Parkinson's Disease Clinical Trial
— MIND-PDOfficial title:
The Effect of Mindfulness-based Cognitive Therapy on Psychological Distress in People With Parkinson's Disease
Parkinson's disease (PD) is a debilitating neurodegenerative disorder occurring in 7 million patients worldwide. PD is caused by progressive loss of nigro-striatal dopamine cells, which causes motor symptoms such as slowness of movement and tremor, and non-motor symptoms such as cognitive dysfunction. Converging clinical evidence indicates that PD patients are very sensitive to the effects of psychological stress. There is a high prevalence of stressrelated neuropsychiatric symptoms in PD: 30-40% of patients experience depression and 25-30% have anxiety. Furthermore, stress worsens many motor symptoms, e.g. tremor, freezing of gait, and dyskinesia. In addition to these immediate negative effects, chronic stress may also have detrimental long-term consequences, and specifically by accelerating disease progression, as suggested by animal models. However, this hypothesis remains to be confirmed in humans. Better evidence about the impact of stress on PD would have major treatment consequences: novel stress-reducing interventions may have symptomatic effects, and perhaps also disease-modifying effects. The aim of this study is to test whether a stress-reducing intervention improves clinical symptoms, slows neurodegeneration, and/or enhances neuroplasticity in PD. In a randomized controlled trial, the investigators will compare a stress-reducing mindfulness-based intervention group (MBI; one year) to a treatment as usual (TAU) group on clinical symptoms, cerebral markers of nigro-striatal dysfunction and stressor-reactivity (MRI), and inflammatory markers (serum).
Status | Recruiting |
Enrollment | 124 |
Est. completion date | January 2027 |
Est. primary completion date | January 2026 |
Accepts healthy volunteers | No |
Gender | All |
Age group | N/A and older |
Eligibility | Inclusion Criteria: - A diagnosis of idiopathic PD made by a movement disorders specialist. - PD disease duration is =10 years, defined as time since diagnosis made by a neurologist. - Mild-moderate symptoms of psychological distress (Hospital Anxiety and Depression Scale score >10 points). - Subject can read and understand the Dutch language. Exclusion Criteria: - Severe neurological or psychiatric co-morbidity (e.g. psychosis or suicidality). - Contraindications for MRI (e.g. brain surgery in medical history, claustrophobia, an active implant, epilepsy, pregnancy, and/or metal objects in the upper body that are incompatible with MRI). - Moderate to severe head tremor (to avoid artifacts caused by extensive head motion during scanning). - Cognitive dysfunction (clinical diagnosis of dementia, or a score of 20 or lower on the MoCA, which will be measured at T0). - Previous participation in MBSR or MBCT (>4 sessions). |
Country | Name | City | State |
---|---|---|---|
Netherlands | Donders Centre for Cognitive Neuroimaging | Nijmegen |
Lead Sponsor | Collaborator |
---|---|
Radboud University Medical Center |
Netherlands,
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Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Psychological distress post-intervention (as assessed by HADS [0-42]) | Our primary outcome will be psychological distress (anxiety and depressive symptoms), measured by the Hospital Anxiety and Depression Scale (HADS) at T1 (post-intervention). The HADS is a validated self-report questionnaire consisting of anxiety and depression subscales, scores can range from 0-42 points. Lower scores mean less stress, i.e. better outcome. It was previously used as primary outcome measure in an MBCT-RCT in cancer, it was used as outcome measure in the largest MBI-RCT to date in PD, and it has been validated in PD.
The effect on HADS will all be analyzed with an analysis of covariance (ANCOVA). The dependent variable will be the HADS score at T1; group allocation will serve as fixed factors, and age at T0, sex and the HADS score at T0 will serve as covariates. |
Month 2 | |
Secondary | Change in psychological distress (as assessed by HADS [0-42]) | HADS [0-42] (lower score = better (less stress), see also primary outcome. | Month 12. Change relative to baseline. | |
Secondary | Disease severity (as assessed by MDS-UPDRS [0-199]) | MDS-UPDRS [0-199] (higher score = worse (more disability)). We will assess overall symptom severity as a function of time T0/T1/T2 and group (MBCT vs. TAU). | Month 0, month 2, month 12. | |
Secondary | Cognitive function (as assessed by MoCA [0-30]) | Montreal Cognitive Assessment; MoCA [0-30] (higher score = better (less disability)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 12. | |
Secondary | Tremor severity (indicated by tremor power [log(µV2)]) | We will compare tremor severity as measured with accelerometry during rest, mental arithmetic (coco), posturing and action. We will perform a 2x2x2 ANOVA with between-subjects factor GROUP (MBCT vs. control), and within-subjects factors TIME (T0 vs. T2) and CONDITION (coco vs. rest, posture vs. rest, action vs. rest). | Month 0, month 2, month 12. | |
Secondary | Hair cortisol | Hair cortisol levels will be established by means of a hair sample and hair cortisol concentration of the previous 2 months will be assessed and compared between T0/T1/T2 and between groups (MBCT/TAU) | Month 0, month 2, month 12. | |
Secondary | Bradykinesia severity (indicated by average keys per second on key tapping test) | We will measure bradykinesia severity by means of a keyboard finger tapping test. Average keys pressed per seconds will be used as dependent variable. More keys per second = less disability. We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 12. | |
Secondary | Inflammatory tone (as assessed by serum C-reactive protein) | We will be assessing inflammatory tone by means of serum C-reactie protein (CRP) levels. Higher CRP = more inflammation. | Month 0, month 2, month 12. | |
Secondary | Quality of life questionnaire (as assessed by PDQ-39 [0-100]) | Parkinson Disease Questionnaire 39; PDQ-39 [0 - 100] (higher score = worse (more disability)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Perceived stress (as assessed by PSS [0-40]) | Perceived Stress Scale; PSS [0 - 40] (higher score = worse (more perceived stress)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Rumination (as assessed by RRS [26-104]) | Ruminative Response Scale; RRS [26-104] (higher score = worse (more ruminative thoughts)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Mindfulness skills (as assessed by FFMQ [39-195]) | Five Facet Mindfulness Questionnaire Short Form; FFMQ [39-195] (higher score = better (more mindfulness skills)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Self-compassion as assessed by SCS [12-84]) | Self-Compassion Short Form; SCS [12-84] (higher score = better (more self compassion)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Self-efficacy (as assessed by GSES [10-40]) | General Self-Efficacy Scale; GSES [10-40] (higher score = better (more self efficacy)) We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Positive appraisal (as assessed by PASS) | Positive Appraisal Style Scale; PASS [for each coping style: 2-10, for humor: 1-8] We will test whether clinical scores change significantly between T0, T1 and T2 using mixed models. | Month 0, month 2, month 6, month 12. | |
Secondary | Decision making task | Patients will perform a neuropsychological task designed to track individual decision making and learning processes. Computational modeling will be used to model response patters according to an actor model and a spectator model. Response patterns will be compared as a function of group (MBCT / TAU) and time (T0 / T1/ T2). | Month 0, month 2, month 12. | |
Secondary | Salivary cortisol | Acute cortisol levels will be assessed via saliva samples during socially evaluated cold pressure test as a function of group (MBCT/TAU), time (T0/T2), and SECPT time points (pre/post/30mpost/45mpost). | Month 0, month 12. | |
Secondary | Resting state network reactivity to a stressor (fMRI) | Resting-state network connectivity will be assessed based on resting state fMRI before and after the socially evaluated cold pressure test (SECPT). In specific, this will be evaluated as a function of group (MBCT / TAU), time (T0 / T2), and SECPT (before / after). Resting state networks of interest include the salience network, central executive network, and default mode network. | Month 0, month 12. | |
Secondary | Grey matter volume of stress-related regions (MRI) | By means of a structural T1 scan, we will compare structural changes in stress-related brain regions, e.g. amygdala, hippocampus. Specifically, grey matter volume will be compared as a function of group (MBCT / TAU) and time (T0 / T2).
This measure will help us distinguish between structural changes versus network adaptations as a response to the intervention. |
Month 0, month 12. | |
Secondary | Structural integrity of substantia nigra and locus coeruleus (LC) | To further evaluate structural integrity of the substantia nigra and LC, signal intensity on neuromelanin sensitive MRI scans, as well as diffusion MRI will be determined before and one year after the MBI. Structural integrity will be analysed as a function of group (MBCT / TAU) and time (T0 / T2). | Month 0, month 12. | |
Secondary | Functional integrity of nigro-striatal dopamine system | To quantify the functional integrity of the nigro-striatal dopamine system, we will use resting-state fMRI to calculate gradients of cortico-striatal connectivity. This fMRI measure is sensitive to compensatory changes: in PD, cortico-striatal connectivity shifts from more-affected (posterior) to less-affected (anterior) portions of the striatum. To investigate this, functional connectivity profiles of the posterior and anterior putamen specifically will be determined and analysed as a function of group (MBCT / TAU) and time (T0 / T2). | Month 0, month 12. |
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