Hostname: page-component-76fb5796d-r6qrq Total loading time: 0 Render date: 2024-04-25T07:53:52.172Z Has data issue: false hasContentIssue false
  • English
  • Français

Physical exercise as an add-on treatment to cognitive behavioural therapy for anxiety: a systematic review

Published online by Cambridge University Press:  08 March 2021

Kristian Pihl Frederiksen ,
Silje Haukenes Stavestrand Open the ORCID record for Silje Haukenes Stavestrand [Opens in a new window] ,
Simen Kildahl Venemyr ,
Kristine Sirevåg  and
Anders Hovland
Kristian Pihl Frederiksen*
Affiliation:
Diakonhjemmet Hospital, Oslo, Norway
Silje Haukenes Stavestrand
Affiliation:
Solli District Psychiatric Centre (DPS), Nesttun, Norway Department of Clinical Psychology, University of Bergen, Bergen, Norway
Simen Kildahl Venemyr
Affiliation:
Bærum District Psychiatric Centre (DPS), Gjettum, Norway
Kristine Sirevåg
Affiliation:
Solli District Psychiatric Centre (DPS), Nesttun, Norway Department of Clinical Psychology, University of Bergen, Bergen, Norway
Anders Hovland
Affiliation:
Solli District Psychiatric Centre (DPS), Nesttun, Norway Department of Clinical Psychology, University of Bergen, Bergen, Norway
*
*Corresponding author. Email: kristian.pihl.frederiksen@gmail.com
Rights & Permissions [Opens in a new window]

Abstract

Background:

Cognitive behavioural therapy (CBT) is currently the treatment of choice for most anxiety disorders. Yet, with recovery rates of approximately 50%, many patients fail to achieve complete remission. This has led to increased efforts to enhance treatment efficacy. Physical exercise (PE) has in recent years been advocated as means to augment the effects of CBT for anxiety disorders. PE appears to reduce anxiety through other mechanisms than CBT, some of which might also have the potential to augment the effects of psychological treatment.

Aims:

The current review aimed to summarize and discuss the current research status on CBT augmented with PE for anxiety.

Method:

A systematic literature search was conducted in the databases PsychInfo, Medline and Web of Science to evaluate the potential augmentative effect of combining PE with CBT for anxiety disorders. These effects were intended to be evaluated in a meta-analysis, but findings from the few and diverse studies were better summarized in a systematic review.

Results:

Eight articles were included in this review, of which two had no control group, while six had from two to four experimental arms. Six of the studies concluded in favour of benefits of add-on PE, while two studies found no added benefits of the combined interventions.

Conclusions:

The combination of PE and CBT appears feasible. Add-on PE seems to be more beneficial for clinical populations, when administered regularly several times per week, across several weeks. Future studies should investigate further how and for whom to best combine PE and CBT.

Keywords

anxietyCBTcognitive behavioural therapyphysical exercise
Type
Main
Information
Behavioural and Cognitive Psychotherapy , Volume 49 , Issue 5 , September 2021 , pp. 626 - 640
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of the British Association for Behavioural and Cognitive Psychotherapies

Introduction

Anxiety disorders

Anxiety disorders are the most frequent of all mental disorders, with an estimated global current prevalence of 7.3% (Baxter et al., Reference Baxter, Scott, Vos and Whiteford2013), and 12-month prevalence estimates ranging from 14% (Wittchen et al., Reference Wittchen, Jacobi, Rehm, Gustavsson, Svensson, Jönsson and Steinhausen2011) to 22.2% (Kessler et al., Reference Kessler, Petukhova, Sampson, Zaslavsky and Wittchen2012), indicating that anxiety disorders affect a large proportion of the population across the lifetime, and are a large societal burden. If left untreated, most anxiety disorders have a chronic course (Craske et al., Reference Craske, Stein, Eley, Milad, Holmes, Rapee and Wittchen2017), and often lead to a high degree of impairment for the individual and a great economic burden for society (Bandelow and Michaelis, Reference Bandelow and Michaelis2015).

Cognitive behavioural therapy (CBT) and pharmacological treatments are the treatments of choice for anxiety disorders (National Institute for Health and Clinical Excellence, 2011, 2013), with both yielding significant symptom reduction for all anxiety disorders compared with control conditions (Bandelow et al., Reference Bandelow, Reitt, Röver, Michaelis, Görlich and Wedekind2015; Mayo-Wilson et al., Reference Mayo-Wilson, Dias, Mavranezouli, Kew, Clark, Ades and Pilling2014). In this review, we will focus on the psychological treatment for anxiety disorders with the highest level of evidence, namely CBT (Bandelow et al., Reference Bandelow, Michaelis and Wedekind2017; Kaczkurkin and Foa, Reference Kaczkurkin and Foa2015; Mayo-Wilson et al., Reference Mayo-Wilson, Dias, Mavranezouli, Kew, Clark, Ades and Pilling2014).

The effects of CBT treatment on anxiety disorders are widely studied and documented in several meta-analyses. CBT for anxiety disorders yield large effect sizes (Bandelow et al., Reference Bandelow, Reitt, Röver, Michaelis, Görlich and Wedekind2015), ranging from small to large on CBT for different anxiety diagnoses compared with placebo for the different disorders (Carpenter et al., Reference Carpenter, Andrews, Witcraft, Powers, Smits and Hofmann2018; Wolitzky-Taylor et al., Reference Wolitzky-Taylor, Horowitz, Powers and Telch2008), and with remission rates of 48% at post-treatment and 54% at follow-up assessments for intent to treat samples (Springer et al., Reference Springer, Levy and Tolin2018). Although the effectiveness of CBT for anxiety disorders is well documented, the reported findings indicate that half of patients do not achieve full remission, meaning that half of patients still qualify for an anxiety disorder or have anxiety symptoms above clinical cut-off at the end of treatment. In a review of non-adherence and non-response in the treatment of anxiety disorders, Taylor et al. (Reference Taylor, Abramowitz and McKay2012) report drop-out rates ranging from 9 to 21%, and concluded that many patients fail to achieve clinically significant improvements. They suggest augmenting CBT with other interventions as an option for overcoming non-response (Taylor et al., Reference Taylor, Abramowitz and McKay2012).

During the last decade, there has been increasing interest in how to optimize the efficacy of CBT. Studies have investigated add-on pharmacological interventions, such as using NMDA-partial agonist d-cycloserine to increase learning (Mataix-Cols et al., Reference Mataix-Cols, Fernández de la Cruz, Monzani, Rosenfield, Andersson, Pérez-Vigil and Thuras2017; Pittig et al., Reference Pittig, van den Berg and Vervliet2016), and cognitive interventions such as executive skills training for late-life generalized anxiety disorder (Mohlman, Reference Mohlman2008; Mohlman et al., Reference Mohlman, Gorenstein, Kleber, de Jesus, Gorman and Papp2003). The current review focuses on studies investigating the potential effects of physical exercise (PE) as an add-on intervention to CBT for anxiety disorders.

Physical exercise

PE has been thoroughly documented to be an efficacious treatment for depression (Kvam et al., Reference Kvam, Kleppe, Nordhus and Hovland2016; Schuch et al., Reference Schuch, Vancampfort, Richards, Rosenbaum, Ward and Stubbs2016), and in a recent meta-review, PE was found to be overall beneficial for a number of mental health problems (Czosnek et al., Reference Czosnek, Lederman, Cormie, Zopf, Stubbs and Rosenbaum2019). PE consists of both aerobic and resistance training, and can be performed in a variety of modalities such as running, walking and strength exercise training (American College of Sports Medicine, 2000). Rosenbaum et al. (Reference Rosenbaum, Tiedemann, Ward, Curtis and Sherrington2015) argue that PE is still widely under-utilized for mental health problems, while cross-sectional studies indicate an association between low physical activity and increased anxiety levels (Goodwin, Reference Goodwin2003; Stubbs et al., Reference Stubbs, Koyanagi, Hallgren, Firth, Richards, Schuch and Vancampfort2017). Several reviews and meta-analyses have summarized the effects of PE in treatment of anxiety disorders (see e.g. Asmundson et al., Reference Asmundson, Fetzner, DeBoer, Powers, Otto and Smits2013; Aylett et al., Reference Aylett, Small and Bower2018; Bartley et al., Reference Bartley, Hay and Bloch2013; Kandola et al., Reference Kandola, Vancampfort, Herring, Rebar, Hallgren, Firth and Stubbs2018; Stonerock et al., Reference Stonerock, Hoffman, Smith and Blumenthal2015). These articles highlight different aspects of PE, and generally point to an anxiolytic effect of PE. In their review from 2013, Asmundson and colleagues identified that a wide variety of exercise modalities (walking, running, resistance training, yoga and tai chi) were related to anxiety reduction. Kandola and colleagues (Reference Kandola, Vancampfort, Herring, Rebar, Hallgren, Firth and Stubbs2018) summarize that PE seems to be a beneficial and cost-effective intervention with anxiolytic effects, in addition to the beneficial physiological effects of PE.

The effect of exercise on anxiety reduction seems to be dependent on several factors. Previous literature suggests that exercise is best administered after exposure sessions (Roquet and Monfils, Reference Roquet and Monfils2018; Tanner et al., Reference Tanner, Hake, Bouchet and Greenwood2018), that exercise needs to exceed 10 weeks in order for anxiety reductions to occur (Petruzzello et al., Reference Petruzzello, Landers, Hatfield, Kubitz and Salazar1991), with a duration of at least 30 minutes (Herring et al., Reference Herring, O’Connor and Dishman2010), and that the optimal exercise frequency for anxiety reduction is three or four times per week (Wipfli et al., Reference Wipfli, Rethorst and Landers2008). A recent meta-analysis also suggests that high intensity PE is more effective than low intensity for anxiety reduction (Aylett et al., Reference Aylett, Small and Bower2018).

While it has been demonstrated that PE can effectively reduce levels of anxiety, it has been recommended as an add-on intervention to evidence-based treatments rather than a stand-alone treatment for anxiety disorders (Bartley et al., Reference Bartley, Hay and Bloch2013; Stonerock et al., Reference Stonerock, Hoffman, Smith and Blumenthal2015). Several of the proposed mechanisms related to anxiety reduction from PE appear to differ from the mechanisms behind the effects of CBT and pharmacotherapies. Asmundson and colleagues (Reference Asmundson, Fetzner, DeBoer, Powers, Otto and Smits2013) and Kandola and colleagues (Reference Kandola, Vancampfort, Herring, Rebar, Hallgren, Firth and Stubbs2018) summarize the proposed mechanisms for anxiety reduction for exercise. The physiological mechanisms include regulation of stress through the hypothalamic–pituitary–adrenal axis, improving hippocampal plasticity and function, reducing the levels of inflammatory proteins, and regulation of neurotransmitters and neuropeptides such as brain derived neurotrophic factor (BDNF). The psychological mechanisms suggested are improved cognitive functioning, self-efficacy and mastery, improved sleep, improvements in positive affect and reduction in negative affect, exposure to bodily symptoms, reduced anxiety sensitivity and habituation. BDNF reliably increases from PE (Szuhany et al., Reference Szuhany, Bugatti and Otto2015), and has specifically been highlighted as a potential mechanism for improving the effects of other exposure-based therapies, such as CBT (Kobayashi et al., Reference Kobayashi, Shimizu, Hashimoto, Mitsumori, Koike, Okamura and Iyo2005). The positive effects of PE on cognition and executive functions have also been related to the potential augmentative effects PE on CBT (Stavestrand et al., Reference Stavestrand, Sirevåg, Nordhus, Sjøbø, Endal, Nordahl and Hovland2019), as effective executive functioning appears an important pre-requisite for effective cognitive restructuring (Mohlman, Reference Mohlman2008; Yochim et al., Reference Yochim, Mueller and Segal2013). As such, PE could potentially be a potent and beneficial add-on intervention to augment the effect of CBT or pharmacotherapies.

Few previous studies have investigated the combined effects of CBT and PE for anxiety and related disorders. A meta-analysis by Bernard and colleagues (Reference Bernard, Romain, Caudroit, Chevance, Carayol, Gourlan and Moullec2018) investigated the combined effects of CBT and PE for adults with chronic disease and concluded that their findings did not support an additive effect of CBT and PE for anxiety, depression, fatigue or pain. However, anxiety was not the primary target in this sample.

This review aims to summarize and discuss the current research status on CBT augmented with PE for anxiety. Although several reviews and meta-analyses have touched upon the issues we wanted to investigate, it seems to us that the specific strategy of combining PE with CBT for anxiety has not been the main focus in any of these articles. As such, we wanted to review existing literature to answer two separate research questions:

  1. (1) By assessing both controlled and uncontrolled studies, is PE feasible as an add-on intervention to CBT for patients with anxiety in terms of treatment adherence and dropout rates?

  2. (2) In patients suffering from anxiety, is adding PE to CBT more efficacious in reducing anxiety than either CBT alone or CBT combined with a control condition?

Method

We have applied the Population, Intervention, Comparison and Outcome Study (PICOS) (Tacconelli, Reference Tacconelli2010) framework to form the research questions and inform the literature search and selection of studies for this review.

Identification of studies

We conducted a systematic search using the databases PsycINFO, Medline and Web of Science. An overview of all the search terms, subject headings and mesh terms can be found in Appendix A (see Supplementary material). The search consisted of two search stems: ‘anxiety disorders’ and ‘physical exercise’. All alternative search terms within the two search stems were combined with the Boolean operator ‘OR’. We then combined the two search stems using the Boolean operator ‘AND’. The final search was done on 10 August 2018 in the listed databases. We were also informed of subsequent publications based on the search strategy through email alerts from each of the databases. Email alerts were disabled on 19 November 2018. Where necessary information regarding study design or results was not provided in the article, the first author was contacted by email. The systematic search identified 13 reviews of PE and anxiety (Asmundson et al., Reference Asmundson, Fetzner, DeBoer, Powers, Otto and Smits2013; Cavarretta et al., Reference Cavarretta, Hall and Bixby2018; da Silva et al., Reference da Silva, Ravindran and Ravindran2009; DeBoer et al., Reference DeBoer, Powers, Utschig, Otto and Smits2012; de Souza Moura et al., Reference de Souza Moura, Lamego, Paes, Ferreira Rocha, Simoes-Silva, Rocha and Machado2015; Hales and Travis, Reference Hales and Travis1987; Herring et al., Reference Herring, O’Connor and Dishman2010; Jayakody et al., Reference Jayakody, Gunadasa and Hosker2014; Kandola et al., Reference Kandola, Vancampfort, Herring, Rebar, Hallgren, Firth and Stubbs2018; Kerr and Vlaswinkel, Reference Kerr and Vlaswinkel1990; Martinsen, Reference Martinsen2003; Powers et al., Reference Powers, Asmundson and Smits2015; Stonerock et al., Reference Stonerock, Hoffman, Smith and Blumenthal2015). These reviews were assessed to identify additional relevant papers. Two articles (Lambert et al., Reference Lambert, Harvey and Poland2007; Oldridge et al., Reference Oldridge, Guyatt, Jones, Crowe, Singer, Feeny and Torrance1991) were identified as potentially relevant, and these were evaluated according to the same criteria as articles identified through our own systematic search.

Selection of studies

Following duplicate removal, the first and third authors independently reviewed the titles and abstracts from the initial search and excluded the studies that did not fulfil the inclusion criteria. Any disagreements regarding inclusion were discussed and consensus was reached. Both authors then read the full text of the included studies. Studies assessed to meet inclusion criteria after reading the full text were included for the review. In cases of doubt, the second author was consulted for a third opinion regarding if the study met inclusion criteria.

Inclusion criteria

Only peer-reviewed articles published in English, Norwegian, Danish or Swedish language were included, due to the nationality of the authors. Studies were included in the review if they met the following criteria according to the PICOS framework (Tacconelli, Reference Tacconelli2010).

  1. (1) Population: adults with anxiety disorders (specific phobia, panic disorder, social anxiety disorder, agoraphobia, generalized anxiety disorder) determined by either clinician assessment or questionnaire, or sub-clinical anxiety symptoms, i.e. elevated levels of anxiety below the clinical cut-off scores on the respective self-report measures.

  2. (2) Intervention: PE as add-on intervention to CBT. PE interventions were operationalized according to the definition of PE as physical activity consisting of planned, structured and repetitive movements, aimed at improving and/or maintaining physical fitness (Caspersen et al., Reference Caspersen, Powell and Christenson1985). The specific content of PE included, but was not limited to, running, sports, resistance training and walking programmes. Interventions could be supervised or home-based. We made no restrictions regarding format, frequency, intensity or duration of the intervention.

  3. (3) Comparison: the PE+CBT intervention group was compared with CBT+control intervention, CBT alone, or no comparison.

  4. (4) Outcome: change in anxiety levels as measured by change in score on self-report questionnaires or as determined through clinical interviews.

  5. (5) Study: randomized and non-randomized clinical studies with multiple participants.

Exclusion criteria

Studies were excluded if anxiety was not the primary target for the intervention. Studies with several confounding interventions were excluded. Studies that described the PE intervention as mainly relaxation exercises (such as deep breathing exercises, progressive relaxation, meditation, mindfulness or low impact yoga) were excluded. Single case studies were excluded.

Quality assessment

We assessed study quality using the Jadad scale for reporting randomized controlled trials (Jadad et al., Reference Jadad, Moore, Carroll, Jenkinson, Reynolds, Gavaghan and McQuay1996). The Jadad scale is intended to measure the quality of randomized controlled trials by focusing on random assignment, double blinding and the flow of patients. A thorough description of the Jadad scale, and assessment of each included study, can be found in Appendix B (see Supplementary material).

Results

Characteristics of included studies

We included eight studies with a total of 431 subjects for the planned meta-analysis (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). Figure 1 displays the selection of studies from a total of 11,437 articles identified through systematic search.

Figure 1. Flow chart of selection process.

Table 1 displays characteristics of the included studies. The studies varied greatly regarding study design, sample size, diagnoses, clinical vs non-clinical population, pharmacological treatment, duration of intervention, type of CBT intervention, type of PE intervention, administration of PE intervention and study quality. The studies were considered too few and diverse to be meaningfully assessed in a meta-analysis and were instead evaluated in a systematic review.

Table 1. Overview of included studies, characteristics and conclusions

*Primary outcome measure; **secondary outcome measure; —, not reported. Abbreviations: Ger, Germany; UK, United Kingdom; Nor, Norway; US, United States; Aus, Australia; Can, Canada; M, mean; PD, panic disorder; AG, agoraphobia; GAD, generalized anxiety disorder; SAD, social anxiety disorder; VR, virtual reality; Ham-A, Hamilton Anxiety Rating Scale; MI, Mobility Inventory; PAS, Panic and Agoraphobia Scale; ACQ, Agoraphobic Cognitions Questionnaire; BSQ, Bodily Sensations Questionnaire; BAI, Beck Anxiety Inventory; PASc, Panic Attack Scale; AQ, Acrophobia Questionnaire; ATHI, Attitudes Towards Heights Inventory; CGI, Clinical Global Impression Scale; STAI-S, State Trait Anxiety Inventory State; STAI-T, State Trait Anxiety Inventory Trait; DASS-21, Depression, Anxiety and Stress Scale-21 Items; PRCS, Personal Report of Confidence as a Speaker questionnaire; S-RI, S-R Inventory of Anxiousness; FSS-II, Fear Survey Schedule II.

Design

Two studies were pilot studies without a control group (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015). One ‘pilot RCT’ had two experimental arms comparing add-on PE to add-on educational group (Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). Three RCTs had two experimental arms comparing either add-on PE with add-on sedentary intervention (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017), or add-on moderate intensity PE to add-on low intensity PE (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015). Two RCTs had four experimental arms, comparing CBT+PE to CBT alone, PE alone, or placebo (McEntee and Halgin, Reference McEntee and Halgin1999; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987).

Sample

Three studies had mainly non-clinical samples recruited from universities and surrounding communities (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). Five studies had clinical samples recruited from specialized outpatient clinics (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). The specific diagnoses are listed in Table 1.

Psychological interventions

The included studies varied regarding the psychological interventions employed. Four studies used a group-based CBT format (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; McEntee and Halgin, Reference McEntee and Halgin1999; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), and four studies used individual CBT (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). The individually administered CBT interventions included exposure-based CBT (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018), internet-based CBT (Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015), virtual reality exposure therapy (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017) and imaginal exposure therapy (Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987).

PE interventions

The included studies varied in terms of both the content and administration of the exercise interventions.

Content

Three studies described the intervention as moderate intensity aerobic exercise (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; McEntee and Halgin, Reference McEntee and Halgin1999), one as an hour in the gym with experiments to test catastrophic beliefs (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004), one as endurance and interval training with high intensity (Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015), one as walking (Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), one as vigorous aerobic exercise (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017), and one study describes the exercise intervention as ergometer cycling with gradually increasing workload (Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). Four studies (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; McEntee and Halgin, Reference McEntee and Halgin1999) based their training programmes on recommendations by the American College of Sports Medicine (ACSM) (2000), and one study (Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008) based the training programme on the Australian physical activity recommendations (Commonwealth Department of Health and Ageing, 1999).

Administration

Four studies administered PE as an add-on intervention in parallel to the CBT intervention, during the full treatment period (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; McEntee and Halgin, Reference McEntee and Halgin1999; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). In these studies, the participants exercised between three and five times per week, and the add-on PE can as such be labelled as ‘regular PE’. One of these studies also specifically instructed participants to keep exercising one month after end of treatment (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015).

Three studies administered PE in connection with exposure sessions. In two studies, participants exercised prior to the exposure session (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017), and in the third of these studies participants exercised during the exposure session (Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). The add-on PE in these studies targeted enhancing the effects of exposure therapy by using the beneficial effects of acute PE and can therefore be labelled ‘acute PE’.

In one study, patients with panic disorder went to the gym directly after CBT sessions, to test catastrophic beliefs regarding their bodily anxiety symptoms (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004). Thus, this use of PE can be labelled ‘behavioural experiment’.

Control conditions

Two of the included studies were pilot or feasibility studies without a control condition (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015).

Six of the included studies had control conditions. As with the PE interventions, the control conditions vary regarding content and administration.

Content

Two studies (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015) had low-intensity PE as control condition. One study had educational group meetings focused on healthy eating (Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). One study had a weekly discussion group unrelated to the treatment (McEntee and Halgin, Reference McEntee and Halgin1999). In one study, the control group sat still on the ergometer bike, while listening to the neutral imagery (Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). In the study by Jacquart and colleagues (Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017), participants in the control condition watched a comedy television show of their choosing, prior to treatment.

Administration

Four studies administered the control condition as an add-on to the therapeutic intervention (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). Two studies administered the control condition without any therapeutic intervention (McEntee and Halgin, Reference McEntee and Halgin1999; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). All the studies with a control condition administered it with the same frequency as the supervised PE intervention, with the exception of Merom and colleagues (Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), who had three educational meetings as control for weekly PE. The unsupervised PE was not controlled for in any of the studies.

Feasibility and drop-out

Among the included studies, four studies (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999) reported overall drop-out rates within or below the expected drop-out range for anxiety disorders of 9–21% identified in the review by Taylor and colleagues (Reference Taylor, Abramowitz and McKay2012). One study did not mention drop-out rates (Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987), while three studies had high post-measure drop-out rates of 33.8% (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018), 46.6% (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004) and 45% (Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). Six of the eight studies (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987) indicated that the combination was feasible for the patients and that the combination did not affect treatment compliance.

Efficacy of PE as an add-on intervention to CBT

Studies without a control group

Hovland and colleagues (Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015) have published preliminary results of a feasibility study on combining internet-based CBT with PE for panic disorder. Cromarty and colleagues (2004) conducted a pilot study on group CBT combined with PE for participants with panic disorder with or without agoraphobia. Both studies concluded that the combination of PE and CBT is meaningful and potentially beneficial. However, they are careful not to draw firm conclusions due to the nature of the study designs.

Studies with a control group

Two studies clearly concluded with no beneficial add-on effects of PE to CBT for anxiety (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999). Two studies had ambiguous results and argued that PE potentially has beneficial add-on effects (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). Bischoff and colleagues (Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018) identified a trend towards significance on general anxiety measures in favour of the addition of moderate intensity compared with the addition of low intensity exercise. The difference faded at follow-up. Schwartz and Kaloupek (Reference Schwartz and Kaloupek1987) found additional effects of exercise on imaginal exposure limited to subjective units of distress (Wolpe, Reference Wolpe1969). Two studies clearly conclude with beneficial add-on effects of PE to CBT for anxiety disorders (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), with add-on effects on general, but not disorder-specific, anxiety self-report measures.

Discussion

This systematic review is the first study to summarize the feasibility and efficacy of combining PE with CBT for participants primarily suffering from anxiety or elevated levels of anxiety. Overall, the reviewed studies suggest that the combination of PE and CBT is feasible for patients, and that PE might be beneficial as an add-on intervention to CBT. However, several factors might influence whether PE has an augmentative effect on CBT, and the following sections discuss the feasibility of this combination, and under which circumstances PE might yield a beneficial add-on effect.

The included studies in the present review suggest that the combination of PE and CBT is feasible, and generally with acceptable adherence and attrition rates. None of the studies reported adverse effects of PE. The studies with drop-out rates above the expected rate of 9–21% (Taylor et al., Reference Taylor, Abramowitz and McKay2012) were all studies on clinical populations (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), which could question the feasibility of this combination for clinical populations. Although the study by Bischoff and colleagues (Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018) reported high drop-out, only two participants dropped out due to PE-related reasons. However, both Cromarty and colleagues (Reference Cromarty, Robinson, Callcott and Freeston2004) and Merom and colleagues (Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008) suggested that the relatively high drop-out rates reported in their studies might be related to the addition of PE in combination with CBT. Merom and colleagues (Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008) suggested that people who were more active at baseline were more likely to complete treatment. The two other studies with clinical populations (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015) reported acceptable drop-out rates. Gaudlitz and colleagues (Reference Gaudlitz, Plag, Dimeo and Ströhle2015) reported decreasing response rates to follow-up measures in the follow-up assessments compared with post-treatment assessment, but the adherence to follow-up was better for the CBT+PE group than for the control group. This might indicate that drop-out was related to other factors than PE. The large variation in drop-out rates, and heterogeneity of studies, makes it difficult to draw firm conclusions regarding the feasibility of PE as an add-on intervention to CBT for patients with anxiety. Future studies should continue to report and investigate drop-out and adverse effects, to further establish the feasibility of the combined interventions.

The efficacy of adding PE interventions to CBT seem to depend on a number of potential moderating variables. We will discuss potential factors related to the design of the PE interventions, namely the administration of add-on PE, the duration of PE sessions and PE intensity, and factors related to the design of the included studies, such as sample, diagnoses, follow-up data and study quality. The few and diverse studies included in this review makes it hard to draw conclusions regarding a number of potentially relevant factors, including age, gender, format (individual or group-based PE), anxiety outcome measures and culture.

Regarding the administration of add-on PE, four studies administered the PE intervention several times per week, across six or more weeks (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Hovland et al., Reference Hovland, Johansen, Sjobo, Vollestad, Nordhus, Pallesen and Nordgreen2015; McEntee and Halgin, Reference McEntee and Halgin1999; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). Of these four studies, only one (McEntee and Halgin, Reference McEntee and Halgin1999) concluded with no beneficial effects of PE. This might indicate that PE administered regularly across several weeks could be a beneficial add-on intervention. The studies also indicated that longer duration of PE interventions yielded more of an additive effect of PE (Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). This is in line with previous literature suggesting that PE frequency of three or four times per week (Wipfli et al., Reference Wipfli, Rethorst and Landers2008) and across at least 10 weeks (Petruzzello et al., Reference Petruzzello, Landers, Hatfield, Kubitz and Salazar1991) is beneficial for anxiety reduction.

Of the three studies investigating the effects of acutely administered PE in connection to exposure sessions, one found a trend towards significance favouring add-on PE (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018), while the two others found no add-on effects (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). The lack of efficacy could be explained by administering the PE intervention before or during exposure, rather than after exposure, as PE after exposure has been identified as beneficial for memory consolidation (Roquet and Monfils, Reference Roquet and Monfils2018; Tanner et al., Reference Tanner, Hake, Bouchet and Greenwood2018). However, other factors related to study design can also explain these results.

The efficacy of PE as behavioural experiments remains unclear, as the only study administrating PE as behavioural experiments (Cromarty et al., Reference Cromarty, Robinson, Callcott and Freeston2004) had high drop-out, poor study design, no control group, and found lower effect sizes than estimated effect sizes with CBT for panic disorder in general (Bandelow et al., Reference Bandelow, Reitt, Röver, Michaelis, Görlich and Wedekind2015).

Future studies should investigate whether PE administered regularly over time has more benefits for anxiety reduction than other ways of administrating PE, such as PE in relation to exposure sessions or PE as behavioural experiments. Furthermore, studies investigating the administration of PE in relation to exposure therapy could test the hypothesis that add-on PE after exposure sessions could enhance treatment effects.

All studies except McEntee and Halgin (Reference McEntee and Halgin1999) administered bouts of PE with a duration of at least 30 minutes, which corresponds to both ACSM recommendations (2000) and the findings of Herring and colleagues (Reference Herring, O’Connor and Dishman2010). As such, all the studies that found beneficial effects of add-on PE adhered to ACSM recommendations. However, differences in PE session duration do not seem to explain differences in add-on PE efficacy between the included studies in this review.

Regarding the role of intensity, only two studies compared two specified intensities of PE. Gaudlitz and colleagues (Reference Gaudlitz, Plag, Dimeo and Ströhle2015) found the addition of moderate PE to be superior to the addition of low intensity PE, while Bischoff and colleagues (Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018) found no difference. Aylett and colleagues (Reference Aylett, Small and Bower2018) have identified PE intensity as a predictor for anxiety reduction when PE is administered as a stand-alone treatment. As such, future studies should investigate if PE intensity is a moderating variable in anxiety reduction also when PE is administered as an add-on intervention.

Due to the few available RCTs, we included studies with anxiety disorders according to DSM-V (American Psychiatric Association, 2013), as well as studies with CBT treatment for non-clinical anxiety. In the reviewed studies, three studies had non-clinical or sub-clinical samples (Jacquart et al., Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017; McEntee and Halgin, Reference McEntee and Halgin1999; Schwartz and Kaloupek, Reference Schwartz and Kaloupek1987). All these studies indicated no or limited effects of PE as an add-on intervention to CBT. The lack of findings for non-clinical samples could be explained by lower levels of anxiety symptoms and thereby difficulties in detecting effects of add-on interventions. There could also be a ceiling effect, in which participants with sub-clinical symptoms already respond well to the main intervention.

A ceiling effect could also explain some of the differences in the studies with clinical samples. Remission rates and effect sizes of CBT are largest for generalized anxiety disorder, and smallest for social anxiety (Carpenter et al., Reference Carpenter, Andrews, Witcraft, Powers, Smits and Hofmann2018; Springer et al., Reference Springer, Levy and Tolin2018). Thus, it is noteworthy that the patients with the greatest anxiety reduction in the study by Merom and colleagues (Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008), were patients with generalized anxiety disorder, who were also the group that exercised the least. Furthermore, the patients with social anxiety disorder appeared to benefit the most from the added PE in this study. The apparent lack of add-on effect of PE for the patients with clinical acrophobia in the study by Jacquart and colleagues (Reference Jacquart, Roquet, Papini, Powers, Rosenfield, Smits and Monfils2017), could be explained by a ceiling effect for an already effective treatment of specific phobias (Wolitzky-Taylor et al., Reference Wolitzky-Taylor, Horowitz, Powers and Telch2008). As such, we suggest that future research on add-on interventions, such as PE, focuses on target populations and disorders where there is significant room for improvement of treatment efficacy.

For the RCT studies consisting of clinical samples, panic disorder with or without agoraphobia has been most studied, and the most promising add-on effects have been found for this disorder (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015; Merom et al., Reference Merom, Phongsavan, Wagner, Chey, Marnane, Steel and Bauman2008). For panic disorder, the standard treatment already involves interoceptive exposure to bodily symptoms (Pompoli et al., Reference Pompoli, Furukawa, Imai, Tajika, Efthimiou and Salanti2016), much like the symptoms experienced through exercise. The addition of exercise could act as an extension of this exposure. These findings might suggest that PE could be a beneficial add-on intervention to CBT for patients with panic disorder, but the small number of studies needs to be taken into consideration. More studies with different anxiety disorders are needed in order to draw conclusions regarding the role of different anxiety disorders and potential ceiling effects.

Only two of the reviewed studies presented 6-month follow-up data (Bischoff et al., Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018; Gaudlitz et al., Reference Gaudlitz, Plag, Dimeo and Ströhle2015). In the study by Gaudlitz and colleagues (Reference Gaudlitz, Plag, Dimeo and Ströhle2015), the differences in symptom reductions between moderate intensity PE and movements with little strain did not become apparent immediately after the treatment, and only became significant at 6-month follow-up. Bischoff and colleagues (Reference Bischoff, Wieder, Einsle, Petzold, Jansen, Mumm and Strohle2018) found no differences at 6-month follow-up. This raises the issue that the added beneficial effects of PE, or lack of thereof, might become evident only over time. Future studies should include long-term follow-up assessments.

Limitations

We conducted a literature search with a broad search strategy, in order to find as many relevant articles as possible, but we are aware that we might not have included all relevant studies. The authors’ language proficiencies limit available articles, and could thus have influenced which articles that were included for the review. We are aware of one Brazilian article regarding CBT combined with PE that was excluded due to language (Sardinha et al., Reference Sardinha, de Araujo and Nardi2011). Another limitation to methodology is the lack of measuring inter-rater reliability in the study selection, as we evaluated the search results manually without review software.

This review is based on eight studies, with heterogeneous design and methodologies. The included studies are characterized by small samples, variability in the presence and quality of control groups, lack of information concerning randomization and potential confounding variables such as psychotropic medication, lack of descriptions of potential underlying mechanisms of change, as well as mixed samples, making it harder to draw conclusions on a diagnostic level. Only one study had a Jadad score of 4; the remaining scored 3 or below, meaning that the general quality of the studies were weak (see Appendix B in the Supplementary material). Due to the limited number of available studies, we did not exclude studies based on quality. The results should be interpreted with this in mind. Although we intended to do a meta-analysis, we found the data material insufficient for this approach. As such, we cannot draw any quantitative conclusions regarding the augmentative effects of PE, or adequately assess the impact of the factors discussed here.

We have included studies with measures of anxiety as outcome measures. We have not included studies that investigate biological mechanisms and changes related to PE, although hypotheses regarding beneficial effects of PE often have biological underpinnings. As such, we cannot draw conclusions regarding the relevance of such variables. Future studies should assess biological variables that could play a role in the augmentative effect of PE, in addition to investigating the psychological mechanisms of change.

Conclusions and further directions

The reviewed literature indicates that the combination of PE and CBT treatment is feasible, and the addition of PE does not appear to affect treatment adherence. The effect of PE may be dependent on several factors. In the reviewed studies, PE seems to be a beneficial add-on strategy for clinical populations, rather than non-clinical samples. Regular PE, in which PE is administered several times per week, across several weeks, appears to be the most promising strategy. The next steps in research are high quality studies to determine under which circumstances PE can be applied as a beneficial add-on intervention to CBT; specifically, whether different administration strategies for combining PE and CBT yield different results, the effect of PE intensity, and the efficacy of add-on PE for populations and diagnoses with poorer response to stand-alone CBT. Such steps in research, in combination with research on when to apply PE as a stand-alone intervention, can ensure effective and strategic use of PE in mental health care.

Acknowledgements

Thanks to staff at the University Library of Bergen for assistance in developing the search strategy.

Financial support

The publishing of the article was funded by Diakonhjemmet Hospital. The funder had no role in the conduct or results of the study.

Conflicts of interest

None.

Data availability

The data that support the findings of this study are available from the corresponding author (K.P.F.) upon reasonable request.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/S1352465821000126

References

American College of Sports Medicine (2000). ACSM ’s Guidelines for Exercise Testing and Prescription. Philadelphia, USA: Lippincott Williams & Wilkins.Google Scholar
American Psychiatric Association (2013). Diagnostic and Statistical Manual of Mental Disorders (5th edn; DSM-V). Washington, DC, USA.Google Scholar
Asmundson, G. J., Fetzner, M. G., DeBoer, L. B., Powers, M. B., Otto, M. W., & Smits, J. A. (2013). Let’s get physical: a contemporary review of the anxiolytic effects of exercise for anxiety and its disorders. Depression and Anxiety, 30, 362373. https://doi.org/10.1002/da.22043 CrossRefGoogle ScholarPubMed
Aylett, E., Small, N., & Bower, P. (2018). Exercise in the treatment of clinical anxiety in general practice – a systematic review and meta-analysis. BMC Health Services Research, 18, 559. https://doi.org/10.1186/s12913-018-3313-5 CrossRefGoogle ScholarPubMed
Bandelow, B., & Michaelis, S. (2015). Epidemiology of anxiety disorders in the 21st century. Dialogues in Clinical Neuroscience, 17, 327335 Google ScholarPubMed
Bandelow, B., Michaelis, S., & Wedekind, D. (2017). Treatment of anxiety disorders. Dialogues in Clinical Neuroscience, 19, 93107 Google ScholarPubMed
Bandelow, B., Reitt, M., Röver, C., Michaelis, S., Görlich, Y., & Wedekind, D. (2015). Efficacy of treatments for anxiety disorders: a meta-analysis. International Clinical Psychopharmacology, 30, 183192. https://doi.org/10.1097/yic.0000000000000078 CrossRefGoogle ScholarPubMed
Bartley, C. A., Hay, M., & Bloch, M. H. (2013). Meta-analysis: aerobic exercise for the treatment of anxiety disorders. Progress in Neuro-Psychopharmacology & Biological Psychiatry, 45, 3439. https://doi.org/10.1016/j.pnpbp.2013.04.016 CrossRefGoogle ScholarPubMed
Baxter, A. J., Scott, K. M., Vos, T., & Whiteford, H. A. (2013). Global prevalence of anxiety disorders: a systematic review and meta-regression. Psychological Medicine, 43, 897910. https://doi.org/10.1017/S003329171200147X CrossRefGoogle ScholarPubMed
Bernard, P., Romain, A. J., Caudroit, J., Chevance, G., Carayol, M., Gourlan, M., … & Moullec, G. (2018). Cognitive behavior therapy combined with exercise for adults with chronic diseases: systematic review and meta-analysis. Health Psychology, 37, 433450. https://doi.org/10.1037/hea0000578 CrossRefGoogle ScholarPubMed
Bischoff, S., Wieder, G., Einsle, F., Petzold, M. B., Jansen, C., Mumm, J. L., … & Strohle, A. (2018). Running for extinction? Aerobic exercise as an augmentation of exposure therapy in panic disorder with agoraphobia. Journal of Psychiatric Research, 101, 3441. https://doi.org/10.1016/j.jpsychires.2018.03.001 CrossRefGoogle ScholarPubMed
Carpenter, J., Andrews, L.A., Witcraft, S., Powers, M., Smits, J., & Hofmann, S. (2018). Cognitive behavioral therapy for anxiety and related disorders: a meta-analysis of randomized placebo-controlled trials. Depression and Anxiety, 35. https://doi.org/10.1002/da.22728 CrossRefGoogle ScholarPubMed
Caspersen, C. J., Powell, K. E., & Christenson, G. M. (1985). Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Public Health Reports, 100, 126131.Google ScholarPubMed
Cavarretta, D. J., Hall, E. E., & Bixby, W. R. (2018). The acute effects of resistance exercise on affect, anxiety, and mood – practical implications for designing resistance training programs. International Review of Sport and Exercise Psychology. https://doi.org/10.1080/1750984X.2018.1474941 CrossRefGoogle Scholar
Commonwealth Department of Health and Ageing (1999). National physical activity guidelines. Canberra, Australia: Commonwealth Department of Health and Ageing.Google Scholar
Craske, M. G., Stein, M. B., Eley, T. C., Milad, M. R., Holmes, A., Rapee, R. M., & Wittchen, H.-U. (2017). Anxiety disorders. Nature Reviews Disease Primers, 3, 17024. https://doi.org/10.1038/nrdp.2017.24 CrossRefGoogle ScholarPubMed
Cromarty, P., Robinson, G., Callcott, P., & Freeston, M. (2004). Cognitive therapy and exercise for panic and agoraphobia in primary care: pilot study and service development. Behavioural and Cognitive Psychotherapy, 32, 371374. https://doi.org/10.1017/S1352465804001456 CrossRefGoogle Scholar
Czosnek, L., Lederman, O., Cormie, P., Zopf, E., Stubbs, B., & Rosenbaum, S. (2019). Health benefits, safety and cost of physical activity interventions for mental health conditions: a meta-review to inform translation efforts. Mental Health and Physical Activity, 16, 140151. https://doi.org/10.1016/j.mhpa.2018.11.001 CrossRefGoogle Scholar
da Silva, T. L., Ravindran, L. N., & Ravindran, A. V. (2009). Yoga in the treatment of mood and anxiety disorders: a review. Asian Journal of Psychiatry, 2, 616. https://doi.org/10.1016/j.ajp.2008.12.002 CrossRefGoogle ScholarPubMed
de Souza Moura, A. M., Lamego, M. K., Paes, F., Ferreira Rocha, N. B., Simoes-Silva, V., Rocha, S. A., … & Machado, S. (2015). Effects of aerobic exercise on anxiety disorders: a systematic review. CNS & Neurological Disorders Drug Targets, 14, 11841193. https://doi.org/10.2174/1871527315666151111121259 CrossRefGoogle ScholarPubMed
DeBoer, L. B., Powers, M. B., Utschig, A. C., Otto, M. W., & Smits, J. A. (2012). Exploring exercise as an avenue for the treatment of anxiety disorders. Expert Review of Neurotherapeutics, 12, 10111022. https://doi.org/10.1586/ern.12.73 CrossRefGoogle ScholarPubMed
Gaudlitz, K., Plag, J., Dimeo, F., & Ströhle, A. (2015). Aerobic exercise training facilitates the effectiveness of cognitive behavioral therapy in panic disorder. Depression and Anxiety, 32, 221228. https://doi.org/10.1002/da.22337 CrossRefGoogle ScholarPubMed
Goodwin, R. D. (2003). Association between physical activity and mental disorders among adults in the United States. Preventive Medicine, 36, 698703. https://doi.org/10.1016/S0091-7435(03)00042-2 CrossRefGoogle ScholarPubMed
Hales, R. E., & Travis, T. W. (1987). Exercise as a treatment option for anxiety and depressive disorders. Military Medicine, 152, 299302 10.1093/milmed/152.6.299CrossRefGoogle ScholarPubMed
Herring, M. P., O’Connor, P. J., & Dishman, R. K. (2010). The effect of exercise training on anxiety symptoms among patients: a systematic review. Archives of Internal Medicine, 170, 321331. https://doi.org/10.1001/archinternmed.2009.530 CrossRefGoogle ScholarPubMed
Hovland, A., Johansen, H., Sjobo, T., Vollestad, J., Nordhus, I. H., Pallesen, S., … & Nordgreen, T. (2015). A feasibility study on combining internet-based cognitive behaviour therapy with physical exercise as treatment for panic disorder – treatment protocol and preliminary results. Cognitive Behaviour Therapy, 44, 275287. https://doi.org/10.1080/16506073.2015.1022596 CrossRefGoogle ScholarPubMed
Jacquart, J., Roquet, R. F., Papini, S., Powers, M. B., Rosenfield, D., Smits, J. A. J., & Monfils, M. H. (2017). Effects of acute exercise on fear extinction in rats and exposure therapy in humans: null findings from five experiments. Journal of Anxiety Disorders, 50, 7686. https://doi.org/10.1016/j.janxdis.2017.05.010 CrossRefGoogle ScholarPubMed
Jadad, A. R., Moore, R. A., Carroll, D., Jenkinson, C., Reynolds, D. J. M., Gavaghan, D. J., & McQuay, H. J. (1996). Assessing the quality of reports of randomized clinical trials: is blinding necessary? Controlled Clinical Trials, 17, 112. https://doi.org/10.1016/0197-2456(95)00134-4 CrossRefGoogle ScholarPubMed
Jayakody, K., Gunadasa, S., & Hosker, C. (2014). Exercise for anxiety disorders: systematic review. British Journal of Sports Medicine, 48, 187196. https://doi.org/10.1136/bjsports-2012-091287 CrossRefGoogle ScholarPubMed
Kaczkurkin, A. N., & Foa, E. B. (2015). Cognitive-behavioral therapy for anxiety disorders: an update on the empirical evidence. Dialogues in Clinical Neuroscience, 17, 337346 Google ScholarPubMed
Kandola, A., Vancampfort, D., Herring, M., Rebar, A., Hallgren, M., Firth, J., & Stubbs, B. (2018). Moving to beat anxiety: epidemiology and therapeutic issues with physical activity for anxiety. Current Psychiatry Reports, 20, 63. https://doi.org/10.1007/s11920-018-0923-x CrossRefGoogle ScholarPubMed
Kerr, J. H., & Vlaswinkel, E. H. (1990). Effects of exercise on anxiety: a review. Anxiety Research, 2, 309321. https://doi.org/10.1080/08917779008248736 CrossRefGoogle Scholar
Kessler, R. C., Petukhova, M., Sampson, N. A., Zaslavsky, A. M., & Wittchen, H.-U. (2012). Twelve-month and lifetime prevalence and lifetime morbid risk of anxiety and mood disorders in the United States. International Journal of Methods in Psychiatric Research, 21, 169184. https://doi.org/10.1002/mpr.1359 CrossRefGoogle ScholarPubMed
Kobayashi, K., Shimizu, E., Hashimoto, K., Mitsumori, M., Koike, K., Okamura, N., … & Iyo, M. (2005). Serum brain-derived neurotrophic factor (BDNF) levels in patients with panic disorder: as a biological predictor of response to group cognitive behavioral therapy. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 29, 658663. https://doi.org/10.1016/j.pnpbp.2005.04.010 CrossRefGoogle ScholarPubMed
Kvam, S., Kleppe, C. L., Nordhus, I. H., & Hovland, A. (2016). Exercise as a treatment for depression: a meta-analysis. Journal of Affective Disorders, 202, 6786. https://doi.org/10.1016/j.jad.2016.03.063 CrossRefGoogle ScholarPubMed
Lambert, R. A., Harvey, I., & Poland, F. (2007). A pragmatic, unblinded randomised controlled trial comparing an occupational therapy-led lifestyle approach and routine GP care for panic disorder treatment in primary care. Journal of Affective Disorders, 99, 6371. https://doi.org/10.1016/j.jad.2006.08.026 CrossRefGoogle ScholarPubMed
Martinsen, E. W. (2003). Running away from anxiety and depression? Tidsskrift for Norsk Psykologforening, 40, 676681 Google Scholar
Mataix-Cols, D., Fernández de la Cruz, L., Monzani, B., Rosenfield, D., Andersson, E., Pérez-Vigil, A., … & Thuras, T. (2017). D-Cycloserine augmentation of exposure-based cognitive behavior therapy for anxiety, obsessive-compulsive, and posttraumatic stress disorders: a systematic review and meta-analysis of individual participant data. JAMA Psychiatry, 74, 501510. https://doi.org/10.1001/jamapsychiatry.2016.3955 CrossRefGoogle ScholarPubMed
Mayo-Wilson, E., Dias, S., Mavranezouli, I., Kew, K., Clark, D. M., Ades, A. E., & Pilling, S. (2014). Psychological and pharmacological interventions for social anxiety disorder in adults: a systematic review and network meta-analysis. The Lancet Psychiatry, 1, 368376. https://doi.org/10.1016/S2215-0366(14)70329-3 CrossRefGoogle ScholarPubMed
McEntee, D. J., & Halgin, R. P. (1999). Cognitive group therapy and aerobic exercise in the treatment of anxiety. Journal of College Student Psychotherapy, 13, 3755. https://doi.org/10.1300/J035v13n03_04 CrossRefGoogle Scholar
Merom, D., Phongsavan, P., Wagner, R., Chey, T., Marnane, C., Steel, Z., … & Bauman, A. (2008). Promoting walking as an adjunct intervention to group cognitive behavioral therapy for anxiety disorders – a pilot group randomized trial. Journal of Anxiety Disorders, 22, 959968. https://doi.org/10.1016/j.janxdis.2007.09.010 CrossRefGoogle ScholarPubMed
Mohlman, J. (2008). More power to the executive? A preliminary test of CBT plus executive skills training for treatment of late-life GAD. Cognitive and Behavioral Practice, 15, 306316. https://doi.org/10.1016/j.cbpra.2007.07.002 CrossRefGoogle Scholar
Mohlman, J., Gorenstein, E. E., Kleber, M., de Jesus, M., Gorman, J. M., & Papp, L. A. (2003). Standard and enhanced cognitive-behavior therapy for late-life generalized anxiety disorder: two pilot investigations. American Journal of Geriatric Psychiatry, 11, 2432. https://doi.org/10.1097/00019442-200301000-00005 Google ScholarPubMed
National Institute for Health and Clinical Excellence (2011). Generalised anxiety disorder and panic disorder (with or without agoraphobia) in adults. Clinical guideline 113. London, UK. Retrieved from: http://www.guidance.nice.org.uk/CG113 Google Scholar
National Institute for Health and Clinical Excellence (2013). Social anxiety disorder: recognition, assessment and treatment. Clinical guideline 159. London, UK. Retrieved from: http://www.guidance.nice.org.uk/CG159 Google Scholar
Oldridge, N., Guyatt, G., Jones, N., Crowe, J., Singer, J., Feeny, D., … & Torrance, G. (1991). Effects on quality of life with comprehensive rehabilitation after acute myocardial infarction. American Journal of Cardiology, 67, 10841089. https://doi.org/10.1016/0002-9149(91)90870-Q CrossRefGoogle ScholarPubMed
Petruzzello, S. J., Landers, D. M., Hatfield, B. D., Kubitz, K. A., & Salazar, W. (1991). A meta-analysis on the anxiety-reducing effects of acute and chronic exercise. Sports Medicine, 11, 143182. https://doi.org/10.2165/00007256-199111030-00002 CrossRefGoogle ScholarPubMed
Pittig, A., van den Berg, L., & Vervliet, B. (2016). The key role of extinction learning in anxiety disorders: behavioral strategies to enhance exposure-based treatments. Current Opinion in Psychiatry, 29, 3947. https://.doi.org/10.1097/yco.0000000000000220 CrossRefGoogle ScholarPubMed
Pompoli, A., Furukawa, T. A., Imai, H., Tajika, A., Efthimiou, O., & Salanti, G. (2016). Psychological therapies for panic disorder with or without agoraphobia in adults: a network meta-analysis. Cochrane Database of Systematic Reviews, 4. https://doi.org/10.1002/14651858.CD011004.pub2 Google ScholarPubMed
Powers, M. B., Asmundson, G. J., & Smits, J. A. (2015). Exercise for mood and anxiety disorders: the state-of-the science. Cognitive Behaviour Therapy, 44, 237239. https://doi.org/10.1080/16506073.2015.1047286 CrossRefGoogle ScholarPubMed
Roquet, R., & Monfils, M.-H. (2018). Does exercise augment operant and Pavlovian extinction: a meta-analysis. Journal of Psychiatric Research, 96, 7393. https://doi.org/10.1016/j.jpsychires.2017.09.018 CrossRefGoogle ScholarPubMed
Rosenbaum, S., Tiedemann, A., Ward, P. B., Curtis, J., & Sherrington, C. (2015). Physical activity interventions: an essential component in recovery from mental illness. British Journal of Sports Medicine, 49, 15441545. https://doi.org/10.1136/bjsports-2014-094314 CrossRefGoogle ScholarPubMed
Sardinha, A., de Araujo, C. G. S., & Nardi, A. E. (2011). Interval aerobic training as a tool in the cognitive-behavioral treatment of panic disorder. Jornal Brasileiro de Psiquiatria, 60, 227230. https://doi.org/10.1590/S0047-20852011000300013 CrossRefGoogle Scholar
Schuch, F. B., Vancampfort, D., Richards, J., Rosenbaum, S., Ward, P. B., & Stubbs, B. (2016). Exercise as a treatment for depression: a meta-analysis adjusting for publication bias. Journal of Psychiatric Research, 77, 4251. https://doi.org/10.1016/j.jpsychires.2016.02.023 CrossRefGoogle ScholarPubMed
Schwartz, S. G., & Kaloupek, D. G. (1987). Acute exercise combined with imaginal exposure as a technique for anxiety reduction. Canadian Journal of Behavioural Science/Revue canadienne des sciences du comportement, 19, 151166. https://doi.org/10.1037/h0080012 CrossRefGoogle Scholar
Springer, K. S., Levy, H. C., & Tolin, D. F. (2018). Remission in CBT for adult anxiety disorders: a meta-analysis. Clinical Psychology Review, 61, 18. https://doi.org/10.1016/j.cpr.2018.03.002 CrossRefGoogle ScholarPubMed
Stavestrand, S. H., Sirevåg, K., Nordhus, I. H., Sjøbø, T., Endal, T. B., Nordahl, H. M., … & Hovland, A. (2019). Physical exercise augmented cognitive behaviour therapy for older adults with generalised anxiety disorder (PEXACOG): study protocol for a randomized controlled trial. Trials, 20, 174. https://doi.org/10.1186/s13063-019-3268-9 CrossRefGoogle ScholarPubMed
Stonerock, G. L., Hoffman, B. M., Smith, P. J., & Blumenthal, J. A. (2015). Exercise as treatment for anxiety: systematic review and analysis. Annals of Behavioral Medicine, 49, 542556. https://doi.org/10.1007/s12160-014-9685-9 CrossRefGoogle ScholarPubMed
Stubbs, B., Koyanagi, A., Hallgren, M., Firth, J., Richards, J., Schuch, F., … & Vancampfort, D. (2017). Physical activity and anxiety: a perspective from the World Health Survey. Journal of Affective Disorders, 208, 545552. https://doi.org/10.1016/j.jad.2016.10.028 CrossRefGoogle ScholarPubMed
Szuhany, K.L., Bugatti, M., & Otto, M.W. (2015). A meta-analytic review of the effects of exercise on brain-derived neurotrophic factor. Journal of Psychiatric Research, 60, 5664. https://doi.org/10.1016/j.jpsychires.2014.10.003 CrossRefGoogle ScholarPubMed
Tacconelli, E., (2010). Systematic reviews: CRD’s guidance for undertaking reviews in health care. The Lancet Infectious Diseases, 10, 226. https://doi.org/10.1016/S1473-3099(10)70065-7 CrossRefGoogle Scholar
Tanner, M. K., Hake, H. S., Bouchet, C. A., & Greenwood, B. N. (2018). Running from fear: exercise modulation of fear extinction. Neurobiology of Learning and Memory, 151, 2834. https://doi.org/10.1016/j.nlm.2018.03.021 CrossRefGoogle ScholarPubMed
Taylor, S., Abramowitz, J. S., & McKay, D. (2012). Non-adherence and non-response in the treatment of anxiety disorders. Journal of Anxiety Disorders, 26, 583589. https://doi.org/10.1016/j.janxdis.2012.02.010 CrossRefGoogle ScholarPubMed
Wipfli, B., Rethorst, C., & Landers, D. (2008). The anxiolytic effects of exercise: a meta-analysis of randomized trials and dose-response analysis. Journal of Sport and Exercise Psychology, 30, 392410. https://doi.org/10.1123/jsep.30.4.392 CrossRefGoogle ScholarPubMed
Wittchen, H. U., Jacobi, F., Rehm, J., Gustavsson, A., Svensson, M., Jönsson, B., … & Steinhausen, H. C. (2011). The size and burden of mental disorders and other disorders of the brain in Europe 2010. European Neuropsychopharmacology, 21, 655679. https://doi.org/10.1016/j.euroneuro.2011.07.018 CrossRefGoogle ScholarPubMed
Wolitzky-Taylor, K. B., Horowitz, J. D., Powers, M. B., & Telch, M. J. (2008). Psychological approaches in the treatment of specific phobias: a meta-analysis. Clinical Psychology Review, 28, 10211037. https://doi.org/10.1016/j.cpr.2008.02.007 CrossRefGoogle ScholarPubMed
Wolpe, J. (1969). Subjective Units of Distress Scale. The Practice of Behavior Therapy. Google Scholar
Yochim, B. P., Mueller, A. E., & Segal, D. L. (2013). Late life anxiety is associated with decreased memory and executive functioning in community dwelling older adults. Journal of Anxiety Disorders, 27, 567575. https://doi.org/10.1016/j.janxdis.2012.10.010 CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. Flow chart of selection process.

Figure 1

Table 1. Overview of included studies, characteristics and conclusions

Supplementary material: File

Frederiksen et al. supplementary material

Appendix A

Download Frederiksen et al. supplementary material(File)
File 22.4 KB
Supplementary material: File

Frederiksen et al. supplementary material

Appendix B

Download Frederiksen et al. supplementary material(File)
File 16 KB
Submit a response

Comments

No Comments have been published for this article.