘extremely helpful’).
(Broadbent, Petrie, Main, & Weinman, 2006)

Adherence Intention

Adherence intention was assessed with the question ‘How certain are you about starting
the endocrine therapy?’ rated on a 7-point scale (from 1 ‘very unsure’ to 7 ‘very sure’).

Sociodemographic and Medical Variables

Age, education, and marital status were assessed. Medical variables, namely menopausal
status, and breast cancer tumor stage were retrieved from the hospitals’ patient records.
Patients provided information on their prescribed AET and existing medical comorbidi‐
ties. The presence and intensity of 44 current somatic complaints were assessed on a 0 to
3 scale using the GASE (Rief, Barsky, et al., 2011).

Patients’ Evaluation of the Intervention

Patients evaluated the intervention on nine statements rated from 1 (‘do not agree at all’)
to 6 (‘fully agree’). The general satisfaction with the intervention, specific components

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of EXPECT, and therapeutic components imminent to supportive therapy were assessed.
Potential adverse events of the interventions were assessed with an open-ended question.

Treatment fidelity was assessed by asking patients how often they practiced the im‐
agery exercise on one 1 (‘daily’) to 5 (‘not at all’) scaled item. Additionally, participation
in booster sessions was assessed.

Therapeutic alliance was rated by patients and therapists after each session with
two questions (the intervention has helped me / the patient, the psycho-oncologist un‐
derstands me / the patient felt understood) from 1 (‘do not agree at all’) to 6 (‘fully
agree’).

Data Analysis
To examine whether EXPECT resulted in improved expectations compared to SUPPORT
and TAU, we computed linear mixed models with treatment group, time (pre- vs. post-
intervention) and treatment group by time as fixed effects and a random intercept
for subject-specific effects with a restricted maximum likelihood estimation and an
autoregressive residual matrix. All analyses were adjusted for study site, age, type of
AET, breast cancer tumor stage, and physical symptoms (GASE) as fixed effects. For the
hypothesized treatment group by time interaction, pairwise comparisons were reported.
Pre-post-tests were performed to indicate improvements within a group.

Missing values on single items ranged from 0 to 3.5% and were imputed using the
EM-algorithm. Missing data points at post-intervention were estimated within the linear
mixed model using the full intention-to-treat sample. Effect sizes were calculated as
differences in mean growth rates between the groups, divided by the product of standard
error by square rooted number of participants in TAU (Feingold, 2009). Significance
level for all analyses was set at α = .05. Statistical analyses were performed using SPSS
Statistics 24.

R e s u l t s

Participant Flow
Of 506 women assessed for eligibility, 271 were eligible for study participation, 197
patients were randomized analyzed as the ITT-sample (Figure 1). Of those, 165 completed
post-intervention assessment (83.8%).

Women who discontinued AET before post-intervention assessment (EXPECT: n = 0;
SUPPORT: n = 4; TAU: n = 2), and women who did not start the intervention (EXPECT:
n = 5, SUPPORT: n = 10), but completed post-assessment were included in the analyses
to avoid selection bias. Fifty-four women (79.4%) in EXPECT and 55 women (80.9%) in
SUPPORT received all three sessions.

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Figure 1

Patient Flow (CONSORT)

Note. AET = adjuvant endocrine treatment; TAU = treatment as usual; SUPPORT = supportive
therapy; EXPECT = expectation management training.
aOf n = 203 randomized patients, 6 were identified as non-eligible post-randomization and
therefore excluded.

Baseline Characteristics
All baseline sociodemographic and clinical characteristics were comparable across the
groups (Table 1).

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Table 1

Demographic and Clinical Sample Characteristics

Variable
EXPECT
(n = 68)

SUPPORT
(n = 68)

TAU
(n = 61)

Comparison

F | χ2 p

Demographics
Age in years, M (SD) 56.46 (8.92) 58.44 (8.40) 59.64 (10.74) F(2, 197) = 1.92 .15
At least 13 years of education, n (%) 24 (35.8) 28 (41.8) 21 (34.4) χ2(2) = 0.85 .65
Married/with partner, n (%) 42 (61.8) 45 (66.2) 36 (59) χ2(2) = 0.72 .70

Clinical symptoms
Peri-/Post-menopausal, n (%) 49 (72.1) 53 (77.9) 48 (78.7) χ2(2) = 0.96 .62
Tumor stage UICC, n (%) χ2(4) = 3.49 .48

I 41 (60.3) 42 (61.8) 44 (72.1)
II 23 (33.8) 24 (33.8) 16 (26.2)
III 4 (5.9) 2 (2.9) 1 (1.6)

Type of AET, n (%) χ2(2) = 2.19 .34
Tamoxifen 37 (54.4) 35 (51.5) 39 (63.9)
Aromatase Inhibitors 31 (45.6) 33 (48.5) 22 (36.1)

Medical comorbidities, n (%) χ2(4) = 0.76 .94
0 25 (36.8) 23 (33.8) 19 (31.1)
1 or 2 35 (51.5) 38 (55.9) 36 (59)
≥ 3 8 (11.8) 7 (10.3) 6 (9.8)

Number of current somatic complaints (GASE)
M (SD) 11.10 (6.70) 9.34 (6.20) 9.98 (7.11) F(2, 197) = 1.22 .30
Range 0 - 31 0 - 26 0 - 29

Intensity of current somatic complaints (GASE)
M (SD) 0.33 (0.24) 0.30 (0.25) 0.31 (0.25) F(2, 197) = 0.32 .73
Range 0 - 3 0 - 3 0 - 3

Note. EXPECT = expectation management training; SUPPORT = supportive therapy; TAU = treatment as
usual; AET = Adjuvant endocrine therapy; UICC = Union for International Cancer Control; GASE = General
Assessment of Side Effects Scale.

The majority of the women were diagnosed with tumor stage I (64.5%). The most
frequent comorbidities were hypertension (32.0%), thyroid diseases (25.9%), and joint
or dorsal pain (18.3%). Most common baseline somatic symptoms comprised pain or
sensitivity of the breast (71.6%), sleeping problems (52.3%), and fatigue (50.5%).

Changes in Patients’ Expectations
The necessity-concern balance at baseline was rather positive in all groups (Table 2).

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Table 2

Outcome Measures at Baseline and Post-Intervention

Outcome EXPECT SUPPORT TAU

EXPECT vs. TAU EXPECT vs. SUPPORT

t p d t p d

Medication beliefs: necessity-concern balance (BMQ; range -4-4) 3.33 < .001 0.43 3.15 < .001 0.40
Baseline 0.68 [0.43, 0.93] 0.82 [0.57, 1.06] 0.77 [0.51, 1.04]
Post-intervention 1.06 [0.79, 1.33] 0.63 [0.36, 0.90] 0.54 [0.27, 0.83]

Expected side effects, mean intensity (GASE-expect; range 0-3) -1.69 .092 -0.22 -0.66 .51 -0.09
Baseline 0.56 [0.48, 0.64] 0.50 [0.42, 0.59] 0.47 [0.38, 0.55]
Post-intervention 0.53 [0.44, 0.62] 0.51 [0.42, 0.60] 0.54 [0.45, 0.63]

Expected coping ability, mean (GASE coping; range 1-4)a 2.45 .015 0.35 1.44 .15 0.21
Baseline 3.49 [3.39, 3.58] 3.53 [3.44, 3.63] 3.61 [3.51, 3.72]
Post-intervention 3.63 [3.53, 3.74] 3.56 [3.46, 3.66] 3.55 [3.44, 3.66]

Expected treatment control (B-IPQ; range 0-10) 3.27 < .001 0.42 1.65 .10 0.21
Baseline 7.43 [6.89, 7.98] 7.51 [6.97, 8.05] 7.91 [7.33, 8.48]
Post-intervention 7.73 [7.14, 8.31] 7.11 [6.53, 7.69] 6.79 [6.18, 7.40]

Adherence intention (range 1-7) 1.85 .065 0.24 2.27 .024 0.29
Baseline 6.05 [5.73, 6.37] 6.37 [6.05, 6.69] 6.32 [5.98, 6.66]
Post-intervention 6.66 [6.30, 7.01] 6.27 [5.91, 6.62] 6.33 [5.97 -6.70]
Note. Values indicate estimated marginal means [95% CI]. Analyses are adjusted for study side, age, type of
AET, breast cancer tumor stage, and baseline physical symptoms. Statistical comparisons (t- and p-values) refer
to the pairwise comparisons of the treatment group by time interaction. EXPECT = expectation management
training; SUPPORT = supportive therapy; TAU = treatment as usual.
aSample size for analysis n = 172 (25 patients did not expect any side effects).

A significant group by time interaction indicated an improved necessity-concern balance
in EXPECT compared to both TAU and SUPPORT, estimated mean difference = 0.61, 95%
CI [0.25, 0.98], p = .001; 0.57, 95% CI [0.21, 0.93], p = .002, respectively (Figure 2).

Pre-post within-group comparisons indicated that significant improvements in the
necessity-concern balance only occurred in EXPECT but not in TAU and SUPPORT, 0.38,
95% CI [0.13, 0.64], p = .003; -0.23, 95% CI [-0.49, 0.03], p = .085; -0.19, 95% CI [-0.44,
0.07], p = .147. When the scales were analyzed separately, EXPECT showed an increase
of necessity beliefs compared to SUPPORT and in trend to TAU, 0.27, 95% CI [0.00, 0.54],
p = .049; 0.25, 95% CI [-0.03, 0.53], p = .075, respectively. EXPECT reported a reduction of
concerns compared to TAU and SUPPORT, -.37, 95% CI [-.59, -.14], p = .002; -.30, 95% CI
[-.53, -.08], p = .008.

Mean expected side effects at baseline were low. Non-significant group by time interac‐
tions indicated that the groups did not differ, EXPECT vs. SUPPORT: -0.04, 95% CI [-0.16,
0.08], p = .51; vs. TAU: -0.11, 95% CI [-0.23, 0.02], p = .092. Pre-post comparisons showed
no significant change over time in any group.

The mean expected ability to cope with potential side effects, which was analyzed for
172 patients who expected at least one of the 44 side effects, was high at baseline. A

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significant group by time interaction indicated improved coping expectations in EXPECT
compared to TAU, but not to SUPPORT, 0.22, 95% CI [0.04, 0.39], p = .015; 0.12, 95% CI

Figure 2

Expectations at Baseline and Post-Intervention

Note. Values shown are estimated marginal means (error bars: ± 1 standard error) from linear mixed
models. TAU = treatment as usual, SUPPORT = supportive therapy, EXPECT = expectation
management training. Numbers after scale names indicate the range.
*p < .05. **p < .01

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[-0.05, 0.29], p = .15. Pre-post comparisons indicated that coping expectations significant‐
ly improved in EXPECT, but not in TAU or SUPPORT, 0.15, 95% CI [0.03, 0.27], p = .013;
-0.07, 95% CI [-0.20, 0.06], p = .30, 0.03, 95% CI [-0.09, 0.15], p = .65.

Treatment control expectations at baseline were moderately high. A significant group
by time interaction indicated that EXPECT developed significantly higher treatment
control expectations compared to TAU, but not to SUPPORT, 1.41, 95% CI [0.56, 2.27], p
= .001; 0.70, 95% CI [-0.14, 1.54], p = .10. Pre-post comparisons indicated that treatment
control expectations declined in TAU, but did not change in EXPECT or SUPPORT, -1.12,
95% CI [-1.73, -.51], p < .001; 0.30, 95% CI [-0.30, 0.89], p = .33; -0.40, 95% CI [-1.00, 0.19], p
= .18.

Changes in Adherence Intention
Adherence intention at baseline was high (Table 2). EXPECT developed a significantly
higher intention to adhere to their AET compared to SUPPORT, and in trend compared
to TAU, 0.71, 95% CI [0.09, 1.33], p = .024; 0.59, 95% CI [-0.04, 1.22], p = .065 (Figure
2). Pre-post comparisons indicated that adherence intention significantly increased in
EXPECT, but not in TAU and SUPPORT, 0.61, 95% CI [0.17, 1.04], p = .007; 0.01, 95% CI
[-0.44, 0.47], p = .96; -0.11, 95% CI [-0.54, 0.33], p = .63, respectively.

Patients’ Evaluation of the Intervention
The general satisfaction was very high in both groups, while the EXPECT-specific
components (e.g., feeling more prepared to face AET side effect) were evaluated more
positively in EXPECT (Figure 3). SUPPORT-specific components (e.g., easier to cope with
emotions) were evaluated non-significantly better in SUPPORT.

Regarding adverse events of the interventions, 14 patients in EXPECT and 13 patients
in SUPPORT reported at least one adverse event. In EXPECT, patients reported: organiza‐
tional issues (4), the number of sessions being too few (4) or too many (1), too much
focus on adverse events (2), emotional distress (1), needing more recommendations on
coping with side effects (1), and having no need for the intervention (1). In SUPPORT,
patients reported: organizational issues (4), too little focus on AET (3), too much focus
on possible adverse events (1), the number of sessions being too few (1), needing more
recommendations on coping with side effects (1), emotional distress (1), and wish for
being asked more questions (1).

Regarding treatment fidelity, 39 patients in EXPECT (70.9%, 55 datasets available)
practiced their individual protective image developed in the intervention at least once
a week. Moreover, at least one booster session was taken up by 52 patients (76.5%) in
EXPECT and 51 patients (75%) in SUPPORT.

Regarding therapeutic alliance, patients in both groups highly agreed that the inter‐
vention had helped them, EXPECT: M (SD) = 5.70 (0.40); SUPPORT: 5.62 (0.47), and that

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they felt understood, 5.43 (0.52); 5.30 (0.61). Therapists fully agreed that the intervention
might have helped the patient, EXPECT: 5.07 (0.75); SUPPORT: 4.73 (1.09), and that
patients felt understood, 5.27 (0.70); 5.32 (0.61). Patient and therapist ratings showed
medium correlations across both groups, item help: r = .408, p < .001; item understanding:
r = .317, p < .001).

D i s c u s s i o n
This randomized controlled trial investigated whether a brief expectation-focused psy‐
chological intervention (EXPECT) optimizes patients’ medication-related expectations
before starting AET for breast cancer. In summary, patients’ necessity-concern beliefs
about AET were significantly optimized in EXPECT as compared to both TAU and

Figure 3

Patients’ Evaluation of EXPECT and SUPPORT Interventions

Note. General = general satisfaction with the intervention; EXPECT-specific = specific components
of expectation management training; SUPPORT-specific = therapeutic components imminent to
supportive therapy. Statistics are between-group comparisons (ANOVAs).
*p < .05. **p < .01.

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SUPPORT. Expected coping with side effects and expected treatment control were sig‐
nificantly optimized compared to TAU but not to SUPPORT. Expected adherence was
significantly optimized compared to SUPPORT but not to TAU. Expected side effects did
not change significantly.

As predicted, patients receiving EXPECT developed more positive AET-related ex‐
pectations compared to both SUPPORT and TAU. In particular, patients in EXPECT
increased their necessity beliefs and reduced their concerns, while necessity-concern
beliefs remained unchanged in the other groups. This result is highly relevant given that
dysfunctional necessity-concern beliefs are associated to poorer medication adherence
(Horne et al., 2013), which in turn predicts morbidity and mortality in breast cancer
(Hershman et al., 2011). The relevance of these changes is underpinned by the increase
in adherence intention compared to SUPPORT and in trend to TAU, which is a good
predictor of actual adherence (Manning & Bettencourt, 2011). Accordingly, compared to
TAU, patients receiving EXPECT expected to cope better with possible side effects and
had higher expectations that AET could control their illness.

To our knowledge, this is the first study investigating expectation change in cancer
treatment. Our findings are in line with previous evidence from the PSY-HEART trial
targeting expectations prior to cardiac surgery (Laferton et al., 2016; Rief et al., 2017), an
RCT addressing illness perceptions after myocardial infarction (Broadbent, Ellis, Thomas,
Gamble, & Petrie, 2009), and experimental pain research (Peerdeman et al., 2016). All
showed that patients’ expectations can be effectively changed through brief interventions
using expectation management, verbal suggestions, imagery, or conditioning. In breast
cancer, an acupressure band combined with expectation-enhancing information reduced
nausea after chemotherapy in patients with high levels of expected nausea, but the au‐
thors did not report expectation change (Roscoe et al., 2010). In our opinion, thoroughly
assessing expectation changes is highly relevant to understand how interventions work,
and whether postulated etiological mechanisms are actually targeted. While there are
effective approaches to support patients in coping with cancer-associated stress, pain,
and fatigue (Antoni et al., 2009), few directly address coping with side effects of cancer
treatment (Mann et al., 2012) and target patients’ expectations as a relevant etiological
factor.

With small to moderate effect sizes, EXPECT was specifically superior to our psy‐
chological control condition (SUPPORT) in changing medication beliefs and improving
adherence intention. In contrast, changes in coping and treatment control expectations
did not significantly differ between EXPECT and SUPPORT. While most effects indicated
in the assumed direction, proving superiority to a strong, active control condition like
supportive therapy might need larger sample sizes. Thus, EXPECT can be considered
effective compared to TAU and partly superior to SUPPORT for some of the expectation
measures.

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Contrary to our hypothesis, the mean intensity of expected side effects did not
change significantly, for which two aspects might be relevant. Firstly, discussing side
effects might not actually reduce their expected intensity. Importantly, our study shows
that the guided therapeutic attention on side effects is not harmful, as might be feared
by physicians and patients. This is in line with studies showing that the assessment
of side effect expectations does not increase their occurrence (Colagiuri et al., 2013).
However, we will carefully monitor the occurrence of adverse effects in our trial (von
Blanckenburg et al., 2013). Secondly, ceiling effects due to low baseline side effect
expectations might explain the lack of changes. It is possible that our provision of
standardized comprehensive information about AET to all patients already lowered side
effect expectations (Heisig, Shedden-Mora, von Blanckenburg, et al., 2015).

With regard to the patients’ evaluation, both interventions were well accepted and
perceived as highly helpful, while all EXPECT-specific elements were rated as more
achieved in EXPECT. Thus, the interventions can be regarded as specific in targeting the
aimed mechanism from the patients’ perspective. Importantly, the therapeutic alliance
from both the patients’ and the therapists’ perspective was perceived as very supportive.

Few patients experienced adverse events of the intervention, of which most were of
organizational nature. Two patients in EXPECT feared that the focus on possible adverse
events might make them more sensitive to actually experiencing them. While there was
no overall increase in side effect expectations in our study, these concerns need to be
taken seriously and addressed in nocebo-focused expectation management interventions.
Taken together, the evaluation shows that both interventions were well accepted and
feasible within guideline-based breast cancer care.

Study Limitations
The results of this RCT need to be interpreted in light of potential limitations. First, while
the sample was recruited from four independent sites and resembled a typical early-stage
breast cancer sample (Burstein et al., 2014; Murphy et al., 2012), a sample selection
bias due to declining participation or non-initiation of AET might limit generalizability.
Second, the GASE-expect scales need further psychometric evaluation. Lastly, larger
samples might be needed to detect smaller differences between EXPECT and SUPPORT.

Clinical Implications
In conclusion, this RCT is the first study to show that expectations regarding breast can‐
cer treatment can be effectively changed via a brief psychological intervention. Expecta‐
tion management proved to be a feasible, well-accepted, effective intervention that was
partly superior to the psychological control condition. It could easily be implemented in
routine care for women with early-stage breast cancer.

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In this study, certain aspects of expectations such as the necessity-concern balance,
coping and treatment control expectations seemed more amenable to change. Certainly,
more validated assessment methods of patients’ expectations are needed, for which
our proposed integrative model of patients’ expectations (Laferton et al., 2017) might
provide a framework. Moreover, patients’ expectations result from a dynamic interaction
of cognitive processes and experiences with medication intake (Wiech, 2016) and thus
might change with the actual experience of AET intake. Therefore, investigating expecta‐
tion change more systematically seems worthwhile (Heisig, Shedden-Mora, Hidalgo, &
Nestoriuc, 2015; Kube, Rief, Gollwitzer, & Glombiewski, 2018).

The long-term effects of these optimized expectations within the PSY-BREAST trial
regarding side effect burden, quality of life, and medication adherence (von Blanckenburg
et al., 2013) will be reported elsewhere. Moreover, the course of expectations during
long-term AET intake and their impact on the above mentioned outcomes will be repor‐
ted elsewhere. Investigating whether expectations and beliefs can be effectively changed
through brief interventions is the first important step towards improving long-term
outcomes during AET treatment, and allows for analyzing the effects of expectations
changes on clinical outcomes.

Funding: This study was funded by the German Research Foundation (DFG) (PI: Yvonne Nestoriuc, NE 1635/2-1) as a
subproject of the DFG research unit (FOR 1328) “Expectation and conditioning as basic processes of the placebo and
nocebo response: From neurobiology to clinical applications”.

Competing Interests: Winfried Rief is Editor-in-Chief of Clinical Psychology in Europe but played no editorial role
for this particular article. Apart from that, the authors have declared that no competing interests exist.

Previously Presented: This study has been previously presented at the 15th International Congress of Behavioral
Medicine; the abstract has been published (Shedden-Mora et al. (2018). International Journal of Behavioral Medicine,
25(Suppl. 1), S182.

Acknowledgments: The authors thank the staff from the Department of Gynecology, Gynecological Endocrinology
and Oncology, Philipps University of Marburg, the Department of Gynecology, University Medical Center Hamburg-
Eppendorf, the Breast Center at the Agaplesion Diakonie Clinic Hamburg and the Breast Center at the Jerusalem
Hospital Hamburg for their support with the patient recruitment. We are grateful to Dr. Sabine Rehahn-Sommer
(Marburg, Germany) for her ongoing supervision of the psychological interventions.

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A p p e n d i x :  T h e r a p i s t  A l l e g i a n c e
Video ratings of 46 (of 330 available) randomly selected therapy session videos (14%; 24 of EXPECT,
22 of SUPPORT equally selected from the three sessions) were performed by two trained inde‐
pendent raters following a standardized protocol. Ten specific items for EXPECT and SUPPORT
assessed objective allegiance on a 1 (‘not present’) to 3 (‘strongly present’) rating-scale (e.g.,
adherence to manual and structure of sessions, therapeutic attitude). Overall, the mean ratings
(with standard deviations in parenthesis) of treatment allegiance in EXPECT and SUPPORT were
2.91 (0.11), and 2.98 (0.05). The percentage in which the two raters fully agreed in their rating of a
video was 92% for EXPECT and 99% for SUPPORT.

Subjective allegiance was rated by the therapist after each session on one item scaled from 1
(‘low’) to 4 (‘high’). The mean subjective allegiance ratings in EXPECT and SUPPORT were 3.25
(0.78), and 2.94 (0.33). Thus, therapist subjective and objective allegiance to the respective manuals
can be regarded as high.

Clinical Psychology in Europe (CPE) is the official journal of the European
Association of Clinical Psychology and Psychological Treatment (EACLIPT).

PsychOpen GOLD is a publishing service by Leibniz Institute for Psychology
Information (ZPID), Germany.

Optimizing Expectations About Cancer Treatment 20

Clinical Psychology in Europe
2020, Vol.2(1), Article e2695
https://doi.org/10.32872/cpe.v2i1.2695

https://doi.org/10.1186/1471-2407-13-426
https://doi.org/10.1159/000377711
https://doi.org/10.1037/hea0000416
https://doi.org/10.1126/science.aaf8934
https://www.psychopen.eu/

	Optimizing Expectations About Cancer Treatment
	(Introduction)
	Method
	Study Design
	Participant Enrollment
	Psychological Interventions
	Assessment
	Data Analysis

	Results
	Participant Flow
	Baseline Characteristics
	Changes in Patients’ Expectations
	Changes in Adherence Intention
	Patients’ Evaluation of the Intervention

	Discussion
	Study Limitations
	Clinical Implications

	(Additional Information)
	Funding
	Competing Interests
	Previously Presented
	Acknowledgments

	References
	Appendix: Therapist Allegiance