The aim of our clinical study is to investigate the efficacy of combining a program of manual techniques for treating chronic neck pain with the simultaneous application of TECAR therapy, utilizing two specialized anti-static electrode bracelets. A total of 80 women with upper trapezius trigger points and neck pain persisting for more than 12 weeks will be randomly assigned to two groups. In the first group, combined treatment involving manual techniques and two TECAR anti-static electrode bracelets will be administered, while in the second group, the same protocol will be followed without the electrode bracelets. All participants will receive a total of 15 treatments over five weeks, with a follow-up assessment six months post-treatment. Pain will be measured using the Numerical Pain Rating Scale (NPRS), and pain thresholds at the upper trapezius muscle and suboccipital area will be evaluated with a digital algometer. Additionally, neck range of motion will be assessed with a goniometer, and functional ability will be evaluated using the "Neck Disability Index" questionnaire. Assessments will be conducted before and after the treatment period, with a follow-up assessment six months later. For statistical analysis, a multivariate analysis of variance (MANOVA) with repeated measures will be applied, with the significance level set at p \< .05.
Background: Chronic neck pain is defined as neck pain lasting more than 12 weeks and is often accompanied by painful trigger points in the neck muscles. The use of manual techniques, such as myofascial release and ischemic compression on painful points in the neck muscles, has been shown to reduce pain and improve functional ability and neck range of motion in individuals with chronic neck pain. Aim: The aim of our clinical study is to investigate the efficacy of combining a program of manual techniques for treating chronic neck pain with the simultaneous application of TECAR therapy using two specialized anti-static electrode bracelets. Method: Eighty women with upper trapezius trigger points and neck pain symptoms persisting for more than 12 weeks will be randomly assigned to two groups. The first group will receive a combined treatment of manual techniques with two TECAR anti-static electrode bracelets, while the second group will follow the same protocol without the electrode bracelets. All participants will undergo a total of 15 treatments over five weeks, with a follow-up assessment after six months. Pain will be measured using the Numerical Pain Rating Scale (NPRS), pressure pain threshold (PPT) of the upper trapezius muscle and suboccipital area will be evaluated with a digital algometer, neck range of motion (ROM) will be assessed using a goniometer, and functional ability will be measured with the "Neck Disability Index" questionnaire. Assessments will be conducted before and after the treatment period, with a follow-up assessment six months later. For statistical analysis, a multivariate analysis of variance (MANOVA) with repeated measures will be applied, with the significance level set at p \< .05. Expected Results: Modern TECAR devices, through special resistive bracelet electrodes, allow the therapist's hand to function as a mobile electrode. This enables the simultaneous effect of both therapeutic modalities-manual techniques and high-frequency current. Therefore, we expect the combination to be more effective than manual techniques alone in improving the clinical profile of adult women with chronic neck pain.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
80
The following myofascial release techniques will be applied: Myofascial release of the upper trapezius Gross stretch, vertical gross stretch, and focused stretch of the upper trapezius Myofascial release at the cranial base Gross release of the sternocleidomastoid muscle Additionally, the following ischemic compression technique will be applied: Ischemic compression on the upper trapezius muscle Manual therapy manipulations will be administered in combination with a capacitive conventional electrode and two special electrode bracelets that turn the therapist's hands into anti-static electrodes. High-frequency currents will be applied at frequencies of 300 kHz, 500 kHz, and 1 MHz, with a flexible self-adhesive grounding electrode placed on the thoracic spine for reference.
Participants in this group will follow the same manual protocol as the first group, without the application of high-frequency current. Each manual therapy session will begin with a ten-minute preparation involving light massage and stretching. The massage will include the effleurage technique, followed by petrissage and kneading, focusing on the cervical and thoracic areas, particularly the upper trapezius, suboccipital region, and cervical paraspinal muscles. Stretching will be applied to the upper trapezius, levator scapulae, and sternocleidomastoid muscles.
Department of Physiotherapy, Faculty of Health Sciences International Hellenic University
Thessaloniki, Sindos Thessaloníki, Greece
Changes in neck pain intensity with Numeric Pain Rating Scale (NPRS)
This tool is an eleven-point pain scale numbered from zero to 10. The left end of the scale corresponds to zero and is marked as "No pain", whereas the right end corresponds to 10 and is marked as "Maximum pain". Consequently, a higher value indicates more intense pain (Childs et al, 2005). The examinee is asked to choose an integer that best reflects the intensity of their pain. The NPRS is widely used to measure pain in both clinical practice and research, showing high test-retest reliability and high conceptual construct validity
Time frame: pre-treatment, week 5, 6-month follow-up
Changes in Pressure Pain Threshold (PPT) with pressure algometry
Pressure pain threshold (PPT) is defined as the minimum amount of pressure that induces pain. PPT was assessed using a digital algometer. Measurements were taken over the upper border of the trapezius muscle, midway between the midline and the lateral border of the acromion, as well as in the suboccipital area, 2 cm lateral to the spinous process of the axis. The metal rod of the algometer was positioned vertically on each site, and the examiner applied gradually increasing pressure at a rate of 1 kg/s. PPT was recorded in kg/cm².
Time frame: pre-treatment, week 5, 6-month follow-up
Changes in functional capacity with the Greek Version of Neck disability index questionnaire
It is a self-reported, ten-item scale, with each item assessing different aspects of neck pain complaints. Most items relate to restrictions in activities of daily living, and each item is rated on a scale of 0 to 5, where 0 indicates no disability and 5 indicates maximum disability. The total score ranges from 0 to 50. The Neck Disability Index (NDI) is well-supported in the literature and is the most commonly used tool for reporting neck pain.
Time frame: pre-treatment, week 5, 6-month follow-up
Changes in Cervical Range of Motion through goniometry
Active cervical range of motion was measured using two types of goniometers: two bubble inclinometers and a large-scale universal goniometer. Measurements included active cervical flexion, extension, rotation, and side bending, with participants seated in an upright position. Range of motion was recorded in degrees.
Time frame: pre-treatment, week 5, 6-month follow-up
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