Background: The purpose of the study was to examine the motor imagery ability and its association with pain, functional status, neck awareness and depression levels in individuals with cervical discogenic pain (CDP). Methods: Sixty individuals aged between 18-65 were included in the study. Demographic data was recorded, pain and disability were evaluated using Visual Analogue Scale (VAS) and Neck Disability Index (NDI), motor imagery ability using Kinesthetic and Visual Imagery Questionnaire-20 (KVIQ-20) and mental chronometry. Grip strength, cervical muscle endurance, upper limbs functionality, neck awareness and depression levels were assessed using hydraulic hand dynamometer, cervical muscle endurance tests, Upper Extremity Functional Index-15 (UEFI-15), Fremantle Neck Awareness Questionnaire (FreNAQ), and Beck Depression Inventory (BDI), respectively.
Motor imagery (MI) is defined as the cognitive representation of a body movement without the actual movement. MI depends on both kinesthetic - which require sensory-motor knowledge- and visual strategies - which require visual knowledge of the movement imagined. Kinesthetic MI is the ability to visualize a movement simulation to perceive its direction, speed, and magnitude. This ability requires the activation of neurocognitive mechanisms that underlie the design and execution of voluntary movement. Visual motor imagery occurs through internal or external visual imagery. Internal visual imagery involves visualizing a movement from ones own perspective, while external visual imagery involves seeing a movement from a third persons perspective. Neuroimaging studies revealed that the parts of the brain activating during MI were similar to those which activate while a movement was actually performed. Therefore, activating joint and muscle receptors by MI may increase corticomotor excitability. Moreover, it was demonstrated that subcortical structures were activated through excitability of presynaptic interneurons by MI, i.e. without activating alpha-motor neurons. Activation through MI ensures continuity of movement and improves the quality of desired movements, playing a key role in enhancing motor function and performance. Individuals with cervical disc pathologies exhibit a reduced fiber density along the corticospinal tract. Functional magnetic resonance imaging studies have shown increased activation in the primary motor and premotor cortices and a loss of activation in the sensory cortex. These changes are related to the severity of the disc pathology. Besides, it was reported that prolonged compression in the cervical spine might lead to atrophy in the sensorimotor cortex and thalamus, giving rise to a functional reorganization, usually result in maladaptive neuroplasticity. Chronic pain, a common finding in cervical disc pathologies, may affect the perception of painful body parts and MI performance, as well as impaired somatotopic representation. In addition to cortical changes, the gradual processing of stimuli by mirror neurons, which generate motor movements, is considered a significant component of learning by imitation and observation. This process forms an important part of MI and is thought to be impaired in individuals with chronic pain. They highlighted that evaluating the MI ability of an individual with chronic neck pain was important for revealing the mental imagery performance. In individuals with chronic neck pain, it was revealed that the severity of pain and the functional and psychosocial problems caused by the pain, were related to executive functions and working memory. They discovered that MI depends on executive functions. Interference tasks significantly affect the timing of MI. Therefore, it is believed that pain-related symptoms will also negatively impact MI skills. In the literature, studies have demonstrated positive effects of MI training on pain, disability, and fear of movement in individuals with chronic pain. However, it is suggested that factors related to MI ability should be further investigated. Therefore, the purpose of the study was to examine the relationships between MI ability and pain, functional status, neck awareness and depression levels in individuals with cervical discogenic pain (CDP).
Study Type
OBSERVATIONAL
Enrollment
60
Sarıkaya Physical Therapy and Rehabilitation High School
Yozgat, Sarıkaya, Turkey (Türkiye)
Assessment of Pain Severity
The 10-cm Visual Analogue Scale (VAS) developed by Price et al., and The Neck Disability Index (NDI) developed by Vernon et al. were used to evaluate the pain severity and the disability related to neck. On the 10-cm VAS, the first notch is marked 0, and the last notch is marked 10. Zero means no pain, whereas 10 means the most severe pain.
Time frame: February 2024
Assessment of Neck Disability
The Neck Disability Index (NDI) developed by Vernon et al. was used to evaluate the disability caused by chronic neck pain. Validated for reliability in Turkish by Aslan et al., the questionnaire is made up of 10 questions questioning the impact of neck pain on daily activities including personal care, concentration, working, driving and sleeping. Each question is rated between 0 and 5 with the maximum score being 50. 0 to 4 points means no disability, 5 to 14 points means mild disability, 14 to 24 points means moderate disability, 25 to 34 points means serious disability, 35 and above means complete disability, and 50 points means full disability .
Time frame: February 2024
Assessment of Motor Imagery Ability
MI skills of the participants were evaluated with the Kinesthetic and Visual Imagery Questionnaire-20 (KVIQ-20) developed to determine the extent to which individuals can visualize and sense an imagined movement. Validated for reliability in Turkish by Dilek et al., the questionnaire included 20 movements measuring 10 visual and 10 kinesthetic imagery skills. To perform the assessment, first, the physiotherapist showed the required movement on their own body, and then asked the participant to repeat that movement physically once. Then the participants were asked to imagine the movement and rate the movement for how much it was felt based on its visual clarity. The overall score included the sum of separate scores of kinesthetic imagery skill and visual imagery skill and ranged between 20 and 100. Higher scores indicated higher clarity and intensity of sensation
Time frame: February 2024
Assessment of Grip Strength
The grip strength of the individuals was evaluated by a hydraulic hand dynamometer (Baseline lite Hydraulic Hand Dynamometer, Fabrication Enterprises, NY, USA), and the result was noted in kilograms.
Time frame: February 2024
Assessment of Muscular Endurance-Flexor
The endurance of the neck flexors of the participants were evaluated in the supine hooked position with the head placed 6 cm high. After taking the height below the head, the maximum time maintaining this position was noted in seconds. The 5-degree change in a goniometer following the vertical angle of the mandible was determined as the criterion for terminating the test
Time frame: February 2024
Assessment of Muscular Endurance-Extensor
The neck extensor muscle endurance of the participants was evaluated by attaching a 2-kg weight using a 10-cm velcro at the C6 level in a prone position with the hands placed to both sides. The maximum duration of holding head in this position was recorded in seconds.
Time frame: February 2024
Assessment of Muscular Endurance-Deep Flexor
Cervical deep flexor muscle endurance of the participants was evaluated in supine hooked position with the hands placed on the abdomen and the chin pulled in. The maximum time the participant could raise and hold their head about 2.5 cm high was noted.
Time frame: February 2024
Assessment of Neck Awareness
Neck awareness levels of the participants were evaluated by the Fremantle Neck Awareness Questionnaire (FreNAQ). Validated for reliability in Turkish by Onan et al., the questionnaire is made up of 9 questions measuring neck pain, attention and proprioceptive awareness. Each question is rated between 0 (Never/I never feel this way) and 4 (I always or usually feel this way). The overall score ranges between 0 to 36 with a higher score indicating poor neck awareness .
Time frame: February 2024
Assessment of Upper Extremity Functionality
Upper extremity functionality of the participants was evaluated with the Upper Extremity Functional Index-15 (UEFI-15). Validated for reliability in Turkish by Aytar et al., the questionnaire includes 15 different activities that are frequently carried out in daily life. Individuals are asked to rate each activity by the level of difficulty performing it on a scoring system ranged from 0 (extremely difficult) to 4 (no difficulty). The overall score ranges between 0-100. Lower scores indicate poor upper extremity functionality
Time frame: February 2024
Assessment of Depression Level
Depression levels of the participants were evaluated by the Beck Depression Inventory (BDI). The participants were asked to answer 21 questions assessing depressive behaviors, rating them from 0 to 3. Validated for reliability in Turkish by Kapci et al., the questionnaire has an overall score range of 0 to 63 points. 0 to 12 points means minimal depression; 13 to 18 points, mild depression; 19 to 28 points, moderate depression; and 29 to 63 points, serious depression.
Time frame: February 2024
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.