Summary and critical appraisal

The studies provide descriptions of living with exhaustion disorder that highlight physiological symptoms, loss of self-recognition, struggle, withdrawal, detachment and breakdown, as well as aspects perceived to be important for recovery. Although results provide a deeper understanding of the lived experience of exhaustion disorder, sample sizes (Ns = 8–18) are smaller than in the quantitative studies and results are not generalisable to other contexts. The studies from Norway had the same eight participants in all three studies.

Symptoms

Glise et al^{Reference Glise, Ahlborg and Jonsdottir24} reported that on a checklist of 12 somatic symptoms, 45% of participants with exhaustion disorder reported six or more symptoms. Problems with flatulence or indigestion were most common (67%), followed by headaches (65%) and dizziness (57%). In the same study, 98% reported that they felt tired or had low energy, and 85% reported disturbed sleep.^{Reference Glise, Ahlborg and Jonsdottir24} A retrospective medical chart review by Adamsson & Bernhardsson^{Reference Adamsson and Bernhardsson21} showed that in the 2 years preceding an exhaustion disorder diagnosis, individuals visited a general practitioner an average of 5.2 times (s.d. = 3.7), most often with complaints of infection, anxiety/depression and gastrointestinal symptoms. Medical charts revealed that 53% were diagnosed with a comorbid mental disorder and 61% with a comorbid somatic disorder.^{Reference Adamsson and Bernhardsson21} Ristiniemi et al^{Reference Ristiniemi, Perski, Lyskov and Emtner91} (results further reported in the Interventions section below) found that self-rated hyperventilation was more common in individuals with exhaustion disorder than in healthy controls.

In a sample of 420 individuals with exhaustion disorder, Grossi et al^{Reference Grossi, Jeding, Soderstrom, Osika, Levander and Perski27} found that more than 9 h of sleep per night (reported by 14% of participants) was associated with higher self-rated sleep quality but also with higher frequency of sick leave, depression, fatigue and daytime sleepiness compared with those who slept less than 9 h per night. In another study by Grossi et al,^{Reference Grossi, Jeding, Soderstrom, Perski, Alfoldi and Osika28} self-reported hazardous drinking was found to occur in 12% of women and 13% of men with exhaustion disorder. In women only, hazardous drinking was associated with lower mental well-being, but the subgroup of non-drinking women reported poorer physical health and more pain.^{Reference Grossi, Jeding, Soderstrom, Perski, Alfoldi and Osika28} Maroti et al^{Reference Maroti, Molander and Bileviciute-Ljungar31} found individuals with exhaustion disorder to self-report higher levels of anxiety, depression and difficulties identifying and describing feelings compared with individuals diagnosed with chronic fatigue syndrome and healthy controls, but exhaustion disorder participants did not differ from comparison groups on an observer-rated emotional awareness test. In studies by Maroti et al^{Reference Maroti and Bileviciute-Ljungar32} and Grensman et al,^{Reference Grensman, Acharya, Wandell, Nilsson and Werner26} lower quality of life was reported in individuals with exhaustion disorder compared with healthy controls.

Symptom course and contextual factors

In a longitudinal cohort study by Glise et al,^{Reference Glise, Ahlborg and Jonsdottir23} the course of symptoms of participants with exhaustion disorder in multimodal rehabilitation was followed over a period of 18 months (effects of the intervention were not formally assessed). The proportion of individuals who scored ≥4 points on the Shirom–Melamed Burnout Questionnaire (SMBQ), indicative of clinical burnout, was significantly reduced from baseline to 18-month follow-up, as was the proportion who reached clinical levels of depression and anxiety.^{Reference Glise, Ahlborg and Jonsdottir23} Similarly, in the same cohort, most self-reported somatic symptoms decreased from baseline to the 18-month follow-up.^{Reference Glise, Ahlborg and Jonsdottir24} A follow-up after 7–10 years of largely the same cohort indicated that almost half of individuals who were diagnosed with exhaustion disorder at baseline still reported fatigue, and the most common residual symptom was reduced stress tolerance (reported by 73%).^{Reference Glise, Wiegner and Jonsdottir25} Clinical assessment of a subgroup (n = 163 of 217) of participants indicated that one-third were still clinically exhausted (defined as either fulfilling diagnostic criteria or scoring ≥4.4 on the SMBQ with physician-confirmed residual symptoms of exhaustion disorder). However, 87% of participants in the total investigated sample were no longer on sick leave at follow-up.^{Reference Glise, Wiegner and Jonsdottir25} Cross-sectional studies of individuals in largely the same cohort, 7–10 years after enrolling in treatment for exhaustion disorder, indicated that most participants (67%) had made changes at work since treatment start (regarding workplace, work tasks or working hours), and women were more likely than men to have made changes in working hours.^{Reference Beno, Hensing, Lindegård and Jonsdottir22} Those who had not recovered from exhaustion disorder reported higher incidence of obsessive–compulsive personality disorder compared with those who had recovered.^{Reference Gulin, Ellbin, Jonsdottir and Lindqvist Bagge29} Two studies report that quantitative work demands were the most prevalent stressors for individuals with exhaustion disorder,^{Reference Grensman, Acharya, Wandell, Nilsson and Werner26,Reference Hasselberg, Jonsdottir, Ellbin and Skagert30} followed by private relational conflicts.^{Reference Hasselberg, Jonsdottir, Ellbin and Skagert30} In a prospective medical chart study, Skoglund et al^{Reference Skoglund, Björkelund, Svenningsson, Petersson, Augustsson and Nejati33} investigated whether antidepressant medication was associated with sick leave during a 12-month period but found no such association.

Summary and critical appraisal

A range of psychiatric and somatic symptoms have been reported in individuals with exhaustion disorder. Although symptoms tend to decrease over time, some studies report residual symptoms up to 10 years after participants sought treatment. Conclusions regarding exhaustion disorder-specific symptom presentation and course are limited by the relatively small number of studies and by the lack of both population-based control groups and comparisons with other diagnostic groups. Further, exhaustion disorder participants included in studies often met criteria for concurrent depression and/or anxiety disorders, which complicates conclusions regarding disorder-specific symptoms and course. Many studies (6 out of 13) were conducted in the same cohort from a specialised treatment centre, which restricts generalisability of findings to other contexts and to more recently diagnosed individuals.

Cross-sectional cognitive testing

Österberg et al^{Reference Österberg, Karlson and Hansen41} found that participants with exhaustion disorder performed significantly worse than healthy controls on a test of psychomotor speed, but not on tests measuring attention, working memory, episodic memory and vocabulary. In contrast, Jonsdottir et al^{Reference Jonsdottir, Nordlund, Ellbin, Ljung, Glise and Wahrborg37} found that exhaustion disorder participants performed significantly worse with respect to working memory, episodic memory and on one but not another test of executive function compared with controls. The study, however, found no differences between exhaustion disorder and control participants on the majority of administered cognitive tests. A study by Krabbe et al,^{Reference Krabbe, Ellbin, Nilsson, Jonsdottir and Samuelsson39} with a particular focus on executive functioning and attention, compared individuals with exhaustion disorder with matched healthy controls and found that the exhaustion disorder group performed worse on a test of sustained attention as well as on a test of verbal fluency, but no differences were found regarding working memory. In a study by Ellbin et al,^{Reference Ellbin, Engen, Jonsdottir and Nordlund35} individuals with exhaustion disorder performed worse on tests of speed and attention, language and executive functioning relative to healthy controls, but not on immediate and delayed recall (memory) or on performance on a visuo-spatial task. Bartfai and colleagues^{Reference Bartfai, Åsberg, Beser, Sorjonen, Wilczek and Warkentin34} investigated whether a tablet-based serial naming task could identify cognitive impairment in exhaustion disorder participants relative to normative data. The study also administered a cognitive assessment battery tapping working memory, general intelligence, information processing/perception, psychomotor speed and attention. Individuals with exhaustion disorder performed within population test norms on all tests except for the serial naming task.^{Reference Bartfai, Åsberg, Beser, Sorjonen, Wilczek and Warkentin34} A study by Nelson et al^{Reference Nelson, Gavelin, Boraxbekk, Eskilsson, Josefsson and Slunga Järvholm40} compared a host of cognitive test outcomes in individuals with exhaustion disorder with those of matched controls and found mild cognitive impairment in exhaustion disorder on some tests of executive function and general intelligence, but no group differences for the bulk of assessed cognitive domains.

Follow-up of cognitive functioning

Österberg et al^{Reference Österberg, Karlson, Malmberg and Hansen42} followed up former exhaustion disorder participants 1.5 years after initial sick leave (11% still fulfilling diagnostic criteria) and found improvements in working memory, processing speed, attention and episodic memory relative to baseline. When cross-sectionally comparing largely the same sample with a healthy control group 2 years after initial sick leave, participants with former exhaustion disorder (13% fulfilling diagnostic criteria) performed worse than controls on a continuous performance test and slightly worse regarding visuo-constructive ability, but outperformed controls on some tests of working memory, episodic memory and cognitive control.^{Reference Österberg, Skogsliden and Karlson43} On other tests there were no differences between groups. In contrast, when Jonsdottir and colleagues^{Reference Jonsdottir, Nordlund, Ellbin, Ljung, Glise and Währborg38} conducted a follow-up of exhaustion disorder participants after an average of 3 years (23% still fulfilling diagnostic criteria), they performed worse than healthy controls regarding episodic memory and on some tests of working memory and language. In that study, within-group analyses showed no major changes in cognitive functioning among exhaustion disorder participants across time, even though substantial recovery from the disorder had taken place.^{Reference Jonsdottir, Nordlund, Ellbin, Ljung, Glise and Währborg38}

Self-reported cognitive impairment

As regards subjective (as opposed to psychometrically tested) cognitive impairment, effect sizes were large and consistent across studies in domains of attention^{Reference Österberg, Karlson and Hansen41,Reference Österberg, Karlson, Malmberg and Hansen42} and memory,^{Reference Ellbin, Engen, Jonsdottir and Nordlund35,Reference Jonsdottir, Nordlund, Ellbin, Ljung, Glise and Wahrborg37,Reference Krabbe, Ellbin, Nilsson, Jonsdottir and Samuelsson39–Reference Österberg, Karlson, Malmberg and Hansen42} test-related fatigue,^{Reference Krabbe, Ellbin, Nilsson, Jonsdottir and Samuelsson39} combinations of memory and attention/concentration^{Reference Krabbe, Ellbin, Nilsson, Jonsdottir and Samuelsson39,Reference Nelson, Gavelin, Boraxbekk, Eskilsson, Josefsson and Slunga Järvholm40} and global cognition.^{Reference Nelson, Gavelin, Boraxbekk, Eskilsson, Josefsson and Slunga Järvholm40} In most studies there was a lack of coherence between subjectively reported cognitive impairment and tested cognitive performance. A notable exception is from Ellbin et al,^{Reference Ellbin, Engen, Jonsdottir and Nordlund35} reporting that self-assessed memory problems were associated with worse scores on tests of both immediate and delayed recall. Ellbin et al^{Reference Ellbin, Jonsdottir, Eckerström and Eckerström36} also found that exhaustion disorder participants who still fulfilled diagnostic criteria 7–10 years after study inclusion reported more subjective cognitive impairment compared with those who had recovered, who in turn reported more cognitive impairment than healthy controls.

Summary and critical appraisal

In summary, psychometric testing of cognitive functioning in individuals diagnosed with exhaustion disorder indicate, at most, mild cognitive impairment. However, results regarding the implicated domains are inconsistent across studies. Contrastingly, results for individuals with exhaustion disorder display large and consistent effect sizes for subjective self-reported cognitive impairment compared with controls. In general, the reviewed studies employed well-designed neuropsychological testing procedures and administered established and validated psychometric tests. However, sample sizes were often limited, and most studies investigated a range of cognitive outcome measurements across several domains without a clearly defined primary outcome, leading to an increased risk of both type I and type II errors. Moreover, the vast majority of studies did not employ proper population sampling of controls, which introduces a risk of sampling bias and makes between-group comparisons difficult to interpret.

Hypothalamus–pituitary–adrenal axis and adrenal hormone studies

Of studies that investigated the cortisol awakening response in individuals with exhaustion disorder, one study by Olsson et al^{Reference Olsson, Roth and Melin56} found a greater cortisol awakening response in exhaustion disorder participants compared with healthy controls, and in another study by the same research group (of a partly overlapping sample) the response diminished in the exhaustion disorder group after treatment with Rhodiola rosea root.^{Reference Olsson, von Schéele and Panossian90} In studies by Sjörs et al^{Reference Sjörs, Ljung and Jonsdottir59,Reference Sjörs and Jonsdottir61} no differences in the cortisol awakening response were reported between individuals with exhaustion disorder and healthy participants and no within-group changes were found during treatment.^{Reference Sjörs, Ljung and Jonsdottir59,Reference Sjörs and Jonsdottir61} Similarly, Österberg et al^{Reference Österberg, Karlson and Hansen41} found no difference in the cortisol awakening response between exhaustion disorder participants and healthy controls, but in that study lower evening cortisol levels in exhaustion disorder participants were reported. In a longitudinal study by Österberg et al,^{Reference Österberg, Karlson, Malmberg and Hansen42} the cortisol awakening response in exhaustion disorder individuals was unchanged after 1.5 years compared with baseline. In studies by Jönsson et al^{Reference Jönsson, Österberg, Wallergård, Hansen, Garde and Johansson47} and Lennartsson et al,^{Reference Lennartsson, Sjörs, Währborg, Ljung and Jonsdottir49} no differences in cortisol response to versions of the Trier Social Stress Test were found when former exhaustion disorder participants were compared with a high-stress and a low-stress group or when exhaustion disorder participants were compared with a healthy control group.

Three studies by Lennartsson et al^{Reference Lennartsson, Sjörs and Jonsdottir48,Reference Lennartsson, Theorell, Kushnir and Jonsdottir50,Reference Lennartsson, Theorell, Kushnir and Jonsdottir51} investigated the adrenal hormone DHEA-s, a precursor to androgens and oestrogens, in exhaustion disorder samples. In one study, lower DHEA-s response to the Trier Social Stress Test was found relative to healthy controls on one of the outcome measures used.^{Reference Lennartsson, Sjörs and Jonsdottir48} When examining non-provoked levels of DHEA-s cross-sectionally between exhaustion disorder participants and controls, no main group differences were found, but levels of DHEA-s were lower in exhaustion disorder participants compared with controls in the youngest age group (25–34 years).^{Reference Lennartsson, Theorell, Kushnir and Jonsdottir50} In a longitudinal follow-up of the same sample, levels of DHEA-s were found to increase over time in half of the participants and decrease in the other half. Lower levels of self-rated symptoms of exhaustion were observed in the increase group.^{Reference Lennartsson, Theorell, Kushnir and Jonsdottir51}

Growth factors and related molecules in plasma

Jonsdottir et al^{Reference Jonsdottir, Hagg, Glise and Ekman46} found no difference in epidermal growth factor (EGF), vascular endothelial growth factor (VEGF) or the chemokine MCP-1 between females with exhaustion disorder and controls. In a study by Wallensten et al,^{Reference Wallensten, Asberg, Nygren, Szulkin, Wallen and Mobarrez65} higher levels of VEGF and EGF were found in individuals with exhaustion disorder compared with healthy controls, but no difference in MCP-1. In contrast to these findings, Sjörs et al^{Reference Sjörs Dahlman, Blennow, Zetterberg, Glise and Jonsdottir62} observed lower levels of VEGF and EGF in exhaustion disorder participants compared with healthy controls. Hadrevi et al^{Reference Hadrevi, Jonsdottir, Jansson, Eriksson and Sjors45} analysed metabolomic patterns in plasma, reporting a difference in individuals with exhaustion disorder compared with healthy controls. Wallensten et al^{Reference Wallensten, Nager, Asberg, Borg, Beser and Wilczek66} found higher levels of extracellular vesicles expressing the astrocytic marker glial fibrillary acidic protein (GFAP) in exhaustion disorder participants compared with individuals with depression and a previously collected sample of healthy controls, as measured using flow cytometry in plasma. In another analysis of the same sample, an elevation in exhaustion disorder individuals compared with controls was found for the VEGF₁₂₆ isoform and total VEGF, but not for VEGF₁₆₅.^{Reference Wallensten, Mobarrez, Åsberg, Borg, Beser and Wilczek67} Total VEGF and VEGF₁₂₆ were positively correlated with GFAP and aquaporin-4 (AQP4)-expressing extracellular vesicles.

Neuroimaging studies

Two studies investigated associations between exhaustion disorder status or symptom severity and brain volumetric measures assessed by magnetic resonance imaging (MRI). Savic et al^{Reference Savic, Perski and Osika57} found lower cortical thickness in areas of the right prefrontal cortex and left superior temporal gyrus in individuals with exhaustion disorder relative to controls. Among subcortical regions, smaller volumes of the caudate nucleus bilaterally and larger volumes of the right amygdala were found in exhaustion disorder participants. In a subgroup of individuals assessed after an average of 9 months of stress rehabilitation, individuals with exhaustion disorder showed an increase in thickness in the right prefrontal cortex compared with controls. Both groups showed a decrease in caudate volumes over time, but the decrease was significantly less pronounced in exhaustion disorder compared with controls.^{Reference Savic, Perski and Osika57} Malmberg Gavelin et al^{Reference Malmberg Gavelin, Neely, Dunås, Eskilsson, Järvholm and Boraxbekk55} found smaller caudate volumes in exhaustion disorder participants who scored high on mental fatigue compared with those who scored low to moderate on mental fatigue. In another study by Savic et al,^{Reference Savic58} magnetic resonance spectroscopy was used to investigate different metabolite concentrations, and increased levels of glutamate were found in medial prefrontal cortex/anterior cingulate cortex in exhaustion disorder participants relative to controls.

Two studies investigated functional brain activity correlates of exhaustion disorder. Malmberg Gavelin et al^{Reference Malmberg Gavelin, Neely, Andersson, Eskilsson, Järvholm and Boraxbekk54} used task-based functional magnetic resonance imaging (fMRI) in exhaustion disorder individuals and found that self-rated symptoms of exhaustion were positively associated with activation in several brain regions during the 2-back condition of an n-back task but not in the 3-back condition. In an exploratory longitudinal subgroup analysis of 10 participants before and after cognitive training added to stress rehabilitation, larger increases in activation were shown compared with participants who had not received such training.^{Reference Malmberg Gavelin, Neely, Andersson, Eskilsson, Järvholm and Boraxbekk54} Skau et al^{Reference Skau, Jonsdottir, Sjörs Dahlman, Johansson and Kuhn63} examined exhaustion disorder individuals and healthy controls using functional near-infrared spectroscopy (fNIRS) during performance on six different cognitive tests. In a Stroop task, participants with exhaustion disorder showed attenuated blood flow compared with controls in areas of the left ventrolateral prefrontal cortex in the incongruent condition (i.e. when the target colour of words was incongruent with the written words) compared with the congruent condition.

Other biological measures

In a study by Sjörs et al,^{Reference Sjörs, Jansson, Eriksson and Jonsdottir60} allostatic load, defined as a composite of 13 different biomarkers, was found not to differ in individuals with exhaustion disorder compared with healthy controls. Lindegård et al^{Reference Lindegård, Wastensson, Hadzibajramovic and Grimby-Ekman53} found an increase in an indirect measure of maximal oxygen uptake in a female sample with exhaustion disorder, which was non-linearly associated with reductions in self-rated symptoms of exhaustion over several time points across 18 months. In a cross-sectional study by Olsson et al,^{Reference Olsson, Roth and Melin56} females with exhaustion disorder showed lower heart rate variability, higher temperature, lower peripheral O₂ saturation and lower end-tidal CO₂ levels compared with healthy female controls. Lennartsson et al^{Reference Lennartsson, Jonsdottir and Sjörs52} also found lower heart rate variability in exhaustion disorder participants compared with healthy controls and compared with individuals with non-clinical burnout. Jönsson et al,^{Reference Jönsson, Österberg, Wallergård, Hansen, Garde and Johansson47} however, found no difference in heart rate variability between individuals with and without exhaustion disorder at baseline or after the Trier Social Stress Test. In an uncontrolled study by Sonntag-Öström et al,^{Reference Sonntag-Öström, Nordin, Lundell, Dolling, Wiklund and Karlsson64} exposure to forest environments was associated with lower heart rate compared with exposure to a city environment in individuals with exhaustion disorder. Ekstedt et al^{Reference Ekstedt, Söderström and Åkerstedt44} found that recovery after rehabilitation was associated with improvement on several sleep parameters as measured with polysomnography in individuals with exhaustion disorder.

Summary and critical appraisal

Studies of HPA-axis measures, of which some were well powered, suggest no differences between individuals with and without exhaustion disorder despite the proposed key role of a dysregulated stress response in the disorder. Similarly, the limited number of studies investigating growth factors such as EGF and VEGF do not collectively indicate differences between individuals with and without exhaustion disorder. Regarding other outcomes, attempts at direct replication of findings are few and many studies had an exploratory design. In the two published structural MRI studies, lower volumes of caudate nuclei were found in individuals with exhaustion disorder compared with healthy controls and in exhaustion disorder participants who scored high versus low on mental fatigue. Several studies suffered from methodological limitations, including limited statistical power and lack of adequately matched control samples. In some neuroimaging studies there was a lack of customary correction for multiple comparisons. Especially in the four studies without a control group, no conclusions can be drawn regarding biological correlates that may be specific to exhaustion disorder.

Summary and critical appraisal

The KEDS and the SMBQ likelydiscriminate between those who have received an exhaustion disorder diagnosis and healthy individuals. The WHODAS 2.0 is indicated to discriminate between individuals with adjustment disorder and exhaustion disorder. There is a need for external validation and more studies investigating whether these self-rating scales can differentiate exhaustion disorder from other psychiatric or somatic conditions.

Cognitive and behavioural interventions

In an RCT by Salomonsson et al,^{Reference Salomonsson, Santoft, Lindsäter, Ejeby, Ljotsson and Ost92,Reference Salomonsson, Santoft, Lindsäter, Ejeby, Ingvar and Ljotsson93} participants with common mental disorders were randomised to cognitive behavioural therapy (CBT), a work-directed psychological intervention (return-to-work intervention, RTW-I) or a combination of CBT and RTW-I. Individuals with exhaustion disorder (59% of the total sample) who were randomised to CBT showed reduced clinician-rated symptom severity with a moderate between-group effect size pre- to post-intervention compared with those randomised to RTW-I. The combined treatment was neither superior nor inferior to CBT or RTW-I regarding symptom reduction. At a 1-year follow-up no differences between treatments remained. When the same CBT intervention was tested as an internet-based treatment (ICBT) compared with a waiting list control group in an RCT by Lindsäter et al,^{Reference Lindsäter, Axelsson, Salomonsson, Santoft, Ejeby and Ljotsson83} large between-group effect sizes were found on the primary outcome of perceived stress as well as on secondary outcomes of exhaustion symptoms and insomnia severity. Mediation analyses in the two studies indicated that reduced insomnia severity mediated the effect of CBT compared with control conditions on symptoms of exhaustion^{Reference Lindsäter, Axelsson, Salomonsson, Santoft, Ljótsson and Åkerstedt85,Reference Santoft, Salomonsson, Hesser, Lindsäter, Ljótsson and Lekander94} and level of perceived stress.^{Reference Lindsäter, Axelsson, Salomonsson, Santoft, Ljótsson and Åkerstedt85} Finnes et al^{Reference Finnes, Ghaderi, Dahl, Nager and Enebrink76} conducted an RCT in which the effect of acceptance and commitment therapy (ACT), a workplace dialogue intervention (WDI) and a combination of ACT and WDI were compared with treatment as usual (TAU) for individuals with common mental disorders (57% of whom were diagnosed with exhaustion disorder). Secondary symptoms of depression, anxiety and exhaustion improved with small to moderate effect sizes after ACT and the combined intervention relative to TAU pre- to post-intervention. There were no differences in symptoms between intervention groups and TAU at follow-up after 9 months. Two health-economic studies have been conducted, indicating that ICBT^{Reference Lindsäter, Axelsson, Salomonsson, Santoft, Ljotsson and Akerstedt84} and ACT^{Reference Finnes, Enebrink, Sampaio, Sorjonen, Dahl and Ghaderi77} are cost-effective treatments relative to their respective controls from a societal and healthcare perspective.

Work-place interventions/return-to-work

Karlson et al^{Reference Karlson, Jonsson, Palsson, Abjornsson, Malmberg and Larsson80} found that, after a brief ‘convergence dialogue meeting’ intervention (CDM; discussion between the person and their workplace supervisor to improve the job–person match), more individuals returned to work (defined as 25% working time or more) over the study period compared with matched controls. There were, however, no differences between groups regarding full work resumption at the 1.5-year follow-up. An additional 1 year later, there was still no difference between groups in full work resumption or in relapses into sick leave.^{Reference Karlson, Jonsson and Osterberg81} When a similar work-dialogue intervention was studied in the RCT by Finnes et al,^{Reference Finnes, Ghaderi, Dahl, Nager and Enebrink76} no differences were found in net days of sickness absence between the intervention groups relative to TAU pre- to post-intervention. During the 9-month follow-up period, however, the combined treatment (ACT + WDI) generated more sickness absence compared with TAU. In the RCT by Salomonsson et al,^{Reference Salomonsson, Santoft, Lindsäter, Ejeby, Ljotsson and Ost92} the RTW-I generated no additional effect on net days of sickness absence compared with CBT or CBT in combination with RTW-I for sick-listed individuals with exhaustion disorder.^{Reference Salomonsson, Santoft, Lindsäter, Ejeby, Ingvar and Ljotsson93} An interview study of participants after completing a dialogue-based workplace intervention nevertheless reported that support in the return-to-work process was perceived by participants as important for moving towards feelings of empowerment and confidence.^{Reference Strömbäck, Fjellman-Wiklund, Keisu, Sturesson and Eskilsson99}

Multimodal rehabilitation

One uncontrolled cohort study investigated the effect of a 24-week standardised multimodal rehabilitation programme (MMR) for individuals with exhaustion disorder.^{Reference van de Leur, Buhrman, Ahs, Rozental and Jansen100} The programme consisted of a combination of CBT group therapy, applied relaxation in group, individual psychotherapy, physiotherapy, lectures and medical treatment. A significant large within-group improvement on the main outcome of exhaustion symptoms was found post-treatment and was maintained to the 1-year follow-up.

Physical exercise

In a study by Lindegård et al,^{Reference Lindegård, Jonsdottir, Börjesson, Lindwall and Gerber82} physically inactive participants with exhaustion disorder who complied with general instructions for physical exercise given within MMR showed reduced symptoms of exhaustion with a small effect size 18 months after treatment start compared with participants who did not comply. Gerber et al^{Reference Gerber, Jonsdottir, Arvidson, Lindwall and Lindegård78} found no differences in self-reported physical activity after MMR when comparing a group who received a coached exercise programme with those who only received instructions to exercise. Both groups, however, reported increased exercise compared with baseline measurement. In an RCT by Eskilsson et al,^{Reference Eskilsson, Slunga Jarvholm, Malmberg Gavelin, Stigsdotter Neely and Boraxbekk74} group-based cycle training (as an add-on to MMR) was associated with a significant effect on a test of episodic memory post-intervention when compared with MMR only, but no effects on other cognitive domains or self-rated symptoms were found. At a 1-year follow-up, there were no differences between groups regarding cognitive functioning or self-rated symptoms.^{Reference Malmberg Gavelin, Eskilsson, Boraxbekk, Josefsson, Stigsdotter Neely and Slunga Järvholm87}

Cognitive training

In an RCT by Malmberg Gavelin et al,^{Reference Eskilsson, Fjellman-Wiklund, Ek Malmer, Stigsdotter Neely, Malmberg Gavelin and Slunga Jarvholm75,Reference Malmberg Gavelin, Boraxbekk, Stenlund, Jarvholm and Neely86,Reference Malmberg Gavelin, Eskilsson, Boraxbekk, Josefsson, Stigsdotter Neely and Slunga Järvholm87} participants who received a cognitive training programme as a complement to MMR showed a small, significant improvement on the trained memory task as well as small improvements on three of nine transfer tests (executive functioning and episodic memory) post-intervention, relative to participants who received only MMR.^{Reference Malmberg Gavelin, Boraxbekk, Stenlund, Jarvholm and Neely86} At a 1-year follow-up, participants in the cognitive training group showed sustained improvement on the trained memory task, but also a small transfer effect in the form of improved global cognitive score relative to controls.^{Reference Malmberg Gavelin, Eskilsson, Boraxbekk, Josefsson, Stigsdotter Neely and Slunga Järvholm87} No differences between groups were found on the separate cognitive tests that were reported in the first publication, and no between-group differences were found on self-rated symptom domains at follow-up.^{Reference Malmberg Gavelin, Eskilsson, Boraxbekk, Josefsson, Stigsdotter Neely and Slunga Järvholm87}

Nature/gardening/horticulture

In an uncontrolled pilot study by Sonntag-Öström et al,^{Reference Sonntag-Öström, Nordin, Slunga Järvholm, Lundell, Brännström and Dolling95} more positive ratings of mental state were reported after 11 weeks of visiting different forest environments. A subsequent RCT comparing a forest rehabilitation group and a waiting list control group showed no differences between groups on mental health outcomes or sick leave.^{Reference Sonntag-Öström, Nordin, Dolling, Lundell, Nilsson and Slunga Järvholm96} In interviews participants described the intervention as ‘insufficient as rehabilitation’.^{Reference Sonntag-Öström, Stenlund, Nordin, Lundell, Ahlgren and Fjellman-Wiklund97} In an uncontrolled study by Nordh et al,^{Reference Nordh, Grahn and Währborg89} an intervention teaching recreational activities in forest environments was found to reduce stress but had no significant effect on symptoms of exhaustion or functioning and was associated with a significant reduction in quality of life at the end of the intervention. Two interview studies by Adevi and colleagues indicated that a 12-week multimodal therapy focused on nature and traditional gardening and handicraft activities was perceived by rehabilitation personnel to be helpful for recovery of exhaustion disorder participants,^{Reference Adevi and Lieberg72} whereas exhaustion disorder participants who were interviewed reported that the recovery process needs to be initiated by more traditional forms of therapy.^{Reference Adevi and Mårtensson73} Millet et al^{Reference Millet88} found small improvements in mental health outcomes in an uncontrolled pilot study investigating the integration of horticulture into vocational rehabilitation.

Alternative and complementary treatments

A double-blind RCT by Olsson et al^{Reference Olsson, von Schéele and Panossian90} found Rhodiola rosea extract to reduce the primary outcome of exhaustion symptoms compared with placebo controls at follow-up after 28 days. Stenlund et al^{Reference Stenlund, Birgander, Lindahl, Nilsson and Ahlgren98} conducted another RCT and found no differences in primary or secondary health outcomes between participants who received qigong as a complement to care as usual and those who only received care as usual. In a third RCT, by Grensman et al,^{Reference Grensman, Acharya, Wandell, Nilsson, Falkenberg and Sundin79} no differences between group treatments consisting of traditional yoga, mindfulness-based CBT or CBT were found on the main outcome of health-related quality of life. African dance as an intervention for exhaustion disorder was not associated with improvements on the main outcome of hyperventilation compared with no intervention in a non-randomised trial conducted by Ristiniemi et al,^{Reference Ristiniemi, Perski, Lyskov and Emtner91} but a significant time × group interaction effect was found indicating positive effects on symptoms of exhaustion and depression.

Summary and critical appraisal

A multitude of interventions have been investigated for exhaustion disorder, but the evidence for any one type of intervention is limited. Obtained results suggest that sick leave decreases over time independent of intervention. Three RCTs indicate symptom reduction in exhaustion disorder participants after cognitive behavioural interventions (including ACT) relative to control conditions post-intervention, but no between-group differences remain at follow-ups. There is inconclusive evidence that cognitive training may have transfer effects on cognitive functioning in individuals with exhaustion disorder. Physical exercise in the treatment of individuals with exhaustion disorder has been insufficiently studied, as have various alternative and complementary treatments. Owing to methodological limitations (e.g. no control for confounding factors in non-randomised trials, generally small samples, unspecified primary outcomes, and significant attrition in some studies), no firm conclusions can be drawn about the effectiveness of interventions for individuals with exhaustion disorder. Notably, even though MMR is an intervention that is commonly used in clinical settings^{Reference Glise, Ahlborg and Jonsdottir23,Reference Malmberg Gavelin, Eskilsson, Boraxbekk, Josefsson, Stigsdotter Neely and Slunga Järvholm87,Reference Strömbäck, Fjellman-Wiklund, Keisu, Sturesson and Eskilsson99} and is recommended by the Swedish National Board of Health and Welfare, only one study explicitly examined MMR, using a non-controlled design. No studies were found that examined the effect of seemingly common pharmacological treatments for exhaustion disorder, such as antidepressant medication.^{Reference Grensman, Acharya, Wandell, Nilsson and Werner26,Reference Skoglund, Björkelund, Svenningsson, Petersson, Augustsson and Nejati33}