Mental Representation Techniques Targeting Pain in Parkinson´s Disease Patients: A Randomized Controlled Trial
Overview
- Phase
- N/A
- Intervention
- Not specified
- Conditions
- Parkinson Disease
- Sponsor
- Universidad Francisco de Vitoria
- Enrollment
- 32
- Locations
- 1
- Primary Endpoint
- Change in Brief Pain Inventory score
- Last Updated
- 5 years ago
Overview
Brief Summary
Pain is an under-reported but prevalent symptom in Parkinson´s Disease (PD), impacting patients' quality of life. Both pain and PD conditions cause cortical excitability reduction, but mental representations techniques are thought to be able to counteract it, resulting also effective in chronic pain conditions. The investigators of the present project aim to evaluate the efficacy of a novel mental representation protocol in the management of pain in PD patients during the ON state. The investigators hypothesize that Action Observation (AO) and Motor Imagery (MI) training through a Brain-Computer Interface (BCI) using Virtual Reality (AO+MI-BCI) can improve clinical pain and its central processing features.
Detailed Description
Parkinson´s Disease (PD) affects between 4.1 and 4.6 million people in the world. The diagnosis of PD is currently clinical and based on its motor manifestations (bradykinesia, rest tremor, and rigidity). However, non-motor symptoms such as pain, fatigue, and neuropsychiatric manifestations are present in more than 70% of subjects. Pain affects about 85% of patients but is paradoxically under-reported and consequently under-treated in PD patients with a great impact on their quality of life. Levodopa, which is the election treatment in PD, has shown controversial results regarding pain sensitivity and has been shown ineffective for enhancing the endogenous pain modulation system. Furthermore, there is a lack of management protocols and nonpharmacologic treatments for pain in PD. Several syndromes are hypothesized to be involved in PD pain generation. Generally, PD patients suffer from alterations in peripheral transmission, sensitive-discriminative processing, pain perception, and pain interpretation in multiple levels, due to neurodegenerative changes in dopaminergic pathways and non-dopaminergic pain-related structures. Therefore, central mechanisms are proposed to be crucial for the development and establishment of pain in PD patients. Regarding pain processing features, PD patients have reduced pain thresholds, an augmented Temporal Summation (TS) after repetitive nociceptive stimulus, and the impairment of their Conditioned Pain Modulation (CPM) is correlated with greater severity and premature onset of the disease. Cortical excitability reduction is common in patients with pain. Therefore, diverse therapies are being developed to counteract this cortical excitability reduction and obtaining, consequently, effective pain relief. In consonance with these findings, in PD condition, especially in off state, there is also evidence of cortical excitability decrease but, to the best of investigators´ knowledge, there are no studies targeting cortical excitability to treat pain in PD. Thus, the present study proposes mental representation techniques for the treatment of PD-related pain. The mental representation techniques included in the protocol will be Action Observation (AO) and Motor Imagery (MI). The combination of AO and MI has shown to synergically increase cortical excitability, influencing the activation of cortical areas such as M1 and DLPFC. Specifically in PD, AO and MI have also demonstrated to produce corticomotor facilitation. In addition, mental representation training can produce neurophysiological activity similar to actual exercise training, which has shown to decrease the intensity and severity of pain in PD patients. The main aim of this study is to conduct an independent parallel randomized controlled trials based on AO+MI-BCI targeting changes in 1. validated general and specific PD related pain scales and 2. psychophysical measurements of pain modulation mechanisms. The investigators´ main hypothesis is that AO+MI-BCI will be superior to their respective control placebo intervention.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Neuroimaging study without previous pathologies.
- •Score \> 5 in transfers (bed to chair and back) item in Barthel Index.
- •Score = or \> 24 in Mini-Mental State Examination.
- •Able to provide informed consent to participate in the study.
Exclusion Criteria
- •History of neurologic disease different from PD.
- •Presence of non-related to PD pain.
- •Dermatologic problems, wounds, or ulcers in the electrode's application area.
- •Significative difficulties in language.
- •History of alcohol or drugs abuse.
- •Non-controlled medical problems.
- •Pregnancy.
Outcomes
Primary Outcomes
Change in Brief Pain Inventory score
Time Frame: From Baseline at 1 month
It contains 15 items, including 2 multi-item scales to measure the intensity of pain and its impact on the function and welfare of patients. It also presents open questions to assess the localization of pain and the treatment used for its management, just as its effectiveness. Scores oscillate from 0 to 110, with higher scores indicating more pain and more impact on function and welfare of patients.
Change in King´s Parkinson´s Disease Pain Scale score
Time Frame: From Baseline at 1 month
Parkinson´s Disease specific scale that evaluates the localization, frequency, and intensity of pain. It has 14 items distributed in 7 domains: 1. Musculoskeletal Pain; 2. Chronic Pain; 3. Fluctuation-related Pain; 4. Nocturnal Pain; 5. Oro-facial Pain; 6. Discoloration, Oedema/Swelling Pain; 7. Radicular Pain. Each item is scored by severity (0, none to 3, very severe) multiplied by frequency (0, never to 4, all the time) resulting in a subscore of 0 to 12, the sum of which gives the total score with a theoretical range from 0 to 168, with higher scores indicating more severity and frequency of pain.
Change in Temporal Summation
Time Frame: From Baseline at 1 month
Represents excitatory modulation processes. It will be generated through the application of 10 pulses of the handheld pressure algometer over the middle of the distal phalanx of the thumb with the intensity of the Pain Pressure Threshold, previously calculated. In each pulse, pressure intensity will be increasing at a rate of 2 kg/s over the previously determined Pain Pressure Threshold intensity, leaving an interstimulus interval of one second according to the optimal method reported for inducing Temporal Summation with pressure pain. Before the first pressure pulse, subjects were taught to use a verbal numeric pain rating scale to rate the pain intensity of the first, fifth, and 10th pressure pulses. The verbal numeric pain rating scale ranged from 0 ("no pain") to 10 ("the worst possible pain").
Change in Conditioned Pain Modulation
Time Frame: From Baseline at 1 month
Assesses the descending pain modulatory system. The Pain Pressure Threshold will be assessed in the middle of the distal phalanx of the thumb with ta handheld algometer, corresponding to the first test stimulus. Afterward, the patient will immerse the contrary hand up to the wrist into stirred ice-cold water (0-4º) maintaining it for 3 minutes, corresponding to the conditioning stimulus. If the pain is unbearable before the 3 minutes, the patient will be able to remove his/her hand. Immediately after removing the hand, a second Pain Pressure Threshold measure will be performed in the same place as the first one, corresponding to the second test stimulus. After 1-minute rest, a third Pain Pressure Threshold will be measured to assess the Conditioned Pain Modulation residual functioning.
Changes in Pain Pressure Threshold
Time Frame: From Baseline at 1 month
Two Pain Pressure Thresholds will be measured by a handheld algometer, one over the most painful area (peripheric hyperalgesia) and the other one over the middle of the distal phalanx of the thumb (central hyperalgesia). The Pain Pressure Threshold will be applied with the algometer perpendicular to the skin increasing at a rate of 1 kg/s until the first sensation of pain. 3 measures with 30-seconds rest between them will be performed, taking the average as Pain Pressure Threshold.
Secondary Outcomes
- State-Trait Anxiety Inventory(At 1 month from Baseline)
- Beck Depression Inventory(At 1 month from Baseline)
- Pain Catastrophizing Scale(At 1 month from Baseline)
- Tampa Scale of Kinesiophobia(At 1 month from Baseline)
- Unified Parkinson´s Disease Rating Scale(At 1 month from Baseline)
- Transcranial Magnetic Stimulation(At 1 month from Baseline)
- Reaction Times(At 1 month from Baseline)