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Evaluating the Effectiveness of Posture Correction Girdle for Adolescents With Early Scoliosis

NCT ID: NCT03929042

Last Updated: 2021-11-18

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

UNKNOWN

Clinical Phase

NA

Total Enrollment

50 participants

Study Classification

INTERVENTIONAL

Study Start Date

2017-07-17

Study Completion Date

2023-12-31

Brief Summary

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Through the ITF-Tier 3 project (ITS/ 237/ 11), a prototype of the posture correction girdle based on the clinical, textile science, material and ergonomics engineering analyses has been developed for preteen and teenage girls aged 10 to 13 who have the early stages of scoliosis. The girdle provides a corrective force onto the torso by the warping and elastic extension of the shoulder straps and waistband and the insertion of semi-rigid EVA padding and uses a point-pressure support system to achieve the target of posture improvement and spinal progression control with physical and psychological comfort.

In order to evaluate the effectiveness of the posture correction girdle, it is proposed to recruit 10 patients to take low dose x-ray (sterEOS) at QMH at supine position. Then, the patient should wear the girdle for two hours and take another x-ray at standing position. If the Cobb's angle of the patient on girdle at standing position can be same as her supine position. It can prove the effectiveness of the girdle.

Detailed Description

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Background Information Scoliosis in patients between 10 and 18 years of age is termed adolescent scoliosis. The most common type of scoliosis is one of which the cause is not known. This is called "idiopathic" or "adolescent idiopathic scoliosis (AIS)". The main risk factors of curve progression could be skeletal immaturity, female gender and large curve magnitude. It has been found that nearly 10% of all adolescents have some degree of spinal curve or deformity after their tenth year. The health of patients, such as cardiac and pulmonary functions, may be affected if their spinal deformity is very serious. Hence, the most ideal way is to monitor and control spinal curvature once AIS has been found.

Treatment options for scoliosis In general, patients are suggested to undergo different types of treatments according to their spine situations and stage of scoliosis. Surgery is suggested for patients with spinal curves that are greater than 41-50 degrees, while bracing is a non-invasive treatment suggested for those with spinal curves between 21-40 degrees. Thoraco-lumber-sacral-orthosis (TLSO) or cervico-thoraco-lumbo-sacral orthosis (CTLSO) braces are the most commonly prescribed and used braces. The 3-point pressure system is primarily applied by all TLSO braces in order to correct the spinal curve and reduce the curve progression. The plaster cast is tailor-made according to the body shape of each patient. The upper torso of the wearer needs to be tightly compressed by this non-breathable material for 23 hours every day. The duration of the treatment duration will be for years until the bones are fully mature.

Aside from the fact that newer types of flexible brace products in the market are not available in large numbers, their effectiveness continues to be controversial and there is much room for improvement. The SpineCor Dynamic brace is one of the flexible braces used to treat AIS. The theory behind the SpineCor system is known as spinal coupling. Spinal coupling corrects deformities by reversing abnormal posture and body shape into their opposite position so that the abnormal alignment of the spine can be corrected. As the spinal curve of each patient is different, thus appropriate positions and tensions of the elastics will be respectively placed and adjusted by a professional before the patient wears the brace. It has been found that the curve progression rate of those who wear the SpineCor Dynamic brace is significantly higher than those who wear the rigid brace. It is believed that the ineffectiveness of the flexible brace may be caused by the shifting of the elastic bands. The elastic bands present on the brace are not fixed to the body of the wearer, and may easily shift to other areas during movement. Hence, the corrective force will no longer be exerted onto the correct position for posture and body shape correction.

A summary of the research rationale is listed below. Research rationale 1: Low treatment compliance Treatment through the use of a hard brace has low compliance due to discomfort and psychological issues, such as an awkward and bulky appearance. Flexible braces have other issues, such as discomfort caused by the elastic bands, inconvenience when going to the toilet, and unusual designs, which also result in low compliance. New designs that aim to improve compliance are therefore extremely important.

Research rationale 2: Limited product choice for adolescents with early scoliosis Hard brace treatment is overly excessive for adolescents with early scoliosis due to the high corrective force which nearly constrains all movements. The flexible brace treatment is an alternative option; however, its efficacy remains controversial. Intimate apparel that has a specialized design for teenagers with scoliosis is limited and a large majority can only provide some improvement for poor postures, such as hunchback. A scientific approach should be used to design and develop functional intimate apparel as a treatment option for adolescents with early scoliosis.

Conditions

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Adolescent Idiopathic Scoliosis

Keywords

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AIS

Study Design

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Allocation Method

NA

Intervention Model

SINGLE_GROUP

Patients currently on underarm brace treatment will be eligible for participation in our study. For those that agree to participate, a AP/lat standing X-ray and force measurements of the brace on the rib and loin hump will be taken. They will be then be asked to wear a customised postural correction girdle 24 hours after they have taken off the brace. The same study assessments will be conducted.

Patients whose forces and radiological Cobb correction are comparable between the two methods of treatment will be given a choice to either continue the hard brace or wear the posture correction girdle.
Primary Study Purpose

TREATMENT

Blinding Strategy

NONE

Study Groups

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Posture Correction Girdle

Our research team has designed a prototype of posture correction girdle based on the clinical, textile science, material and ergonomics engineering analyses as an alternative to hard brace for AIS. The design of the posture correction girdle incorporates different mechanisms, such as 1) compression and pulling forces through a close fit of the intimate apparel, 2) lumbar flexion by using supporting belt, 3) transverse forces applied by inserting pads inside the pocket lining by using the principle of the 3-point pressure system.

Group Type EXPERIMENTAL

Posture correction girdle

Intervention Type DEVICE

Our research team has designed a prototype of posture correction girdle based on the clinical, textile science, material and ergonomics engineering analyses as an alternative to hard brace for AIS. The design of the posture correction girdle incorporates different mechanisms, such as 1) compression and pulling forces through a close fit of the intimate apparel, 2) lumbar flexion by using supporting belt, 3) transverse forces applied by inserting pads inside the pocket lining by using the principle of the 3-point pressure system.

Interventions

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Posture correction girdle

Our research team has designed a prototype of posture correction girdle based on the clinical, textile science, material and ergonomics engineering analyses as an alternative to hard brace for AIS. The design of the posture correction girdle incorporates different mechanisms, such as 1) compression and pulling forces through a close fit of the intimate apparel, 2) lumbar flexion by using supporting belt, 3) transverse forces applied by inserting pads inside the pocket lining by using the principle of the 3-point pressure system.

Intervention Type DEVICE

Eligibility Criteria

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Inclusion Criteria

* • Satisfy SRS criteria for bracing15

* Curretly treated for rigid underarm brace
* Primary Cobb angle between 25 to 40 degrees

Exclusion Criteria

* • Contraindications for x-ray exposure

* Diagnosis of other musculoskeletal or developmental illness that might be responsible for the spinal curvature
* History of previous surgical or orthotic treatment for AIS
* Contraindications for pulmonary and / or exercise tests
* Psychiatric disorders
* Recent trauma
* Recent traumatic (emotional) event
Minimum Eligible Age

10 Years

Maximum Eligible Age

15 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No

Sponsors

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The Hong Kong Polytechnic University

OTHER

Sponsor Role collaborator

The University of Hong Kong

OTHER

Sponsor Role lead

Responsible Party

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Dr. Kenny Kwan

Clinical Assistant Professor

Responsibility Role PRINCIPAL_INVESTIGATOR

Principal Investigators

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Prof Kenneth Cheung, MBBS (UK), MD (HK)

Role: STUDY_CHAIR

The University of Hong Kong

Locations

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Duchess of Kent Children's Hospital

Hong Kong, , Hong Kong

Site Status RECRUITING

Countries

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Hong Kong

Central Contacts

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Kenny Kwan, BMBCh (Oxon)

Role: CONTACT

Phone: +852 22554654

Email: [email protected]

Ms Amy Cheung, MA

Role: CONTACT

Phone: +852 22554654

Email: [email protected]

Facility Contacts

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Dr Kenny Kwan, BMBCh (Oxon)

Role: primary

Ms Amy Cheung, MA

Role: backup

Other Identifiers

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UW16-505

Identifier Type: -

Identifier Source: org_study_id