Spanish Journal of Psychology (2014), 17, e10, 1–8.
© Universidad Complutense de Madrid and Colegio Oficial de Psicólogos de Madrid
doi:10.1017/sjp.2014.10

Cardiovascular diseases are one of the principal causes 
of mortality in contemporary societies and also respon-
sible for a significant percentage of permanent disabil-
ities (Wielgosz & Nolan, 2000). In Spain, according to the 
Spanish National Statistics Institute, 27% of deaths 
in 2010 (the most recent available data) were due to 
ischemic and cerebrovascular diseases. Within this group, 
ischemic heart and cerebrovascular diseases were the 
primary cause of death among males and females respec-
tively (Spanish National Statistics Institute, 2012).

Together with traditional risk factors (hypertension, 
cholesterol, smoking, diabetes, obesity, etc.), research 
has for decades demonstrated the importance of 
psychosocial factors relating to stress and lifestyle, 
which play a significant role both in the etiology of 
the disorder and in the recuperation of those affected 
(Holt-Lunstad & Smith, 2012). Anxiety and depression 
are two of the most studied of the aforementioned fac-
tors, in terms of both possible etiological influence on 
these diseases and impact on patients’ adjustment, 
recuperation, and prognosis. As such, in addition to their 
etiological impact, it is important to emphasize that 

states of anxiety and depression frequently arise as a 
consequence of cardiovascular disease (Grace et al., 
2005). Approximately 20% of patients develop severe 
depression and another 20% minor depression (Carney & 
Freedland, 2008). Moreover, the appearance of these 
disorders is clearly related to greater problems in the 
rehabilitation process, with various studies demon-
strating that anxiety and depression are risk factors 
significantly increasing patient mortality and morbidity 
(Almeida, Alfonso, Flicker, Hankey, & Norman, 2012; 
Carney & Freedland, 2003; Frasure-Smith & Lespérance, 
2008; Garvey, 2012).

While anxiety and depression may worsen the prog-
nosis for recuperation from the aforementioned diseases 
(Pajak et al., 2013), other factors, in this case environ-
mental and social, have demonstrated an inverse effect. 
The research has afforded particular significance to 
social support, revealing it to be a consistent key factor 
affecting the illness-health process in general (Uchino, 
2004, 2006; Wilkinson & Marmot, 2003) and cardiovas-
cular diseases in particular (Orth-Gomer, 1994). Various 
studies have shown that sufferers of heart attacks with a 
low level of social support have higher rates of post-
heart attack mortality, with consistent findings across 
the research, even where techniques for measuring 
support and composition of groups studied change 
(Berkman, 1995). Along the same lines, an absence of 
social support (social isolation) is linked to a greater risk 
of healthy persons developing cardiovascular disease 
and a worse prognosis for those who have already 
developed the disease (Barth, Scheneider, & Von Känel, 
2010; Mookadam & Arthur, 2004; Peuler, Scotti, Phelps, 
McNeal, & Grippo, 2012; Udell et al., 2012).

Support Groups and Cardiac Rehabilitation: Effects 
of Partner Participation on Anxiety and Depression

Ana Barrón López de Roda1, Esteban Sánchez Moreno2, Isabel Varela Montero3 and Steve Churnin1

1 Universidad Complutense (Spain)
2 Universidad de Tarapacá (Chile)
3 Universidad Alfonso X El Sabio (Spain)

Abstract. This study analyzes the effect on levels of patient anxiety and depression of a partner joining a cardiac reha-
bilitation program support group, also taking into account the sex of the patient. The study was undertaken using a 
two-group comparison design with pre-and post-test measures in non-equivalent groups. The sample comprised 
patients in the cardiac rehabilitation program (CRP) at the Ramón y Cajal Hospital, Madrid (Spain). Analysis of covariance 
(ANCOVA) showed direct effects of sex and partner participation in support groups on the anxiety trait. Similarly, inter-
action effects were observed between the sex variable and partner participation. These results indicate the pertinence of 
designing separate groups for patients and partners.

Received 10 April 2013; Revised 3 June 2013; Accepted 13 September 2013

Keywords: cardiac rehabilitation, support groups, anxiety, depression, partner.

Correspondence concerning this article should be addressed to 
Ana Barrón López de Roda. Departamento de Psicología Social. 
Facultad de Psicología. Universidad Complutense de Madrid. Campus 
de Somosaguas. 28223. Madrid (Spain). Phone: +34–625329857.  
Fax: +34–913942860. 

E-mail: ana.barron@psi.ucm.es
The authors would like to thank members of the cardiac rehabilita-

tion unit of the Ramón y Cajal Hospital, Madrid, for providing access 
to the sample and permitting the collection of data via the protocol 
established for the program.

Author Esteban Sánchez Moreno is professor at the Universidad 
Complutense.

mailto:ana.barron@psi.ucm.es


2  A. Barrón et al.

Social support can encourage health and wellbeing 
by engendering a sense of belonging and closeness or 
developing competence and self-sufficiency (Sánchez & 
Barrón, 2003). It is similarly justifiable to view the rela-
tionship between social support and cardiovascular 
disorders through the prism of its impact on risk fac-
tors such as diet, tobacco and alcohol, rather than as a 
direct relationship (Albus, 2010; Suls & Bunde, 2005). 
Classical hypotheses in the study of social support 
offer empirical evidence showing the direct and protec-
tive impacts of social support on cardiovascular disease. 
Among the possible mechanisms explaining the direct 
effect, it has been hypothesized that positive social 
relationships increase self-esteem, reduce anxiety, raise 
perceived control over an environment, give meaning 
to the social and physical environment, satisfy the need 
to belong, and increase wellbeing (Cohen, 1988; Gorkin, 
Follick, Wilkin, & Niaura, 1994). Various studies have 
returned favorable results regarding the existence of 
this direct effect (Gorkin et al., 1994; Stansfeld, Fuhrer, 
Shipley, & Marmot, 2002).

Social support also has a protective effect, reducing 
feelings of threat in stressful situations by allowing the 
patient to reevaluate the event and thereby reducing 
anxiety. The provision of instrumental assistance reduces 
the impact of the stressor, just as the provision of emo-
tional support following the appearance of a stressor 
can help to alleviate distress, psychological suffering, 
anxiety, and depression, with a consequential reduc-
tion in physiological disturbances. Again, empirical 
evidence supports the existence of these protective 
effects (Orth-Gomer, Rosengren, & Wilhelmsen, 1993; 
Steptoe, 2000; Uchino, Uno, & Holt-Lundstad, 1999).

Of the interventions oriented towards increasing 
social support, support groups have proven effective 
in various contexts, both for mental health (Pistrang, 
Barker, & Humphreys, 2008) and physical health 
(Uchino, 2004). In the case of cardiovascular diseases, 
the literature is relatively scarce, both within and outside 
institutional healthcare contexts (Jackson, Gregory, &  
McKinstry, 2009). However, self-help groups have 
obtained positive results with respect to improvement 
of prognoses and reduction of morbidity and mortality 
rates, due in large measure to their alleviating effect on 
anxiety and depression. There is evidence that patients 
using cardiac rehabilitation services that include 
support groups show higher self-esteem and lower 
anxiety than patients undergoing rehabilitation without 
support groups (Dracup, 1994; Maroto, Artigao, Morales, 
De Pablo, & Abraira, 2005). Among the benefits of 
cardiovascular patients participating in such support 
groups as part of cardiac rehabilitation programs (CRPs) 
are reduced emotional tension, anxiety, confusion, uncer-
tainty, and depression, as well as helping the patient 
confront their situation and improve self-esteem (Clark, 

Hartling, Vandermeer, & McAlister, 2005; Helgeson, 
Cohen, Schulz, & Yasko, 2000).

As a consequence of the abundant empirical evidence 
concerning the particularly significant role of the 
partner as a source of support for patients (Benyamini, 
Medalion, & Garfinkel, 2007; Kärner, Dahlgrem, & 
Bergdahl, 2004; Schokker, Links, Luttik, & Hagedoom, 
2010), support groups frequently include partner 
participation. For patients having suffered acute myo-
cardial infarction, the partner is key to the entire recu-
peration process. However, the usefulness of including 
partners in support groups is not clear, given that the 
empirical evidence shows that a heart attack is one 
of the stressful life events with the greatest impact on 
partners and the family. Problems encountered include 
(a) tension, (b) uncertainty, (c) fear of death, (d) fear of 
change in roles and lifestyle, and (d) financial, sexual, 
and support service-based difficulties. Along these 
lines, it is proven that partners of patients who have 
suffered heart attacks are more vulnerable to various 
disorders and show symptoms of depression and anxiety 
equal to or even greater than the patients themselves 
(Coyne, Ellard, & Smith, 1990; Ell, 1996; Gorkin et al., 
1994).

In 1979, Stern and Pascale proposed the creation  
of educational groups specifically aimed at partners, 
in which they would receive necessary information 
regarding the recuperation process of the patient and 
could openly express their feelings regarding issues 
such as fear of a repeat episode, avoidance of straight-
forward communication due to fear of worrying the 
patient, fear of sexual relations, overprotectiveness, 
and overload. Recent studies, though scarce, confirm 
these results and propose the same solution (Moore, 1996; 
Stewart, Davidson, Meade, Hirth, & Weld-Viscount, 
2001). In summary, there is contradictory evidence con-
cerning whether it is worthwhile including partners in 
patient support groups as part of CRPs.

Our research considers the impact of partner partic-
ipation in support groups on levels of anxiety and 
depression of patients participating in CRPs contain-
ing such support groups. The specific aim is to analyze 
changes experienced in levels of patient anxiety and 
depression as a function of the participation or other-
wise of the partner in the support groups, incorpo-
rating the sex variable into the analysis. It is difficult to 
establish a hypothesis regarding the impact on the patient 
of partner participation in support groups, since as 
previously mentioned, the literature offers contradic-
tory evidence. Bearing in mind that the strong impact 
of cardiopathies on the partner may reduce partner 
effectiveness as a source of support in addition to sug-
gestions in the literature regarding the need to create 
separate groups of patients and partners, we hypothesize 
that those patients attending groups with their partner 



Support Groups and Cardiac Rehabilitation  3

will show greater levels of anxiety and depression than 
those attending alone. Finally, it is not possible to for-
mulate specific hypotheses regarding sex, given that 
the majority of studies focus on samples of males due 
to the greater incidence and prevalence of cardiopathies 
among the male population (Abbey & Stewart, 2000; 
Regitz-Zagrosek, Lehmkuhl, & Weickert, 2006).

To test these hypotheses, we undertook research in 
the only Spanish program including support groups 
within the scope of a CRP. The hospital’s Clinical 
Research Ethics Committee approved the research. 
The unit is multidisciplinary, being composed of four 
cardiologists, one rehabilitative doctor, two psycholo-
gists, one psychiatrist, two nurses, two physiotherapists, 
and one social worker.

The CRP begins two weeks after patient discharge 
from hospital and extends over approximately twelve 
weeks and is divided into three phases: preparatory, 
rehabilitation program and rest of participants’ life. 
This article focuses on phase II. During this phase, sup-
port groups meet on a weekly basis. Patient participa-
tion is obligatory. In other words, the support groups 
form an essential and integral part of the CRP, and 
compliance is required just as it is with other program 
elements. Patient attendance is hence regular and 
structured. Partner participation is voluntary but  
encouraged. Support groups are not split according to 
partner participation, so the same group may contain 
patients attending with or without their partner. The 
sample description provides detailed information on 
participant profiles. Group size varies between 10 and 
15 participants and sessions last an hour. Sessions 
run in accordance with conventional parameters for 
this type of intervention, including the presence of  
a doctor with the sole objective of avoiding the  
improper communication or use of relevant medical 
information.

Method

Sample and Procedure

The sample constituted all the participants in the CRP 
at the time of obtaining the data. This amounted to 546 
persons, of whom 84% were male, 80.8% were married 
or lived with their partner, and 74.4% did not have 
dependent children. Average age was 56 years, with a 
standard deviation of 9.87 and an interval of 34–77 years. 
With regard to work, 11.9% were inactive during pre-
test (T1, phase 1 of CRP) (16.5% in posttest, T2, phase 
2 of CRP), 57.8% on sick leave (53.2% in T2), 25.7% 
retired (25.7% in T2), and 3.7% disabled (3.7% in T2). 
Concerning the type of illness, 66.1% had suffered 
heart attacks, 16.1% angina pectoris, 4% valvular heart 
disease, 1.1% congenital cardiopathy, 5.8% angina 
and heart attack, and 6.7% other cardiopathies. Of the 

participants, 44.2% attended support groups with their 
partner, while the remaining 55.8% went alone.

At the beginning of phase I of the CRP (pretest, T1), 
a group session was convened to explain the aim of 
the study and the measures to be taken, in addition to 
obtaining informed consent and freely given personal 
agreement to participate in the study. The measures in 
the study were naturally thus incorporated into the 
reception protocol for patients in the cardiac rehabilita-
tion unit at the hospital, forming part of the standard 
package of psychological and clinical tests. The ques-
tionnaires were self-completed by the patients in the 
presence of a member of the unit team who would 
intervene only to resolve doubts regarding its comple-
tion. The completion of the range of measures took 
approximately 45 minutes. On completing phase II of 
the CRP (posttest, T2) data were again collected for 
the measures in the study in order to evaluate their 
evolution. The duration established for this phase is 
12 weeks. Questionnaires were self-completed.

Measures and Data Analysis

The State-Trait Anxiety Inventory (STAI)

(Spielberger, Gorsuch, & Lushene, 1970; Spielberger, 
1989). Consists of two 20-item self-report measures. 
The STAI State assesses how respondents feel at the 
moment of responding, while the STAI Trait targets 
how respondents generally feel. The STAI State and 
Trait have each been found to contain two factors, 
which Spielberger labeled anxiety-present and anxiety-
absent. Respondents are asked to rate themselves on 
each item on a four-point Likert scale, ranging from 
not at all to very much so for the STAI State and from 
almost never to almost always for the STAI Trait. The pre-
sent study used the Spanish adaptation developed by 
Bermúdez (1978). The internal consistency of the STAI 
State was 0.929 at baseline (T1) and 0.933 at posttest 
(T2). For the STAI Trait, the internal consistency was 
0.888 (T1) and 0.896 (T2).

The Beck Depression Inventory (BDI-II)

(Beck, Steer, & Brown, 1996), adapted in Spain by 
Sanz, Perdigón, and Vázquez (2003), assesses depres-
sive symptoms longitudinally. The BDI-II is a reliable 
and well-validated 21-item scale using a forced-
choice four-alternative response format. BDI-II and 
the former version (BDI) have been widely used in 
the general population, and in chronic illness popu-
lations including cardiac patients (Frasure-Smith, 
1991; Shnek, Irvine, Stewart, & Abbey, 2001). Higher 
scores reflect greater depressive symptomatology. The 
internal consistency of the BDI was 0.847 at baseline 
(T1) and 0.831 at posttest (T2).



4  A. Barrón et al.

Table 1. Mean and mean differences for pretest and posttest measures of depression and anxiety

Measure T1 Mean (SD) T2 Mean (SD) Mean differences (SE) t-value d

BDI 8.65 (6.81) 7.74 (6.66) 0.91 (0.30) 3.06** .32
STAI-STATE 23.13 (10.43) 19.72 (9.53) 3.41 (0.48) 7.08*** .74
STAI-TRAIT 22.24 (9.88) 19.61 (9.34) 2.63 (0.41) 6.41*** .67

**p < .01 ***p < .001

For data analysis, only those persons who lived with 
their partner were chosen, and then divided into those 
whose partner participated in the support groups and 
those who partner did not attend. Separate analysis of 
covariance (ANCOVA) sets were conducted for male 
and female patients using SPSS v.19. Three outcome 
measures (BDI, STAI Trait, and STAI State) were 
assessed, with pretest scores for each outcome and 
age included as covariates. Age was included to par-
tial out the effects of preintervention, since it was 
not possible to randomize groups. Analyses were 
performed using SPSS 19. This software produces an 
index of effect sizes for linear models, considering 
the partial η2 as a sign of small (.01), medium (.06) and 
large (.14) effects (D’Amico, Neilands, & Zambarano, 
2001).

Results

Prior to the ANCOVA calculation, a t-test was performed 
to determine whether the scores for anxiety-state and 
anxiety-trait depression differed in the pretest measures 
depending on the participation of patient partners. 
The results showed no significant differences for any 
of the variables considered (t = 1.106; p = .161 for 
depression; t = 0.099; p = .921 for anxiety-state; t = 1.544; 
p = .123 for anxiety-trait). However, concerning sex, 
significant differences were found for depression  
(t = 4.640; p < .001; d = .45), anxiety-state (t = 3.852; 
p < .001; d = .41 and anxiety-trait (t = 4.920; p < .001; 
d = .50), with females presenting higher average scores. 
A t-test was also performed (in this case, for paired 
samples) to test the ultimate change in average scores 
of the dependent variables in T1 (on entering the pro-
gram) and T2 (on completing the program). As shown 
in table 1, the results indicate that anxiety and depres-
sion levels were lower on completion than on entering 
the program.

An ANCOVA analysis, as previously outlined, was 
undertaken to test the effect of partner support group 
participation and sex on levels of patient anxiety and 
depression. For the depression measure, direct effects 
were not found for partner participation, F(42, 811) = 
1.59, p = 0.21, or for sex, F(17, 270) = 0.641, p = .42. No 
interaction effect was found, F(4, 649) = 0.173, p = .68.

For anxiety, in its twin dimension of state and trait, 
the results are collected in table 2. With respect to the 
results obtained for STAI State, neither direct nor inter-
action effects were found for the variables in the study. 
On the contrary, the STAI Trait scores clearly show a 
direct effect for partner support group participation. 
The marginal means demonstrate that patients attending 
with partner score more highly on the anxiety-trait 
measure (M = 22.63; p < .05) than patients attending 
without partner (M = 19.57; p < .05). There is also a 
direct effect for the sex variable, with women scoring 
higher (M = 22.96; p < .05) than men (M = 19.25; p < .05). 
Moreover, there is an interaction effect (F(402,17) = 
7.12; p = .008) with partner participation, meaning that, 
as shown in table 3, female patients attending with 
partner score significantly higher (M = 26.48; p < .01) 
for anxiety-trait than males in the same situation  
(M = 18.78; p <.01). There are no significant differences 
for patients, whether male or female, whose partner 
did not attend the groups.

Discussion

As discussed in the first part of this article, there is 
uncertainty regarding the optimum composition of 
support groups. Perhaps the main debate in this con-
text is whether it is useful to include patient partners in 
support groups, or, conversely, create separate groups 
for patients and partners. The results obtained in our 
research appear to confirm our initial hypothesis for 
anxiety-trait. Rather than partner participation in sup-
port groups having beneficial effects for patients, our 
results in fact show the opposite: partner participation 
has a negative effect on the reduction of levels of 
anxiety, as indicated by previous studies (Moore, 1996; 
Stewart et al., 2001). Specifically, partner participation 
in support groups tends to reduce the positive effect of 
such groups on anxiety-trait.

Possible explanations for the data are manifold. To 
the extent that groups focus exclusively on patients’ 
problems, there is no positive effect for the partners 
but rather a constant exposure to a highly important 
stressor. Moreover, new issues related to the illness 
may come to light through the support groups, leading 
partners to use coping strategies to manage their own 
anxiety that interfere with the recuperation and 



Support Groups and Cardiac Rehabilitation  5

adaptation of patients, such as overprotectiveness, a 
coping mechanism frequently used by partners of cardi-
opathic patients. The problem stems from the evi-
dence that this form of coping has a major negative 
impact on patient adjustment to the illness (Coyne & 
DeLongis, 1986; Ell, 1996), given that it limits the 
p a t i e n t ’ s  
autonomy and personal responsibility in terms of their 
own care. Thus, the partner can end up becoming a 
source of stress for the patient.

This coping style also influences the patient’s sense 
of self-efficacy, which has been shown to be one of the 
best predictors of patient adjustment (Coyne et al., 
1990). In a well-known study, Taylor, Bandura, Ewart, 
Miller, and DeBusk (1985) show that the patient’s per-
ceived self-efficacy influences performance in strength 
tests. Moreover, the partner’s perceived efficacy is a 
determinant of the patient’s perceived self-efficacy, 
leading the authors to conclude that interventions 
need to be designed not only for patients but also for 
partners. It thus seems that, in effect, partners can stop 
fulfilling their role as principal source of support,  

interfering in the optimal provision of social support 
in the context of support groups.

That our results show higher anxiety scores for women 
suggests that when designing interventions it is necessary 
to bear sociodemographic characteristics in mind – or 
at least that of sex. In this regard, Stewart et al. (2001), 
working with a support group for patients having 
suffered acute myocardial infarction, show that a per-
ceived lack of similarity with peers regarding said vari-
ables made social comparison and identification difficult, 
these latter aspects being mentioned unprompted by 
all participants as one of the principal benefits of the 
intervention.

The interaction our results show between partner 
participation and sex may be interpreted along the same 
lines, as when patients are female, levels of anxiety-
trait are particularly high among those attending sup-
port groups with their partners. Nonetheless, recent 
research instead highlights the importance of identi-
fication with the group. This is seen in the work of 
Wakefield, Bickley, and Sani (2013), who found a  
relationship between the aforementioned variable and 
lower scores for anxiety and depression in a sample of 

Table 2. ANCOVA results for anxiety

Mean T1 (SE) Mean T2 (SE) F p-value η2

STAI-STATE
Attending partner 22.76 (1.90) 21.31 (1.56) 0.635 0.426 0.001
Non-attending partner 24.82 (0.74) 19.97 (0.61)
Male 22.20 (0.64) 19.28 (0.53) 2.613 0.107 0.006
Female 25.38 (1.93) 22.00 (1.57)
Partner * Sex 2.008 0.157 0.005
STAI-TRAIT
Attending partner 23.62 (1.78) 22.63 (1.40) 4.174 0.042 0.01
Non-attending partner 24.10 (0.70) 19.57 (0.55)
Male 21.10 (0.60) 19.25 (0.47) 6.027 0.014 0.014
Female 26.62 (1.81) 22.96 (1.42)
Partner * Sex 7.122 0.008 0.017

df = 4. Estimated marginal means are reported. Covariates are pretest measure and age.

Table 3. Marginal means for interaction between attending partner and sex of patient

STAI-STATE STAI-TRAIT

Mean T1 (SE) Mean T2 (SE) Mean T1 (SE) Mean T2 (SE)

Male
Attending partner 22.09 (1.13) 18.76 (0.83) 20.69 (1.06) 18.78 (0.83)*
Non-attending partner 22.30 (0.61) 19.80 (0.50) 21.51 (0.57) 19.72 (0.45)
Female
Attending partner 23.44 (3.62) 23.86 (2.98) 26.56 (3.40) 26.48 (2.66)*
Non-attending partner 27.33 (1.35) 20.14 (1.13) 26.69 (1.27) 19.43 (1.01)

*p < .01



6  A. Barrón et al.

patients afflicted by multiple sclerosis, identification 
with the group being greater in the case of women. 
Perhaps this argument may be applied to partner par-
ticipation in support groups. One may hence hypothe-
size that male partners identify less with the support 
group than female partners, which would explain 
why, in our study, women attending with their part-
ner benefited less than men attending with their 
partner (or were even negatively affected). This line 
of research is particularly intriguing and relatively 
undeveloped.

In summary, our results support the classic position 
of Stern and Pascale (1979) suggesting that the appro-
priate strategy for the partner to recover their role as 
key source of social support does not merely consist of 
including partners in groups designed for patients, but 
rather requires that groups be specifically designed for 
partners, focusing on the problems they may encoun-
ter in coping with their partner’s cardiac illness.

All the above is applicable to the analysis of anxiety, 
but our study did not find direct or interaction effects 
for the variables considered with respect to depres-
sion. This result, though surprising, may be explained 
by the nature and characteristics of the rehabilitation 
process for a cardiac illness: daily, continuous, chronic 
stress and tension (Avison & Turner, 1988). It is possible 
to hypothesize that these characteristics affect certain 
types of social support and not others. In this regard, 
partner attendance or non-attendance at support groups 
may have an impact on certain support functions and 
not others. Specifically, it does not appear to neces-
sarily affect what Brown and Harris (1978), in their 
classic study, labeled intimacy, a fundamental source of 
emotional support and hence clearly linked to depres-
sion (Antonucci, Fuhrer, & Dartigues, 1997). In other 
words, it may be hypothesized that partner participa-
tion in support groups would negatively affect certain 
of the mechanisms outlined by Thoits (2011), such as 
sense of control or mastery, behavioral guidance, or social 
control – but not others (specifically those related in 
large measure to depression), such as purpose and 
meaning, or belonging and companionship.

With regard to the limitations of the study, it is  
appropriate to highlight that the posttest measures 
were taken a relatively short period of time after the 
pretest collection of data. The evaluation of the effects 
of patient and partner support group participation is 
hence limited to a relatively short period. The evalua-
tion also took place immediately following the conclu-
sion of the CRP, for which reason it is not possible to 
reach any conclusions regarding longer term effects. 
This aspect is currently the object of further research.

It is also appropriate to consider the role that other 
variables not considered in our study may play, such 
as the length of the relationship with the partner or the 

existence of other medical conditions. It should also be 
borne in mind that partner participation was voluntary, 
a fact that may have caused an element of bias in the 
sample.

Given the importance of reducing levels of anxiety 
for cardiopathic patients, with the aim of reducing 
morbidity and mortality rates by improving the effec-
tiveness of CRPs, it must be considered fundamental 
that the partner maintains their role as principal pro-
vider of social support. Support groups as a main 
intervention strategy based on social support have 
been shown to be effective in terms of reducing anxiety 
and depression. However, in the case of cardiopathies, 
it appears necessary to design separate groups for 
patients and partners, allowing the latter to properly 
manage the problems associated with this pathology. 
There would be a double effect. First, partners of car-
diopathic patients could develop better coping strat-
egies. Second, as a consequence, partners would provide 
better social support to patients, enabling a better 
adjustment to the illness.

References

Abbey S. E., & Stewart D. E. (2000). Gender and 
psychosomatic aspects of ischemic heart disease. Journal of 
Psychosomatic Research, 48, 417–423. http://dx.doi.org/
10.1016%2FS0022-3999%2899%2900112-9

Albus C. (2010). Psychological and social factors in 
coronary heart disease. Annals of Medicine, 42, 487–494. 
http://dx.doi.org/10.3109%2F07853890.2010.515605

Almeida O. P., Alfonso H., Flicker L., Hankey G. J., & 
Norman P. E. (2012). Cardiovascular disease, depression 
and mortality: The health in men study. American Journal 
of Geriatric Psychiatry, 20, 433–440. http://dx.doi.org/
10.1097%2FJGP.0b013e318211c1ed

Antonucci T. C., Fuhrer R., & Dartigues J. (1997). Social 
relations and depressive symptomatology in a sample of 
community-dwelling French older adults. Psychology and 
Aging, 12, 189–195. http://dx.doi.org/10.1037%2F%
2F0882-7974.12.1.189

Avison W. R., & Turner R. J. (1988). Stressful life events 
and depressive symptoms: Disaggregating the effects of 
acute stressors and chronic strains. Journal of Health and 
Social Behaviour, 29, 253–264. http://dx.doi.org/
10.2307%2F2137036

Barth J., Schneider S., & Von Känel R. (2010). Lack of social 
support in the etiology and prognosis of coronary heart 
disease: A systematic review and meta-analysis. 
Psychosomatic Medicine, 72, 229–238. http://dx.doi.org/
10.1097%2FPSY.0b013e3181d01611

Beck A. T., Steer R. A., & Brown G. K. (1996). BDI-II. Beck 
Depression Inventory-Second Edition. Manual. San Antonio, 
TX: The Psychological Corporation.

Benyamini Y., Medalion B., & Garfinkel D. (2007). Patient 
and spouse perceptions of the patient’s heart disease and 
their associations with received and provided social 

http://dx.doi.org/10.1016%2FS0022-3999%2899%2900112-9
http://dx.doi.org/10.1016%2FS0022-3999%2899%2900112-9
http://dx.doi.org/10.3109%2F07853890.2010.515605
http://dx.doi.org/10.1097%2FJGP.0b013e318211c1ed
http://dx.doi.org/10.1097%2FJGP.0b013e318211c1ed
http://dx.doi.org/10.1037%2F%2F0882-7974.12.1.189
http://dx.doi.org/10.1037%2F%2F0882-7974.12.1.189
http://dx.doi.org/10.2307%2F2137036
http://dx.doi.org/10.2307%2F2137036
http://dx.doi.org/10.1097%2FPSY.0b013e3181d01611
http://dx.doi.org/10.1097%2FPSY.0b013e3181d01611


Support Groups and Cardiac Rehabilitation  7

support and undermining. Psychology and Health, 22, 
765–785. http://dx.doi.org/10.1080%2F14768320601070639

Bermúdez J. (1978). Análisis funcional de la ansiedad 
[Functional analysis of anxiety]. Revista de Psicología 
General y Aplicada, 33, 617–634.

Berkman L. F. (1995). The role of social relations in health 
promotion. Psychosomatic Medicine, 57, 245–254.

Brown G. W., & Harris T. (1978). Social origins of depression. 
A study of psychiatric disorder in women. London, UK: 
Tavistock.

Carney R. M., & Freedland K. E. (2003). Depression, 
mortality, and medical morbidity in patients with coronary 
heart disease. Biological Psychiatry, 54, 241–247. http://
dx.doi.org/10.1016%2FS0006-3223%2803%2900111-2

Carney R. M., & Freedland K. E. (2008). Depression in 
patients with coronary heart disease. American Journal of 
Medicine, 121, S20–S27. http://dx.doi.org/10.1016%2Fj.
amjmed.2008.09.010

Clark A. M., Hartling L., Vandermeer B., & McAlister F. A. 
(2005). Meta-analysis: Secondary prevention programs for 
patients with coronary artery disease. Annals of Internal 
Medicine, 143, 659–672. http://dx.doi.org/10.7326/
0003-4819-143-9-200511010-00010

Cohen S. (1988). Psychosocial models of the role of social 
support in the etiology of physical disease. Health 
Psychology, 7, 269–297. http://dx.doi.org/10.1037%2F%
2F0278-6133.7.3.269

Coyne J. C., & DeLongis A. (1986). Going beyond social 
support: The role of social relationships in adaptation. 
Journal of Consulting and Clinical Psychology, 54, 454–460. 
http://dx.doi.org/10.1037%2F%2F0022-006X.54.4.454

Coyne J. C., Ellard J. H., & Smith A. F. (1990). Social 
support, interdependence and the dilemmas of helping.  
In B. R. Sarason, I. G. Sarason, & G. P. Pierce. (Eds.), Social 
support: An interactional view (pp 129–149). New York, NY: 
Wiley.

D’Amico E. J., Neilands T. B., & Zanbarano R. (2001). 
Power analysis for multivariate and repeated measures 
designs: A flexible approach using the SPSS MANOVA 
procedure. Behaviour Research Methods, Instruments, & 
Computers, 33, 479–484. http://dx.doi.org/10.3758/
BF03195405

Dracup K. (1994). Cardiac rehabilitation. The role of social 
support in recovery and compliance. In S. A. Shumaker, & 
S. M. Czajkoeski (Eds.), Social Support and cardiovascular 
disease (pp. 333–354). New York, NY: Plenum Press.

Ell K. (1996). Social networks, social support and coping 
with serious illness: The family connection. Social Science 
and Medicine, 42, 173–183. http://dx.doi.org/
10.1016%2F0277-9536%2895%2900100-X

Frasure-Smith N. (1991). In-hospital symptoms of 
psychological stress as predictors of long-term outcome 
after acute myocardial infarction in men. American Journal 
of Cardiology, 67, 121–127. http://dx.doi.org/
10.1016%2F0002-9149%2891%2990432-K

Frasure-Smith N., & Lespérance F. (2008). Depression and 
anxiety as predictors of 2-year cardiac events in patients 
with stable coronary artery disease. Archives of General 
Psychiatry, 65, 62–71. http://dx.doi.org/10.1001%2Farchge
npsychiatry.2007.4

Garvey C. (2012). Depression in patients with chronic 
obstructive pulmonary disease. Postgraduate Medicine, 124, 
101–109. http://dx.doi.org/10.3810%2Fpgm.2012.05.2553

Gorkin L., Follick M. J., Wilkin D. L., & Niaura R. (1994). 
Social support and the progression and treatment  
of cardiovascular disease. In S. A. Shumaker &  
S. M. Czajkoeski (Eds.), Social Support and cardiovascular 
disease (pp 281–300). New York, NY: Plenum Press.

Grace S. L., Abbey S. E., Pinto R., Shnek Z. M., Irvine J., & 
Stewart D. E. (2005). Longitudinal course of depressive 
symptomatology after a cardiac event: Effects of gender 
and cardiac rehabilitation. Psychosomatic Medicine, 67, 
52–58. http://dx.doi.org/10.1097%2F01.psy.0000151486. 
28349.70

Helgeson V. S., Cohen S., Schulz R., & Yasko J. (2000). 
Group support interventions for women with Breast 
Cancer: Who benefits from what?. Health Psychology, 19, 
107–114. http://dx.doi.org/10.1037%2F%2F0278-6133. 
19.2.107

Holt-Lunstad J., & Smith T. B. (2012). Social relationships 
and mortality. Social and Personality Psychology Compass, 
6, 41–53. http://dx.doi.org/10.1111%2Fj.1751-9004.
2011.00406.x

Jackson A. M., Gregory S., & McKinstry B. (2009). 
Self-help groups for patients with coronary heart  
disease as a resource for rehabilitation and secondary 
prevention—what is the evidence?. Heart & Lung: The 
Journal of Acute and Critical Care, 38, 192–200. http://dx.
doi.org/10.1016%2Fj.hrtlng.2009.01.009

Kärner A. M., Dahlgren M. A., & Bergdahl B. (2004). 
Rehabilitation after coronary heart disease: Spouses’ views 
of support. Journal of Advanced Nursing, 46, 204–211. 
http://dx.doi.org/10.1111%2Fj.1365-2648.2003.02980.x

Maroto J. M., Artigao R., Morales M. D., De Pablo C., & 
Abraira V. (2005). Cardiac rehabilitation in patients 
with myocardial infarction: A 10-year follow-up study. 
Revista Española de Cardiología (English edition), 
58, 1181–1187. http://dx.doi.org/10.1016%2
FS1885-5857%2806%2960397-6

Mookadam F., & Arthur H. M. (2004). Social support and 
its relationship to morbidity and mortality after acute 
myocardial infarction. Archives of Internal Medicine, 
164, 1514–1518. http://dx.doi.org/10.1001%2Farchin
te.164.14.1514

Moore S. M. (1996). Women’s views of cardiac rehabilitation 
programs. Journal of Cardiopulmonary Rehabilitation, 16, 
123–129. http://dx.doi.org/10.1097%2F00008483- 
199603000-00007

Orth-Gomer K. (1994). International epidemiological 
evidence for a relationship between social support and 
cardiovascular disease. In S. A. Shumaker & S. M. 
Czajkoeski (Eds.), Social Support and cardiovascular disease 
(pp 97–118). New York, NY: Plenum Press.

Orth-Gomer K., Rosengren A., & Wilhelmsen L. (1993). 
Lack of social support and incidence of coronary heart 
disease in middle-aged Swedish men. Psychosomatic 
Medicine, 55, 37–43.

Pajak A., Jankowski P., Kotseva K., Heidrich J., 
de Smedt D., & De Bacquer D. (2013). Depression, 
anxiety, and risk factor control in patients after 

http://dx.doi.org/10.1080%2F14768320601070639
http://dx.doi.org/10.1016%2FS0006-3223%2803%2900111-2
http://dx.doi.org/10.1016%2FS0006-3223%2803%2900111-2
http://dx.doi.org/10.1016%2Fj.amjmed.2008.09.010
http://dx.doi.org/10.1016%2Fj.amjmed.2008.09.010
http://dx.doi.org/10.7326/0003-4819-143-9-200511010-00010
http://dx.doi.org/10.7326/0003-4819-143-9-200511010-00010
http://dx.doi.org/10.1037%2F%2F0278-6133.7.3.269
http://dx.doi.org/10.1037%2F%2F0278-6133.7.3.269
http://dx.doi.org/10.1037%2F%2F0022-006X.54.4.454
http://dx.doi.org/10.3758/BF03195405
http://dx.doi.org/10.3758/BF03195405
http://dx.doi.org/10.1016%2F0277-9536%2895%2900100-X
http://dx.doi.org/10.1016%2F0277-9536%2895%2900100-X
http://dx.doi.org/10.1016%2F0002-9149%2891%2990432-K
http://dx.doi.org/10.1016%2F0002-9149%2891%2990432-K
http://dx.doi.org/10.1001%2Farchgenpsychiatry.2007.4
http://dx.doi.org/10.1001%2Farchgenpsychiatry.2007.4
http://dx.doi.org/10.3810%2Fpgm.2012.05.2553
http://dx.doi.org/10.1097%2F01.psy.0000151486.28349.70
http://dx.doi.org/10.1097%2F01.psy.0000151486.28349.70
http://dx.doi.org/10.1037%2F%2F0278-6133.19.2.107
http://dx.doi.org/10.1037%2F%2F0278-6133.19.2.107
http://dx.doi.org/10.1111%2Fj.1751-9004.2011.00406.x
http://dx.doi.org/10.1111%2Fj.1751-9004.2011.00406.x
http://dx.doi.org/10.1016%2Fj.hrtlng.2009.01.009
http://dx.doi.org/10.1016%2Fj.hrtlng.2009.01.009
http://dx.doi.org/10.1111%2Fj.1365-2648.2003.02980.x
http://dx.doi.org/10.1016%2FS1885-5857%2806%2960397-6
http://dx.doi.org/10.1016%2FS1885-5857%2806%2960397-6
http://dx.doi.org/10.1001%2Farchinte.164.14.1514
http://dx.doi.org/10.1001%2Farchinte.164.14.1514
http://dx.doi.org/10.1097%2F00008483-199603000-00007
http://dx.doi.org/10.1097%2F00008483-199603000-00007


8  A. Barrón et al.

hospitalization for coronary heart disease: The 
EUROASPIRE III Study. European Journal of Preventive 
Cardiology, 20, 331–340. http://dx.doi.org/10.1177%
2F2047487312441724

Peuler J. D., Scotti M. A., Phelps L. E., McNeal N., & 
Grippo A. J. (2012). Chronic social isolation in the prairie 
vole induces endothelial dysfunction: Implications for 
depression and cardiovascular disease. Physiology & 
Behaviour, 106, 476–484. http://dx.doi.org/10.1016%2Fj.
physbeh.2012.03.019

Pistrang N., Barker C., & Humphreys K. (2008). Mutual 
help groups for mental health problems: A review of 
effectiveness studies. American Journal of Community 
Psychology, 42, 110–121. http://dx.doi.org/10.1007%2
Fs10464-008-9181-0

Regitz-Zagrosek V., Lehmkuhl E., & Weickert M. O. (2006). 
Gender differences in the metabolic syndrome and their 
role for cardiovascular disease. Clinical Research in 
Cardiology, 95, 136–147. http://dx.doi.org/10.1007%2
Fs00392-006-0351-5

Sánchez E., & Barrón A. (2003). Social psychology of mental 
health: The social structure and personality perspective. 
The Spanish Journal of Psychology, 6, 3–11.

Sanz J., Perdigón A. L., & Vázquez C. (2003). Adaptación 
española del Inventario para la Depresión de Beck-II 
(BDI-II): 2. Propiedades psicométricas en población 
general [Spanish Adaptation of the Beck-II Depression 
Inventory (BDI-II): 2. Psychometric properties in the 
general population]. Clínica y Salud, 14, 249–280.

Schokker M. C., Links T. P., Luttik M. L., & Hagedoom M. 
(2010). The association between regulatory focus and distress 
in patients with a chronic disease: The moderating role of 
partner support. British Journal of Health Psychology, 15, 63–78. 
http://dx.doi.org/10.1348%2F135910709X429091

Shnek Z. M., Irvine J., Stewart D. E., & Abbey S. E. (2001). 
Psychological factors and depressive symptoms in 
ischemic heart disease. Health Psychology, 20, 141–145. 
http://dx.doi.org/10.1037%2F%2F0278-6133.20.2.141

Spanish National Statistics Institute (2012). Deaths by cause 
of death. Madrid, Spain: Author. Retrieved from http://
www.ine.es/jaxi/menu.do?type=pcaxis&path=%2Ft15%2
Fp417&file=inebase&L=1

Spielberger C. D. (1989). State–Trait Anxiety Inventory: 
A comprehensive bibliography. Palo Alto, CA: Consulting 
Psychologists Press.

Spielberger C. D., Gorsuch R. L., & Lushene R. E. (1970). 
STAI: manual for the state-trait anxiety inventory. Palo Alto, 
CA: Consulting Psychologists Press.

Stansfeld S., Fuhrer R., Shipley M., & Marmot M. (2002). 
Psychological distress as a risk factor for coronary heart 
disease in the Whitehall II study. International Journal 
of Epidemiology, 31, 248–255. http://dx.doi.org/
10.1093%2Fije%2F31.1.248

Steptoe A. (2000). Stress, social support and cardiovascular 
activity over the working day. International Journal of 

Psychophysiology, 37, 299–308. http://dx.doi.org/10.1016%
2FS0167-8760%2800%2900109-4

Stern M. J., & Pascale L. (1979). Psychosocial adaptation 
to post-myocardial infarction: The spouse’s dilemma. 
Journal of Psychosomatic Research, 23, 83–87. http://
dx.doi.org/10.1016%2F0022-3999%2879%2990076-X

Stewart M., Davidson K., Meade D., Hirth A., & 
Weld-Viscount P. (2001). Group support for couples 
coping with a cardiac condition. Journal of Advanced 
Nursing, 33, 190–199. http://dx.doi.org/10.1111%2Fj.
1365-2648.2001.01652.x

Suls J., & Bunde J. (2005). Anger, anxiety, and depression as 
risk factors for cardiovascular disease: The problems and 
implications of overlapping affective dispositions. 
Psychological Bulletin, 131, 260–300. http://dx.doi.org/
10.1037%2F0033-2909.131.2.260

Taylor C. B., Bandura A., Ewart C. K., Miller N. H., & 
DeBusk R. F. (1985). Exercise testing to enhance wives’ 
confidence in their husbands’ cardiac capability soon after 
clinically uncomplicated acute myocardial infarction. 
American Journal of Cardiology, 55, 635–638. http://dx.doi.
org/10.1016%2F0002-9149%2885%2990127-4

Thoits P. A. (2011). Mechanisms linking social ties and 
support to physical and mental health. Journal of Health and 
Social Behaviour, 52, 145–161. http://dx.doi.org/10.1177%
2F0022146510395592

Uchino B. N. (2004). Social support and physical health. 
Understanding the health consequences of relationships. 
New Haven, UK: Yale University Press.

Uchino B. N. (2006). Social support and health: 
A review of physiological processes potentially 
underlying links to disease outcomes. Journal of 
Behavioural Medicine, 29, 377–387. http://dx.doi.org/
10.1007%2Fs10865-006-9056-5

Uchino B. N., Uno D., & Holt-Lunstad J. (1999). Social 
support, physiological processes and health. Current 
Directions in Psychological Science, 8, 145–148. http://dx.
doi.org/10.1111/1467-8721.00034

Udell J. A., Steg P. G., Scirica B. M., Smith S. C., Ohman E. M., 
Eagle K. A., … Bhatt D. L. (2012). Living alone and 
cardiovascular risk in outpatients at risk of or with 
Atherothrombosis. Archives of Internal Medicine, 172, 
1086–1095.

Wakefield J. R. H., Bickley S., & Sani F. (2013). The effect of 
identification with a support group on the mental health 
of people with multiple sclerosis. Journal of Psychosomatic 
Research, 74, 420–426. http://dx.doi.org/10.1016/j.
jpsychores.2013.02.002

Wielgosz A. T., & Nolan R. P. (2000). Biobehavioral factors 
in the context of ischemic cardiovascular diseases. Journal 
of Psychosomatic Research, 48, 339–345. http://dx.doi.org/
10.1016%2FS0022-3999%2899%2900093-8

Wilkinson R., & Marmot M. (2003). Social determinants of 
health. The solid facts (2nd Ed.). Copenhagen, Denmark: 
WHO Regional Office for Europe.

http://dx.doi.org/10.1177%2F2047487312441724
http://dx.doi.org/10.1177%2F2047487312441724
http://dx.doi.org/10.1016%2Fj.physbeh.2012.03.019
http://dx.doi.org/10.1016%2Fj.physbeh.2012.03.019
http://dx.doi.org/10.1007%2Fs10464-008-9181-0
http://dx.doi.org/10.1007%2Fs10464-008-9181-0
http://dx.doi.org/10.1007%2Fs00392-006-0351-5
http://dx.doi.org/10.1007%2Fs00392-006-0351-5
http://dx.doi.org/10.1348%2F135910709X429091
http://dx.doi.org/10.1037%2F%2F0278-6133.20.2.141
http://www.ine.es/jaxi/menu.do?type=pcaxis%26path=%2Ft15%2Fp417%26file=inebase%26L=1
http://www.ine.es/jaxi/menu.do?type=pcaxis%26path=%2Ft15%2Fp417%26file=inebase%26L=1
http://www.ine.es/jaxi/menu.do?type=pcaxis%26path=%2Ft15%2Fp417%26file=inebase%26L=1
http://dx.doi.org/10.1093%2Fije%2F31.1.248
http://dx.doi.org/10.1093%2Fije%2F31.1.248
http://dx.doi.org/10.1016%2FS0167-8760%2800%2900109-4
http://dx.doi.org/10.1016%2FS0167-8760%2800%2900109-4
http://dx.doi.org/10.1016%2F0022-3999%2879%2990076-X
http://dx.doi.org/10.1016%2F0022-3999%2879%2990076-X
http://dx.doi.org/10.1111%2Fj.1365-2648.2001.01652.x
http://dx.doi.org/10.1111%2Fj.1365-2648.2001.01652.x
http://dx.doi.org/10.1037%2F0033-2909.131.2.260
http://dx.doi.org/10.1037%2F0033-2909.131.2.260
http://dx.doi.org/10.1016%2F0002-9149%2885%2990127-4
http://dx.doi.org/10.1016%2F0002-9149%2885%2990127-4
http://dx.doi.org/10.1177%2F0022146510395592
http://dx.doi.org/10.1177%2F0022146510395592
http://dx.doi.org/10.1007%2Fs10865-006-9056-5
http://dx.doi.org/10.1007%2Fs10865-006-9056-5
http://dx.doi.org/10.1111/1467-8721.00034
http://dx.doi.org/10.1111/1467-8721.00034
http://dx.doi.org/10.1016/j.jpsychores.2013.02.002
http://dx.doi.org/10.1016/j.jpsychores.2013.02.002
http://dx.doi.org/10.1016%2FS0022-3999%2899%2900093-8
http://dx.doi.org/10.1016%2FS0022-3999%2899%2900093-8