Evaluation of Static Postural Balance in Children With Hemophilia and Its Relationship With Joint Health

Completed

• Conditions: Hemophilia; Arthropathy of Ankle or Foot; Arthropathy of Knee

• Registration Number: NCT04406519
• Lead Sponsor: Necmettin Erbakan University

Brief Summary

Hemophilia is a rare hematological disorder characterized by a partial or complete deficiency of clotting factor VIII or IX.Bleeding disorders mainly affect the musculoskeletal system. Intra-articular bleeding is an important complication related to hemophilia and usually occurs in large synovial joints such as knees and ankles. Initially, these bleeds occur non-specific spontaneously and usually affect one joint, and repeated bleeding makes that joint a target joint. Postural balance can be defined as the ability to maintain a stable posture for maximum duration with minimal body sway, or to hold the body centre of gravity (CoG) over its base support in varying conditions (1). Somatosensorial information from mechanoreceptors, visual and vestibular receptors is required to maintain postural balance. Postural balance is tried to be controlled by the postural adjustments provided by the contraction of the lower limb muscles and trunk muscles before perturbation. Spontaneous hemarthrosis is a distinctive feature of severe haemophilia, and that recurrent bleedings may likely to cause postural balance disorders by disrupting proprioceptive inputs from mechanoreceptors in the joint. Data on how bleeding affects postural balance in children with hemophilia is unclear.In the relationship between the clinical evaluation of hemophilia and postural balance, there is little research in the literature.

Detailed Description

The aim of this study was to investigate the changes in static postural balance parameters more reliably and comprehensively with a longer test duration and to reveal the relationship between balance parameters and joint health score in children with hemophilia. The investigator's hypothesis was that in children with hemophilia (CwH), postural balance was correlated with joint health status and had poor static postural balance compared to healthy peers.

Twenty-one CwH aged 6 to 18 years who developed hemophilic arthropathy in at least one of the lower limb joints due to severe hemophilia and twenty-one healthy peers were included in the study.

The Hemophilia Joint Health Score (HJHS), a valid and reliable test, was used to measure the joint health in CwH. Muscle strengths were measured with digital dynamometer. The kinetic devices most commonly used to evaluate in the laboratory evaluation of postural balance are the force platform and are considered the gold standard method. In the postural balance evaluation, changes in the X and Y axis were used. The amplitude of these changes, the standard deviation of the displacement, and the velocity were evaluated. In addition, the ellipse area and perimeter were measured.

Study Timeline

• Study Start: 2018-02-01
• Primary Completion: 2018-07-01
• Study Completion: 2019-05-15
• Status Verified: 2020-05
• Study First Submitted: 2020-05-20
• Study First Submitted QC: 2020-05-23
• Last Update Submitted: 2020-05-23
• Study First Posted: 2020-05-28
• Last Update Posted: 2020-05-28

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Male
• Target Recruitment: 42

Inclusion Criteria

• Aged 6 to 18 years
• Participants do not perform regular physical activity and sports.
• For hemophilia group who developed hemophilic arthropathy in at least one of the lower limb joints due to severe hemophilia (total lower limb hemophilia joint health score ≥3).
• For hemophilia group patients to be receiving prophylaxis but have no major bleeding that could affect the musculoskeletal system in the past two weeks

Exclusion Criteria

• Have any auditory and visual impairment
• Undergo any orthopedic injuries including lower limb
• Have any neurological or cognitive disorders

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Hemophilia Joint Health Score	1 month	The score for each index-joint range from 0 to 20 and the lower limb joint score from 0 to 80. A high score indicates that the joint health is worse.
Center of Pressure (CoP)- CoPX and CoPY	1 month	Amplitude of CoP is the difference between the biggest and smallest CoP displacement for X-axis (CoPX) and Y-axis (CoPY), the smaller the score, the better the postural stability.
Velocity- Mediolateral (MLV) and Anteroposterior (APV)	1 month	The velocity is calculated by dividing the CoP excursion by trial time and expressed in mm/sec. It reflects the effectiveness of the postural stability- the bigger the velocity indicates the worse the postural control.
Standard deviation of body sway- Mediolateral (MLSD) and Anteroposterior (APSD)	1 month	The lower standard deviation in the body sway indicates that the postural balance is well.
Ellipse Area	1 month	%90 of the total area scanned in the mediolateral and anteroposterior direction is calculated using an ellipse. A high score indicates that postural balance is worse
Perimeter	1 month	Quantifies the size of the displacement based upon the total distance scanned in mm, and the higher the length of the scanned area considered that postural stability is poor
Muscle strength	1 month	The flexors and extensors of the knee were measured by giving the resistance from proximal malleoli when the hip and knee were in 90° flexion during sitting position. The dorsi and plantar flexors of ankle were measured in the lower limb stabilized in supine position, giving resistance from the proximal of the metatarsophalangeal joint and was recorded in pounds.
Standard deviation of the trunk	1 month	Total,anteroposterior and mediolateral standard deviation of the trunk were measured in degrees by the sensors. The lower standard deviation in the trunk sway indicates that the postural balance is well.

Trial Locations

Locations (1)

Yuzuncu Yil University; 🇹🇷 Van, Bardakcı, Turkey