Chronic Neck Pain Clinical Trial
Official title:
Augmented Reality Sensorimotor Training to Treat Chronic Neck Pain Assessed Through Corticomuscular Coherence
The goal of this research is to investigate whether 2-4 weeks of augmented reality sensorimotor training induces positive changes so as to effect pain relief in patients with chronic neck pain. In addition, this study aims to determine if repetitive transcranial magnetic stimulation (rTMS) delivered prior to augmented reality sensorimotor training enhances the benefits from the sensorimotor training. This study will also use a battery of questionnaires, functional assessments and electroencephalography markers to identify changes following the sensorimotor training that may be associated with benefits in pain symptoms. Before we embark on a larger study, we plan to investigate the feasibility of our study procedures in a feasibility study involving 40 patients.
Chronic neck pain (CNP) is cervical pain that arises in the absence of a traumatic injury or other known pathological abnormality (Borghouts et al., 1998; Cerezo-Téllez et al., 2016). CNP is associated with deficits in motor control (Jull & Falla, 2016), increased fatiguability (Falla et al., 2003), and hyperalgesia, such as increased pain sensitivity to pressure and heat (Castaldo et al., 2019; Piña-Pozo et al., 2019). Patients with CNP also experience myofascial pain syndrome (Cerezo-Téllez et al., 2016; Fernández-de-las-Peñas et al., 2007). Myofascial pain syndrome is referred pain from myofascial trigger points that can cause autonomic, sensory, and motor effects in areas distant from the trigger point (Cerezo-Téllez et al., 2016). CNP is a debilitating condition that leads to decreased quality of life and affects approximately 22% of Canadians (Côté et al., 1998). Previous work has cited that the incidence of CNP increases with age (Andersson et al., 1993; Brattberg et al., 1989; McLean et al., 2010). Individuals aged 45-55 are twice as likely to develop CNP compared to younger individuals (Korhonen et al., 2003). Age is also associated with poorer pain outcomes at 3 and 12 months following the arise of symptoms (Bot et al., 2005). Despite this, no gold standard treatment for older individuals with CNP currently exists. Recently, virtual reality has been used to treat pain and motor symptoms of CNP. Specifically, this approach works by promoting goal directed movements of the neck towards targets presented within a virtual environment. Neck training using virtual reality (VR) has been shown to be as effective as manual exercise for improving pain and mobility in individuals with chronic neck pain (Tejera et al., 2020; Grassini 2022). In addition, VR may be more engaging compared to traditional exercise and shows an additional improvement in proprioception, pain, and decreased functional limitations (Cetin et al., 2022) beyond traditional exercise (Nusser et al., 2021). These environments also distract participants with CNP from pain during movements aiming to positively influence kinesiophobia (Luque-Suarez et al., 2019). Additionally, these effects have been suggested to occur as a result of increased eye-head coordination required to successfully navigate and interact with object within the VR environment (Revel et al., 1994: Humphreys & Irgens 2002) which promotes neural connectivity between the vestibular system, neck, and eyes (Sarig et al., 2015). These environments can also be adaptable to participant performance and require complex and dynamic movements to complete certain tasks. These movements may improve an individual's perception of cervical position and fine motor control which has been shown to lead to a reduction in neck pain symptoms (Jull et al., 2007; Röijezon et al., 2008). We have developed a novel augmented reality (AR) sensorimotor training task that promotes targeted goal directed actions with the head and neck. AR is defined as technology that overlays digital object or information into the real world (Berryman 2012). AR provides a unique opportunity for participants to engage in training that may benefit sensorimotor control of neck movements. Specifically, it allows for users to interact with virtual object overlaid on their actual environment. The beneficial effects of AR training may indeed be enhanced using repetitive transcranial magnetic stimulation (rTMS) prior to AR training. Specifically, rTMS delivered to the primary motor cortex may create an environment within the sensory motor cortex that promotes neuroplasticity. This is accomplished through high frequency rTMS which increase cortical excitability (León et al., 2018). This in turn promotes intraneuronal connectivity and reorganization achieved through sensorimotor integration provided by the AR sensorimotor training task. Additionally, rTMS facilities neuroplasticity and the retraining of cortical circuits. This can be used to restore cortical activity that is altered in patients with CNP (León et al., 2018). Changes to the primary motor cortex (M1) have been implicated in the pain network underpinning CNP. These include changes in the cortical territory (Elgueta-Cancino et al., 2019) and activation patterns of the area representing the affected muscles during painful and non-painful head movements (Beinert et al., 2017). Additionally, increased resting state functional connectivity between M1 and superior parietal cortex has been associated with greater local hyperalgesia (Coppieters et al., 2021). Taken together, these results suggest altered sensorimotor processing during motor control of the neck leads to pain. This is supported by findings in subclinical neck pain that have demonstrated deficits in neuromuscular control of the neck (Zabihhosseinian et al., 2015), sensorimotor processing (Baarbé et al., 2016), sensorimotor integration, and greater inhibition of the motor cortex (Baarbé et al., 2018) in patients with subclinical neck pain compared to healthy controls. As a result, changes in sensorimotor control between the cortex and affected muscles may accompany changes in pain symptoms following a sensorimotor training intervention. Sensorimotor control in CNP may be reflected in corticomuscular coherence (CMC). CMC is derived from the correlation between electroencephalography recorded over the primary motor cortex and electromyography recorded from an active muscle. CMC is suggested to reflect the flow of information from the motor cortex to the muscle, as well as feedback from the muscle back to the somatosensory cortex (Gross et al., 2000; Lim et al., 2014; McClelland et al., 2012; Riddle & Baker, 2005; Salenius et al., 1997; Witham et al., 2011). In healthy participants, von Carlowitz-Ghori et al. (von Carlowitz-Ghori et al., 2015) demonstrated that CMC can be volitionally modified. During a steady state hold with the thumb, participants improved their CMC value through different strategies such as mental imagery and attention (von Carlowitz-Ghori et al., 2015). Taken together, these results suggest that CMC can reflect deficits in cortical control of movement and may be used as a marker of improved sensorimotor control between the brain and active muscle following a training task implemented using AR. The objective of our study is to investigate the use of rTMS paired with a novel AR sensorimotor training task in CNP patients, to induce positive neuroplastic changes so as to effect temporary and long-term pain relief. In addition, this study aims to determine if AR leads to improvements in sensorimotor control of the neck measured through CMC. AR sensorimotor training may induce cortical reorganization and improve motor function leading to analgesic effects in patients with CNP. In addition, this is the first study in CNP to use CMC to assess deficits observed in the voluntary sensorimotor control of muscles of the neck. Effective long-term pain relief for older patients with CNP is currently an unmet medical need. As such, this work aims to implement an innovative technique to provide meaningful and long-lasting pain relief. This intervention aims to break the cycle of pain and improve activities of daily living and quality of life in CNP. This is the first study to the best of our knowledge combing rTMS with AR to treat patient with CNP. ;
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