The Effect of Focus Approaches on Neck Region Muscle Activation

N/ANot Yet RecruitingNCT06778980

Gazi University30 enrolled

Overview

Forward Head Posture (FHP) causes muscle imbalances in the neck and shoulder regions. Various exercises are suggested to correct FHP. During these exercises, internal and external focus techniques are used to enhance motor learning and improve muscle balance. However, there are no studies examining how these approaches affect neck muscle activation in individuals with FHP. Therefore, the purpose of this study is to investigate the effects of external and internal focus techniques, aimed at improving cervical alignment during postural correction exercises, on cervical muscle activation in individuals with FHP.

Various corrective exercises are suggested in the literature to address Forward Head Posture (FHP). For individuals without musculoskeletal issues, chin-tuck and scapular retraction exercises in a supine position have strong evidence for effectiveness. Scapular stabilization exercises help reduce negative mechanical loads caused by abnormal scapular and cervical spine positions. Additionally, focusing attention on the exercise or target area is used to enhance motor learning and muscle balance, with external focus shown to improve performance in various tasks compared to internal focus. In clinical practice, it is essential to maintain cervical alignment during scapular retraction exercises for individuals with FHP. To optimize muscle balance during these exercises, instructions often emphasize keeping the chin-tuck position to avoid cervical protraction. Internal and external focus approaches during scapular retraction exercises may help balance the muscle imbalances in individuals with FHP. However, no studies have yet examined the effects of internal and external focus approaches on neck muscle activation in individuals with FHP. Thirty participants with FHP, defined as having a craniovertebral angle less than 50 degrees, will be included in the study. Participants will perform scapular retraction exercises (bilateral row) with a theraband and T-exercises in a prone position. The exercises will be carried out under three conditions: without guidance (control - no corrective cues for the cervical region), external focus, and internal focus. A laser headband will be used for the external focus condition. Muscle activation of the Upper Trapezius, Middle Trapezius, Lower Trapezius, Serratus Anterior, and Sternocleidomastoid muscles will be measured using the Noraxon MiniDTS system (Noraxon, USA, Inc, Scottsdale, AZ). Muscle activation will be calculated as a percentage of Maximum Voluntary Isometric Contraction (MVIC), and the % MVIC values will be used for analysis. The order of exercises will be randomized.

Study Type

INTERVENTIONAL

Conditions

Forward Head Posture

Interventions

The chin tuck postureOTHER

A chin tuck is a posture correction technique where the individual gently tucks their chin towards their chest while keeping the rest of the body straight. This movement helps align the head and neck, reducing forward head posture and improving spinal alignment. After performing the unguided exercises, the patients will be taught the chin tuck position. From this point onward, they will be instructed to maintain the chin tuck position while performing the exercises using both external and internal focus strategies.

Eligibility

Sex: ALLMin age: 18 YearsMax age: 35 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Aged between 18-35 years, * Craniovertebral angle (CVA) less than 50 degrees, * Willing to not participate in any treatment/evaluation during the study, * Voluntary participation. Exclusion Criteria: * Experiencing pain in the neck, spine, upper or lower extremities for the past 3 months, * Body mass index (BMI) greater than 25 kg/m², * History of neck injuries or surgeries such as intervertebral disc herniation, spondylosis, radiculopathy, chronic headaches, or whiplash, * Any visual, auditory, or sensory impairments, * Temporomandibular joint issues, * Neurological (e.g., epilepsy), rheumatological, or orthopedic symptoms, * Any conditions affecting balance and muscle control, * Cardiopulmonary or systemic diseases that prevent exercise.

Locations (1)

Gazi University

Ankara, Turkey, Turkey (Türkiye)

Outcomes

Primary Outcomes

Electromyography (EMG) Measurement on neck muscles

The activation of the Upper Trapezius (UT), Middle Trapezius (MT), Lower Trapezius (LT), Serratus Anterior (SA), and Sternocleidomastoid (SCM) muscles will be measured using the non-invasive surface 8-channel EMG Noraxon MiniDTS system (Noraxon, USA, Inc, Scottsdale, AZ).

Time frame: through study completion, an average of 3 months

Craniovertebral Angle Measurement

The craniovertebral angle (CVA) will be measured using the reliable and valid lateral digital photogrammetric method and Kinovea Video Analysis Software. Participants will be filmed laterally from their dominant side (left for left-dominant, right for right-dominant). A phone on a tripod will be placed 1.5 meters away from the participant at shoulder height. Markers will be placed on the tragus and C7 spinous process for accurate measurement, with participants wearing tight shorts and a short-sleeved shirt. They will be instructed to stand with feet shoulder-width apart and face forward. Before photographing, participants will walk in place five times to capture their natural head-body position. Photos will be taken within the first 5 seconds, and the CVA will be measured using Kinovea Video Analysis Software.

Time frame: through study completion, an average of 3 months

Central Contacts

Beyza Yazgan Dagli

CONTACT

05535134631 beyzayazgan@gazi.edu.tr

Gamze Çobanoğlu Demirkan, Phd

CONTACT

fztgamze7@gmail.com

Data from ClinicalTrials.gov

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