SAJSM  VOL. 25  NO. 2  2013   55

REVIEW

Breast cancer is one of the most common cancers worldwide, and statistics reveal that the number of women diagnosed with breast cancer 
in South Africa is increasing. As such, medical practitioners will treat an increasing number of breast cancer patients. Although increasingly 
effective treatments improve patient survival intervals, a significant number of patients experience psychological distress, at the time 
of diagnosis and sometimes well beyond the start of treatment. This can be attributed to the disease itself and to treatment side-effects. 
Historically, patients experiencing such distress have been treated with pharmacotherapy or have been referred for psychotherapeutic 
intervention. Although it is well known that physical exercise is beneficial to physical health, only recently, and comparatively, has the effect 
of exercise been recognised as beneficial to psychological well-being. Cancer patients are often advised to reduce physical activity to avoid 
cancer-related fatigue. Paradoxically, recent research shows that physical exercise, of the type and intensity appropriate for the ability of each 
patient, can in fact play a significant role in improving mood and aiding physical recovery. This opens up a valuable additional resource 
to augment patients’ quality of life, both physically and psychologically. One precaution stands vitally important, however: the prescribed 
exercise regimen must be tailored to the physical capabilities of the patient.

S Afr J SM 2013;25(2):55-59. DOI:10.7196/SAJSM.481

Exercise effects on mood in breast cancer patients
H M van Oers, MA (Couns Psych) 

Durban Oncology Centre, Durban, South Africa

Corresponding author: H M van Oers (fransvo@dtinc.co.za)

With over 1 million new cases diagnosed worldwide 
per annum, breast cancer continues to be the most 
common cancer affecting women. Unfortunately, 
surviving this cancer often means enduring significant 
and prolonged forms of adjuvant therapy, primarily 

radiation, chemotherapy and hormone therapy. These treatments, 
although increasingly effective in improving patient survival intervals, 
are toxic in numerous ways and produce negative short- and long-
term physiological and psychological effects.[1] Nearly all cancer 
survivors experience physiological and psychological symptoms and 
side-effects related to the disease or its treatment.[2] Treatment-related 
symptoms, mood distress and decline in physical activity have all been 
found to be major problems encountered by cancer patients.[3] 

While mortality decreases, the increase in cancer incidence means 
that the number of women receiving adjuvant cancer treatment, 
and living with the associated side-effects, is increasing. Therapy-
related negative side-effects include physiological and psychological 
symptoms such as pain, fatigue, muscle wasting, decreased cardiac 
function and psychological distress. Each symptom can contribute to 
a significant impairment of quality of life (QoL), and in some cases, 
affect prognosis.[3,4] Depression is associated with chemotherapy 
non-compliance and reduced 5-year survival rates.[2] Attention to 
psychological status is therefore an essential part of effective oncology 
treatment. However, in many instances, psychological distress is 
under-diagnosed and -treated due to time constraints, or because 
oncologists do not address or endorse this aspect of therapy. 

Treatment effects on quality of life
Physiological sequelae
Differing treatment modalities can result in various physiological 
side-effects. Chemotherapy (e.g. anti-metabolites, anthracyclines and 

alkylators) is used to control suspected micrometastatic disease and 
typically consists of 6 - 8 cycles of polychemotherapy administered 
over approximately 21 weeks. Radiation is used following most breast-
conserving surgical procedures to control local disease and usually 
consists of daily treatment over a 6-week period. Fatigue is a common 
side-effect of both of these treatment modalities.[5] Chemotherapy has 
the further potential to cause decreased cardiorespiratory fitness and 
even cardiotoxicity in some patients, whereas radiation can also lead 
to irreversible lung fibrosis. Oral hormone therapy (progestins or 
anti-oestrogens administered daily over a 5-year period) may cause 
ovarian ablation in pre-menopausal women, whereas the aromatase 
enzyme inhibitors prescribed for post-menopausal women may lead 
to fatigue and weight gain. Physical and functional deficits may also 
include asthenia, ataxia, muscle weakness and atrophy, hair-loss, 
sleep disturbances, nausea and vomiting, and pain. Many of these 
side-effects are common to patients with other cancers, but breast 
cancer patients face the additional burden of limited arm movement, 
lymphoedema of the arm, possible impaired cognitive function, 
weight gain and osteoporosis.[6] In combination, these co-morbid 
effects can have a significant negative effect on QoL.[3,7] 

Psychological sequelae
Recent studies have estimated the prevalence of depression, 
including major and minor depressive episodes and dysthymia, to 
be in the order of 20%, and the prevalence of anxiety disorders to 
be approximately 10%.[8] Depression is characterised by feelings of 
sadness, hopelessness, changes in sleep and eating habits, psychomotor 
retardation and withdrawal from social contacts, which in turn lead 
to a deterioration of QoL, and impaired social and occupational 
functioning. [7] Cancer patients may show scores twice as high as those 
of the general population on the anxiety and depression subscales 

mailto:fransvo@dtinc.co.za


56   SAJSM  VOL. 25  NO. 2  2013

of the Hospital Anxiety and Depression Scale.[4] Other psychological 
and emotional side-effects experienced by cancer patients include 
stress, fear of death, poor body image, low self-esteem, loneliness and 
a sense of loss of control over life.[2,3] One study[9] found a similar 
deterioration in fatigue and QoL measures in breast cancer patients 
shortly after completing adjuvant therapies. QoL impairment was also 
strongly associated with scores on depression, as well as fatigue.[9] 

Despite an inconclusive relationship between psychological distress 
and cancer survival, a review of available research relating to breast 
cancer shows that most studies indicate a significant relationship 
between psychological factors and survival.[10,11] Clinical depression 
is associated with non-compliance with cancer treatment and 
reduced survival, emphasising that depression negatively affects the 
psychological and physical health of many patients.[2,7] This underlines 
the role of psychological factors in cancer survival and emphasises 
the need for optimal supportive care to facilitate positive effects on 
such prognostic factors. It is clear that the appropriate management 
of psychological distress is of clinical importance, and it is vital that 
oncology healthcare professionals are aware of the importance of 
patients’ psychological functioning.

Current treatments for anxiety and depression in cancer patients 
include pharmacotherapy and psychotherapeutic interventions. For 
many, these treatments are safe, effective and provide significant 
improvements; however, there are some patients in whom these 
existing interventions are less effective due to personal, behavioural or 
organic factors. For example, selective serotonin-reuptake inhibitors 
(SSRIs) may be contraindicated in patients receiving hormone 
blockade therapies. In the general population, exercise acts as an 
effective antidepressant; it may therefore serve as an alternative form 
of treatment to provide symptom relief for depression and anxiety and 
improve physical health outcomes in cancer patients.[7,10] 

The effects of exercise on mood
It is well known that physical exercise is beneficial to the body, but it 
is only recently, and comparatively, that the effect of exercise has been 
studied in terms of its effect on mood. Mental and physical health are 
closely associated and can exert a significant effect on one another: 
mental health can be affected positively by physical exercise, and 
conversely, patients involved in physical rehabilitation tend to exhibit 
better compliance with, and make greater advances in treatment when 
they feel positive.[12]

Exercise increases blood flow and circulation, can improve memory 
function and provides a feeling of general well-being. There is growing 
evidence that physical activity and exercise have positive effects on 
mood in general, and on depression and anxiety in particular.[7,13-17]

The manner in which exercise improves psychological well-being is 
explained by a neurobiological response and how physical exertion 
relates to the fight-or-flight response. 

Most research has focused on hormonal reaction to increased 
physical activity, in particular the increased levels of beta-endorphins, 
encephalins, catecholamines and serotonin. Endorphins are released 
by the pituitary gland during sustained vigorous exercise. These serve 
to reduce stress, decrease appetite and improve immune function. 
Serotonin, together with norepinephrine, is a neurotransmitter 
that regulates mood and can affect anxiety mechanisms, thoughts 
and sleep patterns. Studies have shown that low concentrations of 

serotonin cause symptoms of depression. The mechanisms involved 
in the increase of serotonin levels after exercise may be the result 
of motor activity increasing the firing rates of serotonin neurons, 
causing an increase in its release and synthesis. By increasing in 
concentration, these neurotransmitters serve to improve mood and 
decrease symptoms of depression.[2,18] 

In the general population, exercise is an effective antidepressant; 
individuals with moderate to more severe depression benefit 
comparably, and exercise is equally effective for men and women 
across a wide range of ages. These effects have been found to be 
comparable with psychotherapy and medication, particularly for 
those with mild to moderate depression.[7] The antidepressant effects 
of exercise have also been shown to last long beyond the exercise 
period.[13] Yet, while the majority of studies concur regarding the 
positive effects of physical activity on mood, there is still uncertainty 
regarding which form of exercise is best for improving mood and 
mental health, and the specific effects of different types of exercise.[19]

Effects of different forms of exercise
The main forms of exercise are aerobic and anaerobic. Aerobic 
exercise occurs when oxygen is metabolised to produce energy. This 
is generally attained through sustained periods of hard work and 
vigorous activity lasting longer than 3 minutes at a time. Anaerobic 
exercise refers to physical exertion where the energy required to 
produce this activity is provided independently of oxygen. This type 
of exercise uses short bursts of vigorous activity and typically lasts less 
than a minute. There are also alternative forms of activity that do not 
readily fall into the definitions of aerobic or anaerobic, but which also 
have the potential to affect mood and emotional well-being (e.g. yoga 
and meditation).[12]

Research suggests that aerobic exercise has the greatest mood-
elevating effects when performed continuously over an extended period 
of time, where the release of endorphins is responsible for the feel-good 
effect or ‘runner’s high’ that athletes experience after bouts of vigorous 
activity.[12] In addition to this endorphin-related positive effect, cortisol 
levels are altered by exercise: 30 minutes of moderate aerobic activity 
can reduce cortisol levels, higher levels of which are associated with 
negative affective states. This reduction may partly explain the mood-
elevating effects of physical activity. A factor influencing the degree to 
which aerobic exercise is beneficial appears to be the intensity: low- to 
moderate-intensity exercise has been shown to be effective in reducing 
both anxiety and depression,[20] whereas high-intensity exercise has 
been found in some instances to induce the opposite effect and increase 
levels of anxiety.[21] Furthermore, moderate-intensity exercise may 
produce more sustained psychological benefits, probably because it is 
easier to maintain over longer periods of time.[12]

It is generally believed that anaerobic exercise provides similar 
mood-enhancing effects to aerobic exercise only when performed at 
high-intensity levels. This is possibly due to the build-up of lactate in 
the muscles. While most studies show no difference between these 
two forms of exercise in terms of their mood-elevating potential, some 
studies have shown that anaerobic exercise does not confer the mood-
elevating effects attributed to aerobic exercise.[22] Higher-intensity 
anaerobic exercises are more likely to lead to injuries, such as muscle 
tears and strains; as such, this aspect may outweigh its benefits with 
respect to positive emotional effects.[12]



SAJSM  VOL. 25  NO. 2  2013   57

Additionally, low-intensity aerobic exercises such as yoga and tai chi 
have been found to have positive effects on psychological functioning, 
leading to decreases in anxiety. Tai chi, as a slower and less intense 
aerobic exercise, has been found to be a suitable alternative for patients 
not capable of more intensive exercise programmes.[12]

Exercise and the cancer patient
Until recently, patients were often advised to reduce their levels of 
physical activity and to seek more frequent periods of rest in order to 
counteract cancer-related fatigue. Paradoxically, such a decrease in 
physical activity can, in fact, compound symptoms of fatigue, since 
a more sedentary lifestyle induces muscle catabolism and may cause 
further deficits in functional capacity. There is growing scientific 
evidence that exercise can substantially reduce cancer-related fatigue, 
which is linked to psychological distress, and improve QoL.[23,24]

Several studies have shown that exercise is likely to mediate fatigue, 
anxiety, depression and QoL in cancer patients.[3,7,25-27] One study 
found that exercise leads to significant decreases in fatigue, anxiety and 
depression in breast cancer patients receiving adjuvant therapy, with 
greater decreases with low weekly exercise doses. The study stated that 
a 20-week exercise programme comprised of a session of resistance 
training for principal muscle groups and 2 moderate-intensity aerobic 
sessions per week, each lasting 30 - 45 minutes, would be optimal in 
effecting positive mood change in these patients. This was found to 
be preferable to a higher-dose intervention.[4] Another study found 
that light- to moderate-intensity aerobic exercise decreased anxiety in 
a sample of breast cancer patients, and indicated that this may be a 
valuable anxiolytic tool.[28] 

Other research showed that exercise produced modest effects on 
depression in breast cancer patients across various disease stages. [7] Nine 
studies of breast cancer patients were reviewed; all included programmes 
of aerobic and strength-training components initiated either prior to, 
or during adjuvant treatment. The review did not target depression 
through the selection of depressed cancer patients or by selecting 
exercises known to have the greatest effects on depression in other 
populations; therefore, in reality, the positive effects may be even greater 
for patients actually experiencing significant depression and targeted 
with exercise interventions effecting optimal change. These findings 
indicated that exercise produced the largest antidepressant effects 
when carried out over sessions longer than 30 minutes, and in terms of 
frequency, exercising 5 times per week was significantly more effective 
than 2 - 4 days weekly. In terms of intensity, it was found that light- to 
moderate-intensity exercise proved to be an effective antidepressant; 
with respect to breast cancer patients, light-intensity programmes are 
preferable as they are easier to incorporate into patient routines, and 
therefore result in greater compliance and exercise frequency.

Stagl[26] found that women who exercised the most between 
surgery and starting treatment were the least affected by depression 
and fatigue.  More physically active patients tended to exhibit greater 
confidence in their ability to continue with their routine domestic, 
occupational and social activities. This, in turn, brought about greater 
feelings of satisfaction and led to appraisals of less depression and 
higher QoL. The recommended levels of exercise were 20 minutes 
daily for the greatest benefit, but exercising every other day also 
proved to be therapeutic. The study emphasised that exercise can take 
many forms, e.g. jogging, cycling and swimming.[26] 

Whereas most studies focus on exercise as a planned activity with the 
goal of achieving fitness, one study found that other forms of physical 
exertion, including occupational and household activities, were also 
effective in alleviating symptoms of psychological distress.[23] Patients 
involved in any form of physical activity were less likely to report 
anxiety and depression in a preceding 30-day period, than those who 
were totally sedentary. The study found moderate-intensity activity 
to be optimal for breast cancer patients, with multiple short bouts of 
activity resulting in the greatest improvements.[23]

Regarding the aforementioned studies, the timing of exercise 
interventions and whether patients received adjuvant treatment in the 
post-diagnostic period need to be considered. Some studies examined 
exercise effects in patients receiving adjuvant treatment, while the 
patients in other studies had completed active treatment. Some research 
found that treatment status at baseline was not significant. This suggests 
that exercise may lessen symptoms of depression among patients who 
are undergoing treatment during exercise interventions, compared with 
those who are not. For many patients, depression may resolve after 
diagnosis and treatment, but for many it may persist or even develop 
after the treatment period is over.[7] 

While there is general consensus regarding the efficacy of exercise 
as a mediator of psychological distress in breast cancer patients, the 
majority of studies acknowledge that any form of recommended activity 
of necessity must consider the limitations placed on each patient in 
terms of their physical status in response to their disease and specific 
oncological treatment. Recommendations should be tailored for each 
patient with respect to the intervention period, i.e. during v. post-
adjuvant therapy, in terms of the exercise type and intensity that the 
patient is able to tolerate. One study states that the specific beneficial 
effects of exercise, both during and after treatment, may vary as a 
function of the stage of disease, the nature of the medical treatment 
and the current lifestyle of the patient.[29] 

Patients receiving adjuvant therapy experience patterns of fatigue 
that increase with chemotherapy cycles and peak 5 days after therapy 
administration. Exercise programmes for such patients need to be 
adapted to progressively low to moderate doses of exercise across 
chemotherapy cycles, with fewer exercise sessions in the 10-day period 
following infusion, increasing to more frequently in the days thereafter. 
It has further been found that low doses of exercise (90 - 120 minutes 
of moderate exercise weekly) are more effective than higher doses.[4] 

Breast cancer patients can adhere to a conventional exercise pro-
gramme, even during adjuvant treatment. There is evidence to 
suggest that walking is the natural choice for most patients, and that 
cycle ergonometry offers the advantages of a sitting position and leg 
exercises (minimising ataxia, limitations in upper-body movement 
and lymphoedema). Upper-body exercises are not contraindicated, 
but patients should be advised that wearing a compression sleeve on 
the arm of the affected side is a wise precaution.[27]

Cancer patients who are able to, should exercise aerobically (e.g. 
brisk walking or static cycling) for 20 - 60 minutes 3 - 5 days weekly. 
More debilitated patients should be advised to engage in several 
shorter exercise sessions per day, and that the exercise programme can 
progress as the patient becomes fitter. Most importantly, the physician 
should always be aware that every patient will adapt differently to 
the exercise stimulus and goals; physical tolerance and age should 
determine individual rate of progress.[1]



58   SAJSM  VOL. 25  NO. 2  2013

Some studies have found that the location and supervision of the 
exercise intervention are important; the greatest optimal effects have 
been observed in patients who participate in programmes that are 
supervised and exercise in facilities. Home-based and unsupervised 
exercise interventions have, in fact, been associated with an increase 
in depressive symptoms.[2,7]

Contraindications to exercise
Medical screening is an essential aspect of prescribing an exercise 
programme for any cancer patient. Several medical factors constitute 
general contraindications to exercise: cardiovascular insufficiency, such 
as acute myocarditis or recent myocardial infarction; acute infectious 
diseases; metabolic diseases such as thyrotoxicosis; and any physical 
impairment leading to inability to exercise.[1]

In addition to these general contraindications, certain precautions 
are specific to cancer patients. Exercise should be avoided 24 hours 
prior to intravenous chemotherapy. Exercise should also be avoided at 
least 2 hours after either chemotherapy infusion or radiation therapy, 
as increased circulation may affect treatment. Anaemic patients 
should avoid exercise until the anaemia has improved. Onset of nausea 
during exercise and vomiting within 24 - 36 hours of exercise, feelings 
of unusual fatigue or muscle weakness, blurred vision, faintness or any 
pain unassociated with injury are also regarded as contraindications 
to continued exercise. 

In addition, immune-compromised patients should avoid public 
gyms until their white blood cell count returns to safer levels.[1]

Further research
There is some disparity in the literature about the effectiveness of 
exercise in terms of different sub-populations. For example, age, socio-
economic status, ethnicity and employment status are not included or 
accounted for in the majority of studies. A recent study found that 
women of low socio-economic status with breast cancer have an 
increased risk of developing depression, and that the symptom burden 
may differ by socio-economic status and ethnicity. For example, older 
African-American patients who were unemployed were 3 times more 
likely to become depressed than those who were employed. Another 
study found differences in levels of activity and QoL between white 
breast cancer patients and patients from minority groups. Physical 
activity was associated with increased QoL in white patients, but not in 
minority group women.[30] More research is needed to better identify 
and treat breast cancer patients at risk for psychological distress.

While there has been some research on the use of exercise as an 
intervention for breast cancer patients in South Africa (SA), much of 
this literature is focused on the physiological improvements that an 
exercise intervention can confer within the context of physiotherapy 
and rehabilitation,[31] or the positive effects on brain function. [32] 
There seems to be a dearth of research into the efficacy of such 
interventions as a therapeutic option for psychological distress on 
the SA population; much less so on the oncology patient population, 
especially given the diversity of composite ethnicities, cultures and 
socio-economic groups. As stated above, several studies have noted 
that socio-economic and employment status as well as cultural factors 
were found to be considerations in terms of risk of depression and 
symptom burden. Many SA patients may benefit considerably from 
an exercise intervention that may be more cost-effective and attainable 

than medication and has the benefit of providing a means of improving 
their health on multiple levels.

Conclusion
It has been known for some time that physical activity exerts a positive 
effect on mood in the general population, and with later research, 
that it holds promise for improving symptoms of psychological 
distress in oncology patients. What is becoming increasingly 
clear is that exercise may be a valuable addition to the therapeutic 
resources of physicians and oncology healthcare professionals. Where 
depression and anxiety in cancer patients have historically been 
treated using pharmacotherapy or psychotherapy, recommending 
an exercise programme may contribute significantly to physical and 
psychological well-being in a non-intrusive, non-toxic and accessible 
manner. Importantly though, certain caveats remain: physical status 
must be regarded as paramount in terms of the type and quantity 
of exercise that the breast cancer patient is capable of performing, 
given the limitations imposed by surgery, lymphoedema, treatment-
related fatigue and pre-diagnostic levels of fitness. Further research 
is needed to identify appropriate exercise regimens for different sub-
populations of breast cancer patients to optimise the benefits of such 
an intervention.

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