NCT07047794

Brief Summary

In the sagittal plane, the average kyphosis angle between the superior endplate of the T1 vertebra and the inferior endplate of the T12 vertebra is approximately 40 degrees. A thoracic spine angle greater than 45 degrees is defined as hyperkyphosis. The most common types of hyperkyphosis observed in juveniles and adolescents are Scheuermann's kyphosis, postural hyperkyphosis, and congenital hyperkyphosis. Postural hyperkyphosis is the most prevalent form among these types. It results from the weakness of the muscles responsible for maintaining an upright posture and occurs due to external forces acting on the spine. The curvature of the spine in this condition is not rigid and can generally be corrected when the individual is asked to stand upright. Postural hyperkyphosis is typically seen during adolescence. An increased thoracic kyphosis angle in postural hyperkyphosis can affect scapular kinematics, potentially leading to shoulder pathologies later in life, such as impingement syndrome, rotator cuff tendinopathy, rotator cuff tears, glenohumeral instability, and adhesive capsulitis. Additionally, hyperkyphosis can negatively affect body image and overall quality of life. If it begins in childhood and remains untreated, hyperkyphosis may persist into adulthood and contribute to increased healthcare expenditures. Given the growing prevalence of technology dependence and its association with rising hyperkyphosis incidence, early management of this deformity during juvenile and adolescent periods is essential in terms of both health and economic outcomes. In managing postural hyperkyphosis, it is important to address not only the angular correction of the deformity but also to consider the entire spine within the kinetic chain model. The kinetic chain model is a biomechanical concept that defines the body as a system of interconnected segments. Any dysfunction within one segment of the kinetic chain can affect the quality of movement in both the upper and lower segments. The scapula serves as a foundation within this model, acting as a force transmitter that converts potential energy generated by muscles into kinetic energy in the upper extremity. Hyperkyphosis can lead to scapular protraction and downward rotation, disrupting the normal positioning of the scapula. As a result, joint range of motion, strength, and performance in the upper extremity may be negatively affected. Studies in the literature have shown that scapular positioning and movements play a critical role in upper extremity function. However, no study has been found that specifically investigates the impact of altered scapular position on upper extremity performance in children with thoracic hyperkyphosis. Considering the increasing prevalence of thoracic hyperkyphosis in children due to rising technology addiction, and the potential for this deformity to contribute to upper extremity pathologies in adulthood, identifying its effects is crucial for improving children's physical performance and reducing future healthcare costs.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
36

participants targeted

Target at P25-P50 for all trials

Timeline
Completed

Started Jun 2025

Shorter than P25 for all trials

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

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Study Timeline

Key milestones and dates

First Submitted

Initial submission to the registry

June 23, 2025

Completed
Same day until next milestone

Study Start

First participant enrolled

June 23, 2025

Completed
9 days until next milestone

First Posted

Study publicly available on registry

July 2, 2025

Completed
5 months until next milestone

Primary Completion

Last participant's last visit for primary outcome

December 1, 2025

Completed
29 days until next milestone

Study Completion

Last participant's last visit for all outcomes

December 30, 2025

Completed
Last Updated

January 26, 2026

Status Verified

January 1, 2026

Enrollment Period

5 months

First QC Date

June 23, 2025

Last Update Submit

January 23, 2026

Conditions

Hyperkyphosis

Keywords

thoracic hyperkyphosisscapulakinetic chainupper extremity performance

Outcome Measures

Primary Outcomes (12)

  • Sociodemographic Status

    The sociodemographic status of the participants will be recorded with an evaluation form prepared by the researchers. Information on age, gender, dominant side, exercise habits will be questioned. Participants' privacy will be respected throughout the study, and no photographs will be taken.

    4 weeks

  • Upper Extremity Range of Motion

    Bilateral shoulder flexion, extension, abduction, elbow flexion, extension and wrist flexion and extension range of motion will be measured with a digital goniometer whose validity and reliability have been demonstrated.

    4 weeks

  • Upper Extremity Muscle Strength

    Bilateral trapezius upper-middle-lower fibers, serratus anterior, shoulder flexion, extension, abduction, elbow flexion, extension and wrist flexion and extension muscle strength will be measured with a myometer whose validity and reliability have been demonstrated.

    4 weeks

  • Flexicurve Ruler

    Flexicurve Ruler is a method that is preferred more than other methods because it is cheap, easy to use and has high validity and reliability. In our study, kyphosis curvatures will be measured with Flexicurve Ruler and kyphosis index will be calculated. Kyphosis index is the value found by dividing the width of the thoracic curvature by its length.

    4 weeks

  • Wall-Occiput Distance

    The increase in the thoracic kyphosis angle will be evaluated and recorded with the wall-occiput distance measurement. The distance between the occiput and the wall will be measured with a ruler while the individual to be tested stands in contact with the wall

    4 weeks

  • Scapula Position

    The Lateral Scapular Shift Test will be used to determine the scapula position in the 0, 45 and 90° abduction positions of the shoulder joint. Measurements of the scapular position will be made bilaterally in three test positions, between the spinous processes of the thoracic vertebrae in line with the inferior angle of the scapula.

    4 weeks

  • Closed Kinetic Chain Upper Extremity Stability Test

    Upper extremity will be used for strength, endurance and closed kinetic chain assessment. The test will be applied in a push-up position with the distance between the two hands set at 90 cm, then the number of repetitions completed within 15 seconds by extending one hand towards the other hand will be recorded.

    4 weeks

  • Upper Extremity Y-Balance Test

    It will be used to evaluate the balance, functionality and stability of the upper extremity and trunk. The evaluation will begin in a push-up position with both arms shoulder-width apart. Starting with the non-dominant hand, the maximum reachable distance in the medial, inferolateral and superolateral directions will be recorded

    4 weeks

  • Medicine Ball Throwing Test

    Upper extremity will be used to evaluate explosive power. In this test, the distance covered by throwing a 3 kg ball will be recorded

    4 weeks

  • Height

    The vertical distance from the top of the head to the heels of the individual. It will be measured in centimeters.

    4 weeks

  • Weight

    The mass of the individual's body in relation to gravity. It will be expressed in kilograms.

    4 weeks

  • Waist Circumference

    A circumferential measurement taken with a tape measure at the narrowest point of the waist, or at the midpoint between the lower margin of the last palpable rib and the top of the iliac crest, to assess abdominal fat distribution. It will be measured in centimeters

    4 weeks

Study Arms (1)

Group 1

Other: Assessment

Interventions

AssessmentOTHER

Children with thoracic hyperkyphosis between the ages of 7 and 14 who meet the inclusion criteria will be included in this study, which was conducted to examine the scapular position and its relationships with upper extremity joint range of motion, strength and performance in children with thoracic hyperkyphosis.

Group 1

Eligibility Criteria

Age7 Years - 14 Years
Sexall
Age GroupsChild (0-17)
Sampling MethodProbability Sample
Study Population

Children with thoracic hyperkyphosis will be included in our study.

You may qualify if:

  • Being between 7-14 years old
  • Thoracic kyphosis angle (Cobb) on lateral radiograph: ≥45˚ or kyphosis index ≤13

You may not qualify if:

  • Those who have had major surgery or trauma related to the musculoskeletal system, especially the spine and upper extremities
  • Difficulty in perceiving commands
  • Rigid deformity in the spine (Scheuermann kyphosis)
  • Congenital deformity

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

Istinye University

Istanbul, 34010, Turkey (Türkiye)

Location

MeSH Terms

Conditions

Kyphosis

Interventions

Restraint, Physical

Condition Hierarchy (Ancestors)

Spinal CurvaturesSpinal DiseasesBone DiseasesMusculoskeletal Diseases

Intervention Hierarchy (Ancestors)

Behavior ControlTherapeuticsImmobilizationInvestigative Techniques

Study Design

Study Type
observational
Observational Model
OTHER
Time Perspective
PROSPECTIVE
Sponsor Type
OTHER
Responsible Party
PRINCIPAL INVESTIGATOR
PI Title
Asst. Prof.

Study Record Dates

First Submitted

June 23, 2025

First Posted

July 2, 2025

Study Start

June 23, 2025

Primary Completion

December 1, 2025

Study Completion

December 30, 2025

Last Updated

January 26, 2026

Record last verified: 2026-01

Locations

TU(1)