Fatigue in Chronic Pain - Cognition, Emotional Aspects, Biomarkers, and Neuronal Correlates
NCT ID: NCT05452915
Last Updated: 2023-07-13
Study Results
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Basic Information
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COMPLETED
72 participants
OBSERVATIONAL
2018-01-01
2022-12-31
Brief Summary
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The main objectives are:
1. Do patients with chronic pain show more pronounced self-rated mental fatigue and cognitive fatigue compared to healthy controls and are fatigue measures related to cognitive functions such as process speed and attention functions?
2. What is the relationship between cognitive impairments, mental fatigue, or fatigability and
1. the duration of pain
2. generalization of pain and are they affected by covariates, such as sleep disorders and degree of depression/anxiety?
3. Is there an association between immunological biomarkers and cognitive functions/mental fatigue/cognitive fatigability?
4. Does the connectivity in the brain of patients with chronic pain differ from healthy controls at rest as well as during activity while performing a vigilance task?
5. Is there an association between connectivity in the brain and
1. immunological biomarkers
2. fatigability and
3. results on neuropsychological tests?
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Detailed Description
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However, fatigue is not only a subjective experience but can also be associated with impaired cognitive functioning. In patients with acquired brain injuries, fatigue has been linked to impaired attention, slower process speed and fatigue. Since objective measures have not been used in previous studies in chronic pain, it cannot be ruled out that fatigue and cognitive impairments may have similar underlying mechanisms.
To enable effective treatment, one needs to find markers that can distinguish different causes of fatigue (depression vs. impaired cognitive functions) from each other. Fatigue in cognitively demanding tasks can be such a marker, which has been shown in patients with mild traumatic brain injury and hormonal conditions. One theory is that the same mechanisms may play a role in CP.
In chronic pain the central nervous system is affected by an imbalance in the brain's pathway system, which leads to plastic changes in the brain. In particular, pain activates areas of the brain that are important for attention functions, which may explain why many patients with pain experience attention deficit disorders. Only a few studies have used objective tests to study the type and extent of cognitive problems and cognitive fatigue has not been studied before in patients with CP.
Functional MRI (fMRI) may reflect increased or decreased neuronal activity in the brain as changes in neuronal activity are linked to changes in regional blood flow (rCBF) and blood oxygenation levels (BOLD). Fatigue in mild traumatic brain injury is related to altered connectivity in the brain and that there are different neural networks that are related to subjective compared to objective measures of fatigue. Also in chronic pain, connectivity changes have been seen and that low back pain and rheumatic pain give different connectivity changes. These studies did not include fatigue and fatigue and did not link them to activity during the fMRI study itself.
Chronic low-grade systemic inflammation is also thought to play a major role in the onset of CP. Studies have shown that patients with generalized pain / fibromyalgia have elevated levels of immunological biomarkers. Similar results have been demonstrated in patients with neuropathic pain. It is unclear whether patients with other types of pain also have elevated levels of these proteins. It is also unknown if there is any relationship between immunological biomarkers and other variables such as fatigue and cognition.
In order to improve and diagnostic and prognostic models as well as develop the treatment pharmacologically and / or with cognitive training, the connection between pain and underlying pathophysiological mechanisms needs to be studied further with objective markers.
Pain rehabilitation clinics at the Department of Rehabilitation Medicine, Danderyd University Hospital and at the Department of Pain Rehabilitation, Pain Center, Umeå University Hospital offer assessment and evidence-based team-based multimodal rehabilitation for patients with complex chronic pain.
To receive rehabilitation at the clinics, a referral is required. Information about the study is sent to the referred patients at the same time as the call for initial assessment.
At time for the team assessment, the patient is asked orally by the team nurse if the testing psychologist may contact the patient to inform about the study.
All participants are provided oral and written information and will give informed consent to participate in the study. The patient's consent is recorded and a log is made of the number who accept to participate and the number and gender of those who decline and why they chose to decline. No personal data other than gender will be registered on those who say no. The purpose of the log is only to be able to assess generalizability based on the proportion who have agreed to participate in the study.
The testing psychologist then calls the patient and inform them about the study and if the patient agrees, an appointment is made for the neuropsychological investigation, which takes about an hour.
In connection with the assessment, the psychologist ensures that the patients have understood the information, inquire about whether they have further questions and collect the consent form.
In connection with the patient being asked to participate in the study, patients investigated at the Department of Pain Rehabilitation at Umeå University Hospital are asked if they also want to participate in the fMRI study.
Healthy controls will be recruited through advertising among hospital staff. Matching at group level will take place regarding age, gender and level of education.
The patients are assessed by an independent psychologist, who does not see the patients clinically. In the statistical processing, the participants will be coded. Code key is stored separately.
Background information is received from the Swedish Quality Register for Pain Rehabilitation (SQRP) as well as information about medication. Possible trauma and background information from the time of the injury and degree of sick leave will be obtained from the medical record.
Immunological markers will be taken from a total of 36 patients and 36 controls. Everyone participating in the fMRI examination will take blood samples.
Analysis of fMRI data will be done with special software for MRI analysis, developed at Oxford University (http://www.fmrib.ox.ac.uk/fsl/). Statistical comparison of gray matter volume, white matter damage and blood flow at rest and in cognitive activation is done in specific analysis modules where MRI data from the different groups are compared at pixel level (voxels) with methodology specifically developed for the different MRI modalities.
Data from omics and targeted analysis will be analyzed using advanced multivariate data analysis using SIMCA-P+, that is recommended method in omics where it account for multicollinearity problems and missing data and when the numbers of variable exceed the number of observations. This technology is well established at PAINOMICS lab in Linköping, Sweden.
Conditions
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Study Design
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CASE_CONTROL
CROSS_SECTIONAL
Study Groups
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Chronic Pain
Patients with chronic pain, aged 18 - 50 years for the neuropsychological assessment and 18-45 years for the fMRI examination
Neuropsychological (NPA)
The neuropsychological assessment consists of following tests and questionnaires:
* Wechsler Adult Intelligence Scale (WAIS)-III: Digit-Symbol-Coding (Coding)
* WAIS-IV: Digit Span, Matrix reasoning
* Delis-Kaplan Executive Function Scale (D-KEFS): Color-Word Test, Word Fluency Test
* Ruff 2 \& 7
* MapCog Spectra
Questionnaires:
* EuroQoL five dimensions questionnaire (EQ5D)
* Hospital Anxiety and Depression Scale (HADS)
* Insomnia Severity Index (ISI)
* Multidimensional Fatigue Inventory-20 (MFI-20)
* Multidimensional Pain Inventory (MPI)
* Screening questions on physical activity
* Visual analogue scale on fatigue (VAS-f) before and after NPA
* Visual analogue scale on fatigue (VAS-f) and pain before and after the fMRI scanning.
* Pain level, experienced during the NPA, will be rated (0-10) at the end of the session
Imaging
Imaging (24 patients + 22 controls):
BOLD resting-state before and after 20-min vigilance task (e-prime). During the vigilance task, fMRI is performed.
Clinical protocol:
1. High-resolution T1-weighted.
2. High-resolution T2-weighted Scan (FLAIR).
Inflammatory biomarkers
Blood samples from inflammatory biomarkers will be taken on 36 patients and 36 controls. Everyone who undergoes imaging will undergo blood tests.
Healthy Controls
Healthy controls matched on group level in terms of gender, age, and educational level
Neuropsychological (NPA)
The neuropsychological assessment consists of following tests and questionnaires:
* Wechsler Adult Intelligence Scale (WAIS)-III: Digit-Symbol-Coding (Coding)
* WAIS-IV: Digit Span, Matrix reasoning
* Delis-Kaplan Executive Function Scale (D-KEFS): Color-Word Test, Word Fluency Test
* Ruff 2 \& 7
* MapCog Spectra
Questionnaires:
* EuroQoL five dimensions questionnaire (EQ5D)
* Hospital Anxiety and Depression Scale (HADS)
* Insomnia Severity Index (ISI)
* Multidimensional Fatigue Inventory-20 (MFI-20)
* Multidimensional Pain Inventory (MPI)
* Screening questions on physical activity
* Visual analogue scale on fatigue (VAS-f) before and after NPA
* Visual analogue scale on fatigue (VAS-f) and pain before and after the fMRI scanning.
* Pain level, experienced during the NPA, will be rated (0-10) at the end of the session
Imaging
Imaging (24 patients + 22 controls):
BOLD resting-state before and after 20-min vigilance task (e-prime). During the vigilance task, fMRI is performed.
Clinical protocol:
1. High-resolution T1-weighted.
2. High-resolution T2-weighted Scan (FLAIR).
Inflammatory biomarkers
Blood samples from inflammatory biomarkers will be taken on 36 patients and 36 controls. Everyone who undergoes imaging will undergo blood tests.
Interventions
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Neuropsychological (NPA)
The neuropsychological assessment consists of following tests and questionnaires:
* Wechsler Adult Intelligence Scale (WAIS)-III: Digit-Symbol-Coding (Coding)
* WAIS-IV: Digit Span, Matrix reasoning
* Delis-Kaplan Executive Function Scale (D-KEFS): Color-Word Test, Word Fluency Test
* Ruff 2 \& 7
* MapCog Spectra
Questionnaires:
* EuroQoL five dimensions questionnaire (EQ5D)
* Hospital Anxiety and Depression Scale (HADS)
* Insomnia Severity Index (ISI)
* Multidimensional Fatigue Inventory-20 (MFI-20)
* Multidimensional Pain Inventory (MPI)
* Screening questions on physical activity
* Visual analogue scale on fatigue (VAS-f) before and after NPA
* Visual analogue scale on fatigue (VAS-f) and pain before and after the fMRI scanning.
* Pain level, experienced during the NPA, will be rated (0-10) at the end of the session
Imaging
Imaging (24 patients + 22 controls):
BOLD resting-state before and after 20-min vigilance task (e-prime). During the vigilance task, fMRI is performed.
Clinical protocol:
1. High-resolution T1-weighted.
2. High-resolution T2-weighted Scan (FLAIR).
Inflammatory biomarkers
Blood samples from inflammatory biomarkers will be taken on 36 patients and 36 controls. Everyone who undergoes imaging will undergo blood tests.
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
Exclusion Criteria
* Extensive psychiatric problems or substance abuse
* Congenital or acquired brain injury and / or does not live in their own home and who needs support in everyday life
* Not sufficient knowledge of the Swedish language
* Progressive disease
* Abuse
* Use of drugs with a strong sedative effect
* Pregnancy
Additional exclusion for Imaging:
* Over 45 years of age
* Male subjects
* Metal objects implanted in the body or metal chips in body parts
* Afraid of cramped spaces
* Left-handedness
18 Years
50 Years
ALL
Yes
Sponsors
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University Hospital, Umeå
OTHER
Karolinska Institutet
OTHER
Umeå University
OTHER
Linkoeping University
OTHER_GOV
Danderyd Hospital
OTHER
Responsible Party
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Marika Moller
Associate Professor
Principal Investigators
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Marika C Möller, PhD
Role: PRINCIPAL_INVESTIGATOR
Department of Rehabilitation Medicine, Danderyd Hospital
Locations
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Pain and Rehabilitation Centre
Linköping, , Sweden
Department of Rehabilitation Medicine, Danderyd Hospital
Stockholm, , Sweden
Department of Community Medicine and Rehabilitation
Umeå, , Sweden
Countries
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References
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Apkarian AV. Human Brain Imaging Studies of Chronic Pain: Translational Opportunities. In: Kruger L, Light AR, editors. Translational Pain Research: From Mouse to Man. Boca Raton (FL): CRC Press/Taylor & Francis; 2010. Chapter 15. Available from http://www.ncbi.nlm.nih.gov/books/NBK57254/
Backryd E, Lind AL, Thulin M, Larsson A, Gerdle B, Gordh T. High levels of cerebrospinal fluid chemokines point to the presence of neuroinflammation in peripheral neuropathic pain: a cross-sectional study of 2 cohorts of patients compared with healthy controls. Pain. 2017 Dec;158(12):2487-2495. doi: 10.1097/j.pain.0000000000001061.
DeLuca, J. (2005). Fatigue: Its Definition, Its Study and Its Future. In J. DeLuca (Ed.), Fatigue as a window to the brain (pp. 319-325). MIT Press.
Gerdle B, Backryd E, Falkenberg T, Lundstrom E, Ghafouri B. Changes in inflammatory plasma proteins from patients with chronic pain associated with treatment in an interdisciplinary multimodal rehabilitation program - an explorative multivariate pilot study. Scand J Pain. 2019 Dec 18;20(1):125-138. doi: 10.1515/sjpain-2019-0088.
Hasselstrom J, Liu-Palmgren J, Rasjo-Wraak G. Prevalence of pain in general practice. Eur J Pain. 2002;6(5):375-85. doi: 10.1016/s1090-3801(02)00025-3.
Hysing EB, Smith L, Thulin M, Karlsten R, Bothelius K, Gordh T. Detection of systemic inflammation in severely impaired chronic pain patients and effects of a multimodal pain rehabilitation program. Scand J Pain. 2019 Apr 24;19(2):235-244. doi: 10.1515/sjpain-2018-0340.
Johansson B, Berglund P, Ronnback L. Mental fatigue and impaired information processing after mild and moderate traumatic brain injury. Brain Inj. 2009 Dec;23(13-14):1027-40. doi: 10.3109/02699050903421099.
Kluger BM, Krupp LB, Enoka RM. Fatigue and fatigability in neurologic illnesses: proposal for a unified taxonomy. Neurology. 2013 Jan 22;80(4):409-16. doi: 10.1212/WNL.0b013e31827f07be.
Kurtze N, Svebak S. Fatigue and patterns of pain in fibromyalgia: correlations with anxiety, depression and co-morbidity in a female county sample. Br J Med Psychol. 2001 Dec;74(Pt 4):523-37. doi: 10.1348/000711201161163.
Moller MC, Nordin LE, Bartfai A, Julin P, Li TQ. Fatigue and Cognitive Fatigability in Mild Traumatic Brain Injury are Correlated with Altered Neural Activity during Vigilance Test Performance. Front Neurol. 2017 Sep 21;8:496. doi: 10.3389/fneur.2017.00496. eCollection 2017.
Moriarty O, McGuire BE, Finn DP. The effect of pain on cognitive function: a review of clinical and preclinical research. Prog Neurobiol. 2011 Mar;93(3):385-404. doi: 10.1016/j.pneurobio.2011.01.002. Epub 2011 Jan 7.
Möller, M. C., Bartfai, A., Nygren de Boussard, C., Flöter Rådestad, A., & Calissendorff, J. (2014). High rates of fatigue in newly diagnosed Graves' disease. Fatigue: Biomedicine, Health & Behavior, 2(3), 153-162
Moller MC, Nygren de Boussard C, Oldenburg C, Bartfai A. An investigation of attention, executive, and psychomotor aspects of cognitive fatigability. J Clin Exp Neuropsychol. 2014;36(7):716-29. doi: 10.1080/13803395.2014.933779. Epub 2014 Jun 26.
Moller MC, Radestad AF, von Schoultz B, Bartfai A. Effect of estrogen and testosterone replacement therapy on cognitive fatigue. Gynecol Endocrinol. 2013 Feb;29(2):173-6. doi: 10.3109/09513590.2012.730568. Epub 2012 Oct 25.
Ng SK, Urquhart DM, Fitzgerald PB, Cicuttini FM, Hussain SM, Fitzgibbon BM. The Relationship Between Structural and Functional Brain Changes and Altered Emotion and Cognition in Chronic Low Back Pain Brain Changes: A Systematic Review of MRI and fMRI Studies. Clin J Pain. 2018 Mar;34(3):237-261. doi: 10.1097/AJP.0000000000000534.
Nordin LE, Moller MC, Julin P, Bartfai A, Hashim F, Li TQ. Post mTBI fatigue is associated with abnormal brain functional connectivity. Sci Rep. 2016 Feb 16;6:21183. doi: 10.1038/srep21183.
Ziino C, Ponsford J. Selective attention deficits and subjective fatigue following traumatic brain injury. Neuropsychology. 2006 May;20(3):383-90. doi: 10.1037/0894-4105.20.3.383.
Moller MC, Berginstrom N, Ghafouri B, Holmqvist A, Lofgren M, Nordin L, Stalnacke BM. Cognitive and mental fatigue in chronic pain: cognitive functions, emotional aspects, biomarkers and neuronal correlates-protocol for a descriptive cross-sectional study. BMJ Open. 2023 Mar 29;13(3):e068011. doi: 10.1136/bmjopen-2022-068011.
Other Identifiers
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2018.424-31 Fatigue in pain
Identifier Type: -
Identifier Source: org_study_id
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