Chronic Pain Clinical Trial
Official title:
The Short-term Effect of Cervical Taping on Neck Pain, Disability and Kinematics in Patients With Chronic Neck Pain: A Non-randomised Clinical Trial
Objective: This study examined the effects of elastic tape applied to the neck on patients
experiencing chronic neck pain.
Background: Neck pain is often persistent or recurrent. Various treatments have been
described, including exercises and manual therapy. Taping is commonly used clinically in the
management of neck pain, however research in this field is sparse.
Methods: Elastic tape was applied over the posterior cervical extensor muscles from
insertion to origin on patients experiencing chronic neck pain. Patients were assessed
pre-taping, immediately post-taping, and one week post-taping and did not receive additional
physiotherapy during the study.
Subjective measures included the Visual Analogue Scale (VAS) for pain intensity, the Neck
Disability Index (NDI) to determine the level of disability in daily living, and the Tampa
Scale of Kinesiophobia (TSK) to assess fear of movement or re-injury. Objective outcome
measures included cervical range of motion, velocity, smoothness, and accuracy of cervical
motion. These kinematic measures were collected using a customised virtual reality system
designed to evaluate neck motion disorders.
Neck pain is a common disorder, affecting 30-50% of the general population annually,
comprising approximately 25% of the patients receiving physiotherapy in outpatient clinics.
Symptoms include pain and stiffness in the neck, headache, dizziness, and pain radiating to
the shoulders or upper limbs. Physical impairments associated with neck pain can include
decreased cervical range of motion (ROM), increased fatigability, compromised strength and
endurance of the cervical muscles, and impaired sensorimotor control.
A variety of Physiotherapeutic interventions have been described for the treatment of neck
pain. Taping is a passive technique, widely used for the treatment of sport injuries, muscle
imbalance, and impaired neural control. Clinically, taping is used for neck pain in spite of
lack of research regarding its effectiveness. In addition, the mechanism by which elastic
tape application affects tissue and function is yet unknown, but various effects have been
described such as the ability to increase ROM, facilitate muscles and proprioception, and
decrease pain.
A literature search retrieved only 3 relevant studies examining the use and efficacy of
elastic tape on the cervical spine. Gonzalez-Iglesias et al. (2009) conducted a randomized
trial in whiplash patients, Karatas et al. (2012) studied the effect of taping in surgeons
with cervical pain after performing surgery, and Saavedra-Hernandez et al (2012)- in
patients with mechanical neck pain.
All three studies demonstrated short-term effectiveness of elastic taping on pain relief and
cervical ROM. However, all samples were small, of mostly young participants, and effect size
was not described. Reported changes were small implying that further research is needed.
The objective of this study was to evaluate the short-term effect of cervical elastic taping
on pain intensity, disability and neck kinematics in patients with chronic neck pain.
Materials and Methods
This study was a non-controlled trial with a pre-post test design and a single intervention
group. Ethics approval was obtained from the ethics committee, the Faculty of Social welfare
and Health Sciences at the University of Haifa, and from the Helsinki committee at Rambam
Health Care Campus Helsinki Committee.
Participants
A convenience sample of 27 individuals, 13 males and 14 females, was recruited via
electronic media. Inclusion criteria were (a) chronic neck pain (>3 months), with or without
referral to the upper limb; (b) age of 18 years or more; (c) pain intensity≥ 30% on Visual
Analogue Scale (VAS). Subjects were excluded if they had physiotherapy in the previous 2
months, known skin allergy to the tape, evidence for active vestibular disorders, medical
conditions that may affect performance such as Rheumatic Arthritis, Diabetes Mellitus,
neurological disorders, head injuries, lower limb pathologies, local or systemic infections,
inability to communicate and provide informed consent, unstable fracture/dislocation,
post-orthopaedic surgery in the upper body or spine, and pregnancy. Following screening,
each participant signed a consent form.
Virtual Reality Assessment
A neck virtual reality (VR) system was used to assess cervical motion kinematics by the
protocol of Sarig-Bahat et al. (2010). This system included off-the-shelf hardware and
customized software. Hardware included a head-mounted display with a built-in tracker.
Virtual environment software was developed using Unity-pro software, version 3.40f520.
Cervical motion was elicited by interaction with images during a video game displayed on the
two monitors embedded in the HMD. All dynamic motion data was recorded during the VR session
and analysed by the software in real-time. During the game, the participant acts as a pilot
flying an airplane. The position of the airplane was controlled by the participant's head
motion. Yellow targets were displayed on the HMD monitors and the participant had to contact
them within 5 seconds by aligning the airplane with the virtual target. Once the target was
contacted, a new target would appear at a random location and the player's task was to move
towards it. Based on this principle, the VR assessment included (a) evaluating cervical ROM,
(b) cervical motion velocity, and (c) cervical motion accuracy during a smooth head pursuit
task.
Taping Technique
Kinesio®Tex Tape 23 was used in this study. Two strips of tape were applied: The first layer
was a Y-shaped strip with 2 tails on 2 sides of the cervical vertebrae, placed over the
posterior cervical extensor muscles and applied from the insertion to origin. The second
strip was an I-shaped approximately 20cm long, transversally applied over the C5-C7 vertebra
with a tension-on-base technique in a space correction technique.
Study Procedure
Patients were screened by inclusion and exclusion criteria. The physiotherapist performing
the assessments and taping techniques was a qualified physiotherapist with 13 years of
clinical experience in musculoskeletal physiotherapy and was a qualified Kinesio® taping
practitioner.
Each patient was assessed 3 times: pre- and 20 minutes post-taping on day 1, and in a
follow-up assessment 7 days later.
Following the subjective examination and completion of the questionnaires, an explanatory VR
session was provided to minimize training effects and to reach a stable level of VR control.
Patients were evaluated in upright sitting position, with the trunk strapped to the back of
a rigid chair to eliminate thoracic motion. Calibration was performed at each session for
each participant, as instructed by the manufacturer. Each VR evaluation took up to 15
minutes. Breaks were provided when needed. Following the assessment, tape was applied. After
a washout period 20 minutes post-taping application, the second examination was performed.
No other physiotherapy procedures were provided. Patients were instructed to maintain the
elastic tape for up to 5 days. They were instructed to remove the tape if symptoms were
aggravated or if any topical irritation appeared. The third examination was one-week after
the initial examination and included VR assessment without tape application.
A paired-samples t-test was used to evaluate the pre-post differences in studied outcome
measures. Two paired-sample t-tests were run: pre- vs. immediate post-, and pre- vs. one
week post-taping. Significance level was set at 5%. Cohen's d was calculated to determine
the effect size. Data were analyzed using the SPSS software, version 17.
;
Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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