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This randomized controlled trial investigates the effects of biofeedback-guided training versus conventional therapy on muscle strength and postural alignment in patients with Upper Cross Syndrome. The study includes adults aged 25-45 years meeting diagnostic criteria for UCS, such as weak deep cervical flexors, restricted cervical ROM, forward head posture, increased thoracic kyphosis, and chronic neck pain >3 months. Participants are divided into two groups: Group A biofeedback training and Group B conventional therapy, receiving 12 sessions over 4 weeks ,3sessions/week. Assessments are conducted at baseline, post-1st session, and weekly intervals using standardized measures.The study aims to compare the efficacy of biofeedback-guided training in improving strength and posture in UCS patients.
Prolonged sitting and repetitive movements, common in desk jobs, poor ergonomics, and sedentary lifestyles, can lead to poor posture, discomfort, pain, and muscle or joint disability. A frequent result of poor posture is Upper Cross Syndrome, characterized by imbalances between upper body muscle groups. In Upper Cross Syndrome, overactive muscles like the pectoralis major, upper trapezius, and levator scapulae become tight, while the deep neck flexors, middle and lower trapezius, serratus anterior, and rhomboids weaken, disrupting movement patterns and increasing injury risk. Dr. Janda's 1988 model categorized muscles into postural (tonic) muscles, prone to tightness, and phasic muscles, prone to weakness. Upper cross Syndrome commonly causes neck, shoulder, and upper back pain, along with discomfort in the shoulder blades and neck stiffness.
Upper Cross Syndrome symptoms include neck, shoulder, and upper back pain, and can lead to forward head posture , increased thoracic kyphosis, and loss of cervical lordosis. Forward head posture, seen in 60% of individuals aged 20 to 50, causes neck strain, reduced mobility, and pain. With the rise of technology use, Upper cross syndrome has become more prevalent. Individuals often lean forward to view screens, exacerbating posture-related issues. Studies show Upper cross syndrome prevalence in IT professionals (67%), students (37.1%) and laundry workers (28%). Prevalence across different groups ranges from 11% to 60%. This condition leads to pain, discomfort, and reduced quality of life, prompting the need for effective treatment.
Effective manual therapy techniques for treating Upper Cross Syndrome aim to alleviate muscle tension, improve mobility, and correct postural imbalances. These include joint mobilization and manipulation, which restore normal motion and reduce pain, and soft tissue mobilization techniques like myofascial release and trigger point therapy that target tight muscles to enhance blood flow and reduce tension. Active Release Techniques identify and release muscle adhesions through specific movements and therapist-applied pressure, while transverse massage uses friction across muscle fibers to break down adhesions and promote healing. Post-Isometric Relaxation helps enhance flexibility and reduce tightness by contracting and stretching muscles, and neuro-mobilization addresses nerve entrapments commonly associated with Upper cross syndrome to alleviate pain.
A growing body of research has explored the effectiveness of various interventions for managing Upper cross syndrome, including manual therapy, and biofeedback-guided strength training. Karthi et al. found that motor control training of deep neck flexors using pressure biofeedback significantly reduced pain and disability, highlighting the efficacy of biofeedback in improving muscle activation and posture. Similarly, Ashfaq et al. demonstrated that cranio-cervical flexion training with biofeedback enhanced muscular endurance and reduced neck pain more effectively than conventional methods. These findings align with the clinical utility of biofeedback in correcting postural imbalances, a key feature of UCS. In addition, ART, which targets muscle adhesions and soft tissue dysfunction, has shown promise in improving range of motion and alleviating pain in UCS patients (Kang et al., 2016).Manual therapy techniques like joint mobilization and soft tissue manipulation are also effective in restoring normal movement patterns and reducing discomfort. Gumuscu et al. further supported these findings by showing that combining conventional program i.e. stabilization exercises with stretching and strengthening improved posture and respiratory function in office workers with forward head posture, suggesting that integrated approaches could enhance outcomes in Upper cross syndrome management.
Strength training has been widely used to correct Upper cross syndrome by targeting weak muscle groups, particularly DCFs. Studies have shown that resistance exercises can significantly improve posture and reduce associated pain by enhancing muscle endurance and correcting imbalances. However, conventional strength training lacks real-time feedback mechanisms, not providing neuromuscular control, potentially leading to compensatory movements and suboptimal outcomes.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Experimental Group | Experimental | Biofeedback-Guided Strength Training: Hot Pack: Applied for 10 minutes, mild warmth sensation to relax muscles and prepare for exercise. 1. BPU (Biofeedback Pressure Unit): performed at 5 pressure levels (22, 24, 26, 28, 30 mmHg). Each level involves a 10-second hold, with 30 seconds rest between levels. Targeted muscles:
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| Control Group | Active Comparator | Conventional Therapy: Hot Pack: Applied for 10 minutes, mild warmth sensation to relax muscles and prepare for exercise. EXERCISE PROGRAM:
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Bio feedback training | Other | Hot Pack: Applied for 10 minutes, mild warmth sensation to relax muscles and prepare for exercise. 1. BPU (Biofeedback Pressure Unit): performed at 5 pressure levels (22, 24, 26, 28, 30 mmHg). Each level involves a 10-second hold, with 30 seconds rest between levels. Targeted muscles:
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| Measure | Description | Time Frame |
|---|---|---|
| cranio-cervical flexion test | craniocervical flexion test to measure strength and endurance of Deep cervical flexors. it ranges from 20 mm of hg to 30 mm of Hg based on increased strength | baseline to 4th week |
| Measure | Description | Time Frame |
|---|---|---|
| NPRS | Pain is measured through NPRS scale. it has 11 level points from 0-10. where 0 indicate no pain and 10 indicate un-bearable pain | total of 5 measurements taken at baseline, at the end of 1st, 2nd , 3rd and 4th week |
| NECK DISABILITY INDEX |
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Inclusion Criteria:
• Adults aged 25-45 years with both genders.
Exclusion Criteria:
• History of recent neck surgery or injury.
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| IMRAN AMJAD, PHD | Contact | 0332430125 | imran.amjad@riphah.edu.pk |
| Name | Affiliation | Role |
|---|---|---|
| Aisha Razzaq, PHD* | Riphah International University | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Watch Guard Tech | Recruiting | Rawalpindi | Punjab Province | 46000 | Pakistan |
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comparison based study on effects of bio feedback guided training and conventional exercise prorocol on muscle strength and postural training in upper cross syndrome
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Participants will be masked by using sealed envolpe method
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| conventional exercise program | Other | Hot Pack: Applied for 10 minutes, mild warmth sensation to relax muscles and prepare for exercise. EXERCISE PROGRAM:
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neck disability is measured through NDI. it has score from 0-50. where 0 indicate low disability and 50 indicate total disability
| total of 5 measurements taken at baseline, at the end of 1st, 2nd , 3rd and 4th week |
| cervical Flexion | A goniometer is a reliable and valid tool for assessing joint angles. cervical flexion is mesaured when the chin tries to touch the chest. it ranges from o-40 degrees. | baseline to 4th week |
| cervical Extension | A goniometer is a reliable and valid tool for assessing joint angles. cervical extension is mesaured when the person tries to look up to the roof as max as he/she can go. it ranges from 0-70 degrees. | baseline to 4th week |
| cervical Rt rotation | A goniometer is a reliable and valid tool for assessing joint angles. cervical Rt rotation is measured when the person face tries to look to the right | baseline to 4th week |
| cervical Lt rotation | A goniometer is a reliable and valid tool for assessing joint angles. cervical Lt rotation is measured when the person face tries to look to the left. it ranges from 0-45 degrees | baseline to 4th week |
| cervical Lt flexion | A goniometer is a reliable and valid tool for assessing joint angles. cervical Lt flexion is measured when the lt ear tries to touch to the shoulder | baseline to 4th week |
| cervical Rt flexion | A goniometer is a reliable and valid tool for assessing joint angles. cervical Rt flexion is measured when the Rt ear tries to touch to the shoulder. | baseline to 4th week |
| ID | Term |
|---|---|
| D018908 | Muscle Weakness |
| C537866 | Oculocerebral hypopigmentation syndrome type Preus |
| ID | Term |
|---|---|
| D009135 | Muscular Diseases |
| D009140 | Musculoskeletal Diseases |
| D020879 | Neuromuscular Manifestations |
| D009461 | Neurologic Manifestations |
| D009422 | Nervous System Diseases |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D012816 | Signs and Symptoms |
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