Background Functional somatic disorders (FSD) are characterized by specific patterns of
persistent physical symptoms with a complex etiology involving a multiform interplay between
physiological, psychological, and socio-cultural factors. Patients with FSD are prevalent in
all medical settings and receive diagnoses such as fibromyalgia, chronic fatigue syndrome,
irritable bowel syndrome, and other functional somatic syndromes (FSS) depending on which
medical specialty they consult. Multisystem FSD describes a severely affected subgroup of
patients who suffer from symptoms from multiple organ systems. The diagnosis can be
operationalized by the criteria for the unifying research diagnosis bodily distress syndrome
(BDS).
Multisystem FSD affects 1.3-2.2% of the general population. The condition inflicts suffering
and is associated with a substantial socioeconomic impact, involving costly diagnostic
examinations and procedures, sick leaves, and long-term disability.
Evidence on treatment options for multisystem FSD is emerging but not yet sufficient. A
number of clinical trials investigating non-pharmacological interventions are available and
clinical guidelines in some FSS, e.g. fibromyalgia and chronic primary pain, highlight the
importance of patient education (PE). PE may support the effect of other treatments by
empowering and engaging patients in managing their condition. As a stand-alone treatment, the
effect of PE has only sparsely been investigated, yet a PE program targeting multisystem FSD
has been tested in an uncontrolled pilot study with promising results.
Pharmacotherapy in FSS includes centrally acting drugs, especially antidepressants. In
multisystem FSD, evidence exists for treatment with low-dose tricyclic antidepressants (TCA).
Unfortunately, TCAs given in higher, antidepressive doses significantly reduces tolerability
and thereby treatment potential for comorbid depression or anxiety which are common in
multisystem FSD. Duloxetine, a serotonin-norepinephrine reuptake inhibitor (SNRI), offers
effect sizes similar to low-dose TCA in FSS with a more favorable adverse event profile.
Evidence furthermore suggests an effect on cognitive functioning. In addition to reducing
symptoms in multisystem FSD, duloxetine could improve cognitive functioning and, if relevant,
treat comorbid anxiety and depression.
From a clinical perspective, a synergic effect between a PE program and pharmacological
treatment could be hypothesized. On one hand, PE may improve the effect of pharmacological
treatment by balancing treatment expectations and enhancing treatment adherence. Conversely,
pharmacological treatment may indirectly enhance the effect of PE by improving cognitive
functioning and thereby improving the patients' ability to receive and implement relevant
educational elements.
As mentioned above, the etiology of FSD is complex and especially the role of biological
factors remains largely undiscovered. Research findings support involvement of the immune
system, neuroendocrine and neurotransmitter systems, pain processing and gut microbiota. In
order to investigate the relevance of such components in multisystem FSD, this study will
collect blood, plasma and feces from participants and healthy controls in order to establish
a biobank enabling future research in these relevant factors.
Purpose and aim The EDULOX trial aims to investigate the effect of a PE program compared with
enhanced usual care (EUC) for patients with multisystem FSD in EDULOX1. Additionally, the
study investigates the effect of treatment with duloxetine 60 mg daily against active placebo
and explores the effect of combinations of the two interventions in EDULOX2. This is to our
knowledge the first study to investigate the combination of medical treatment and PE for
patients with multisystem FSD.
By establishing a biobank with blood, plasma and feces from both EDULOX participants and
healthy controls, the EDULOX trial furthermore aims to identify possible biomarkers in
multisystem FSD and relate these to the outcome measures in the study.
Hypothesis EDULOX1:
The primary hypothesis is that the PE program is superior to EUC in improving patient-rated
health-related quality of life measured by a Short-Form Health Survey (SF-36) aggregate score
and patient-rated overall health measured by the Clinical Global Improvement Scale (CGI).
Hypothesis EDULOX2:
The primary hypothesis is that duloxetine is superior to active placebo in improving the
SF-36 aggregate score, the CGI and cognitive functioning measured by Cognitive Failures
Questionnaire (CFQ) at end of treatment.
Exploratory hypothesis:
There is a synergistic effect of receiving both PE and duloxetine, i.e. participants
receiving both interventions show larger improvement in SF-36 aggregate score and CGI, than
would be expected from simple additive effect of each intervention.
Hypothesis biobank We hypothesize that the immune system, hypothalamic-pituitary-adrenal
axis, neurotransmitter levels, symptom- and/or pain processes are changed, and that the gut
microbiota is disturbed. Changes are correlated to the severity of symptoms.
Methods For study design please see separate segment in the clinical trial registration.
Setting The project is initiated and managed by the Research Clinic for Functional Disorders
and Psychosomatics (RCF), Aarhus University Hospital (AUH), Denmark. Participants will be
recruited from eligible patients from the RCF, AUH or patients referred to the RCF for
possible participation from the Pain and Headache Clinic, AUH, Center for Functional
Disorders, the Hospital Lillebælt, and the Center for Functional Disorders, Aalborg
University Hospital.
Interventions Please see Arms and Interventions segment of the clinical trial registration.
Data sources and effect measures Data sources include patient-rated outcomes, clinician-rated
outcomes, and a qualitative evaluation consisting of 10-15 patient interviews examining
acceptability and patient experiences regarding the PE intervention.
Questionnaire data will be collected at 5 time points:
T0: Baseline (before inclusion)
T1: Week 0 (before randomization)
T2: Week 6 (during treatment)
T3: Week 12 (end of treatment, primary endpoint)
T4: 3-months follow-up after end of treatment
Naturalistic follow-up measurements are collected at 12 and 24 months from randomization (T5
and T6).
Please see further details in the Outcome Measures segment of the clinical trial
registration.
Acceptability and feasibility measures Acceptability and feasibility measures will be
collected from the first 40 participants. Reasons for non-participation, drop-out and
breaking protocol will be analyzed. These data will be used to identify any major obstacles
for the smooth running of the EDULOX. Patient acceptancy will be investigated through the
Experience of Service Questionnaire and through a qualitative interview study with 10-15
planned semi-structured interviews.
Feasibility criteria are based on prior studies and will include:
Inclusion rate more than 85% on the PE trial and 45% on the duloxetine trial.
Drop-out will be less than 15% (reasons for drop out will be analyzed)
More than 90% of the participants allocated to receive PE completes the PE program by
attending at least two individual sessions and the group PE session
Missing data will be less than 15%
Questionnaire response-rate of minimum 90% at baseline and minimum 85% for the endpoint
questionnaires (12 weeks, T3)
PE will prove acceptable to patients with a patient satisfaction score of moderate to
high
Blinding in the duloxetine trial will be sufficient
Safety and monitoring The safety profile of duloxetine is well-described for patients with
fibromyalgia and patients will be informed about the most common and the most severe adverse
events for both duloxetine and benztropine mesylate.
Safety is assessed by collecting information on adverse events by the clinician (final visit,
all contacts regarding adverse events). Patients are instructed to contact the project nurse
by phone if experiencing any problems with the study drug. The nurse will have access to
advice from medical doctors. Project workers can be contacted by telephone at all times if
acute unblinding is required.
The project will be conducted in accordance with the Helsinki Declaration (II). General
procedures for quality control and quality assurance will be followed. All protocol
violations will be recorded. The quality and safety of the project are monitored by the Good
Clinical Practise GCP unit at Department of Clinical Medicine, Aarhus University.
Discussion Solid and rigidly designed intervention studies for patients suffering from severe
functional somatic disorders are highly needed. A documented positive effect of duloxetine
will provide clinicians with an easily delivered pharmacological treatment option, and
furthermore, new cost-effective treatment approaches arise if study results suggest a
synergic effect of the combination of duloxetine and PE.
Such results could support the development of a stepped care model securing better treatment
faster for those who can benefit from treatment in less specialized settings. This is of
great significance since many clinics currently have waiting lists of more than a year,
risking possible chronification of symptoms while patients wait for relevant treatment.
A biobank with relevant biological samples may enable future research into important
etiological factors of FSD which remains largely uncovered. Insight into such possible
biomarkers and their relation to the severity of the disorder could open up new possibilities
for targeted treatment.
