The Effect of Kinesio Taping on Cervical Proprioception Sense, Pain, Disability and Quality of Life in Patients With Cervical Spondylosis

Brief Summary

Detailed Description

Cervical spondylosis is the aging of the cervical spine as a result of degeneration of the intervertebral discs. In this process, shortening of the disc distance in the cervical spine, thickening of the ligaments, development of ligamentous and segmental instability, arthrosis and loss of lordosis in the facet joints are observed. Degenerative disc changes are often seen as bulging, protrusion, extrusion, and sequestration. Cervical discs are thicker anteriorly than posteriorly, resulting in normal lordosis. In the degenerative process, first of all, the height decreases in the anterior of the disc and loss of lordosis occurs. The process progresses with aging and causes axial neck pain and/or disc herniations due to degenerative changes, intraspinal canal and foraminal stenosis, secondary radiculopathy or myelopathy symptoms. Although there is no complete consensus about the pathophysiological mechanism that causes cervical degenerative disc disease, several hypotheses have been developed. Although spondylosis is seen as a normal part of aging according to the current approach, certain occupations, repetitive movements and traumas can accelerate the process. Only a single factor has no chance to trigger the degenerative process. In other words, many factors of the normal aging process affect cervical spondylolysis. Although age-related degeneration is the primary cause, cervical disc injuries may affect this degenerative process in younger patients. Degeneration in the cervical spine may only present with neck pain if there is no compression on the spinal cord or nerve root. This degeneration causes radicular pain in the occipital region, posterior neck, shoulder or arm due to inflammation due to extrinsic compression in the nerve root. Patients with cervical spondylosis usually present with complaints of pain, tingling, numbness, and weakness in the upper extremities, resulting in significant disability and functional limitations. Proprioception is a sense of bodily movement position that includes a sense of joint position and a sense of movement (kinesthesia). Proprioceptive information reaches the central nervous system via the afferent pathway, which contributes to movement and postural neuromuscular control. The cervical muscles have an abundant muscle spindle density reflecting a rich proprioceptive system, which contributes to enhanced sensorimotor function and therefore plays an important role in maintaining effective motor control and static and dynamic postures. Studies have shown that sense of cervical position is vital in maintaining joint stability under static and dynamic conditions, and impaired proprioception may predispose to the development of pain. Cervical proprioception is measured by joint position error in degrees. In cervical spondylosis, impaired cervical proprioception is the result of position sensitivity being affected primarily by impairment in the muscles, joints, or capsules and secondarily by changes in afferent proprioceptive adjustment and integration. Impaired position sense impairs both neuronal and muscular control of normal cervical joint function, resulting in unbalanced muscle strength and placing the joint at risk for trauma. Conservative treatment of spondylosis includes transcutaneous electrical nerve stimulation (TENS), heat, traction, exercise, postural training, massage, kinesiotaping, and numerous manual therapy and mobilization techniques. Recent studies investigating treatment modalities for neck pain associated with cervical spondylosis have shown that combined treatments are more effective than exercise alone. The kinesio-tape technique has been developed with the philosophy that positive results can be obtained with a taping method similar to the structural properties and flexibility of human skin, without limiting the joint movements of the kinesio tape. Latex-free kinesio-tape is composed of 100% cotton and elastic polymer fibers. Dr. According to Kase, muscle dysfunction is one of the leading problems originating from the musculoskeletal system. Dr. Kase argues that taping the muscle is more effective than immobilizing the joint circumference with tape. After injury or overuse, the elastic properties of the muscle deteriorate. For this reason, kinesiology tapes are designed to be similar to the elastic properties of the muscle, to be adhesive, to have a lifting effect on the skin to which kinesiology tapes are applied, and to allow air circulation between the skin and the external environment. The technique is based on 3 basic concepts. These are space, motion, and cooling. As painful and inflamed muscles swell due to edema, the area where muscles are located narrows. When kinesio-taping is applied, the skin and subcutaneous interstitial area are increased by lifting the skin, thus increasing circulation and movement. This reduces pain and improves performance. The neuromuscular system is retrained. Injuries are prevented, circulation is accelerated and tissue healing is ensured. The idea that kinesiotaping can regulate proprioception by affecting cutaneous mechanoreceptors has been put forward by some researchers. Kinesiolo-tape affects mechanoreceptors sensitive to tension, loading, pressure and shear forces by changing the length of the skin and superficial fascia and the tension of the muscle fibers. This can lead to significant changes in muscle movement and tone. Slow pressure stimulation, particularly on connective tissue, alters the effect on mechanoreceptors and may affect gamma motor neuron firing and muscle tone regulation. Kinesiotape can be particularly effective in increasing proprioceptive ability only in the middle of the movement. In this range, ligament mechanoreceptors are inactive, whereas muscle receptors are active. Understanding joint movement and position can be effective in the development of proprioception by stimulating sensory afferent transmission. Cutaneous afferent stimuli interact with the motor cortex and thus affect the muscle excitability of the central nervous system.

Primary Outcomes

Secondary Outcomes

• Hand grip strength(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• SF-36(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Upper extremity functionality(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Neck pain(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• cervical joint range of motion(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Neck disability(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Neuropathic pain(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Mood(Evaluations will be made before treatment, immediately after treatment, and 1 month after treatment.)
• Cervical spinal MRI(Evaluations will be made before treatment)