Clinical Trials Logo

Clinical Trial Details — Status: Enrolling by invitation

Administrative data

NCT number NCT02610855
Other study ID # 15-005602
Secondary ID
Status Enrolling by invitation
Phase N/A
First received
Last updated
Start date November 2015
Est. completion date August 2024

Study information

Verified date October 2023
Source Mayo Clinic
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This study will explore the relationship between skeletal muscle and physical activity in scoliosis patients to provide insight into both the etiology of scoliosis and potential ways to mitigate the potential harms of treatment.


Description:

The aims include first, to quantify the posture and physical activity of patients in the community before and after scoliosis treatment and compare to age-matched controls. Patients undergoing bracing or surgery for scoliosis will wear novel low-profile electronic monitors for 4 days prior to and at one year after initiation of treatment. Accelerometer data from the 4 activity monitors are combined for a comprehensive profile of daily activity, above and beyond that of a typical pedometer. Analysis will show a participant's % active time vs. static, % time sitting vs. lying down vs. standing vs. walking, total number of steps taken per day, and cadence of walking during each activity bout. The amount of total daily time spent lying, sitting, standing, walking and running will be quantified using specialized processing algorithms developed at Mayo Clinic. Results will be compared to a group of age- and BMI-matched control patients with healed forearm fractures. Second, to determine changes in the mechanical properties of the paraspinal skeletal musculature (muscles along the spine) in scoliosis patient before and after treatment with brace or spinal surgery. Shear Wave Elastography (SWUE) is a technique that uses ultrasound, a non-invasive imaging technique, to detect mechanical properties of tissues. Using SWUE, the stiffness in the paraspinal muscles will be obtained by acquiring Shear modulus measurements, reported in kilo Pascal (kPa) units. 10 measurements will be obtained for each muscle and a region of interest (ROI) will be placed in the displayed elastogram or color map from each measurement to obtain a "kPa" value. A mean shear modulus or stiffness will be obtained by averaging all 10 results. The measurements from each ROI are derived using software built in the ultrasound equipment. The change in paraspinal skeletal muscle stiffness will be assessed and compared to normal controls to determine characteristics of spinal musculature in scoliosis patients and the impact of treatment with bracing or surgery.


Recruitment information / eligibility

Status Enrolling by invitation
Enrollment 200
Est. completion date August 2024
Est. primary completion date August 2024
Accepts healthy volunteers No
Gender All
Age group 9 Years to 16 Years
Eligibility Inclusion Criteria: - Males and females between 9 to16 years of age - Scoliosis/Surgery group; has severe scoliosis curves requiring posterior spinal fusion surgery - Scoliosis/Brace group; has scoliosis curves requiring brace treatment for at least the next year - The Control group will be aged matched participants who have healed forearm fractures and will be matched to case patients by age, gender, and Body Mass Index (BMI). These children will be considered normal subjects for both the accelerometers and the Shear Wave Elastography (SWUE) Exclusion Criteria: - Patients with underlying muscle conditions or neuromuscular scoliosis

Study Design


Related Conditions & MeSH terms


Intervention

Procedure:
Spinal Fusion Surgery
Participants with severe scoliosis curves requiring spinal fusion surgery.
Other:
Bracing
Participants with scoliosis curves that require brace treatment for at least the next year. Braces include monitors to record hours of brace wear, as is current standard of care.
Device:
Tri-axial Accelerometers
Four monitors are place on the participant (waist, thigh, both ankles), attached with straps. Periods of static and dynamic activity are measured based on accelerations in three orthogonal directions for 4 day's time while participating in regular daily activities.
Other:
Shear Wave Elastography (SWUE)
SWUE is an ultrasound technique for noninvasively evaluating the mechanical properties (stiffness) of skeletal muscle tissue. A commercial ultrasound scanner (Aixplorer from Supersonic Imagine, France) with 2D real time SWUE will be used. The Aixplorer uses ultrasonic push beams to produce shear waves in tissue. The shear wave propagation speed is inherently related to tissue mechanical properties and is used to create a quantitative 2D elastogram of the tissue.

Locations

Country Name City State
United States Mayo Clinic in Rochester Rochester Minnesota

Sponsors (1)

Lead Sponsor Collaborator
Mayo Clinic

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Change in percentage of day with static activity Physical activity is measured by 4 wearable Tri-axial Accelerometers, worn for a 4 day period at baseline (prior to surgery or brace placement) and at one year after surgery of brace placement. Each second of data will be classified as static or dynamic. Among static postures, lying, standing and sitting are determined based on the orientation of the waist and thigh accelerometers in relation to the line of gravity. Accelerometer data from the 4 activity monitors are combined to provide a total percentage of time with static activities. Baseline, 1 year
Primary Change in dynamic physical activity as measured by step counts Physical activity is measured by 4 wearable Tri-axial Accelerometers worn for a 4 day period at baseline (prior to surgery or brace placement) and at one year after surgery of brace placement. Each second of data will be classified as static or dynamic. Dynamic movements will be classified as walking, jogging or stair climbing based activity that exceeds the pre-defined accelerometer amplitude threshold. Step counts will be calculated based on detection of peak accelerations of the bilateral ankles using adaptive thresholds during the longest period of walking. Accelerometer data from the 4 activity monitors are combined to provide a total measure of dynamic physical activity. Baseline, 1 year
Secondary Change in mean paraspinal muscle stiffness Muscle stiffness is measured by Shear Wave Elastography (SWUE). This measurement evaluates normal muscle's passive and active properties at a variety of angles and tensions, resulting in a shear modulus reading, measured in average kilo Pascal units from 10 images of each muscle region of interest. A transducer is used with ultrasound to produce shear waves in tissue. The wave speed relates to the tissue's mechanical properties and is used to create a quantitative 2D elastogram of the tissue. Multiple shear modulus measurements will be averaged, and obtained:
on control subjects at the left and right sides of the T12 spine segment level
on the scoliosis patients, at the periapical area (apex of curve, where it is most tilted)
at the concave and convex sides as well as at an area remote from the curvature
Baseline, 1 year
See also
  Status Clinical Trial Phase
Recruiting NCT04848376 - Post-Market Clinical Follow-up Study of A-SPINE's Products
Recruiting NCT05944393 - Erector Spine Plane (ESP) Block for Analgesia in Pediatric Scoliosis Surgery N/A
Recruiting NCT05888038 - Virtual Reality's Effect on Decreasing Pain and Subsequent Opioid Use in Pediatric Patients in the Post-Operative Period Following Scoliosis Repair N/A
Completed NCT02531945 - Evaluation of the Surface Topography for Monitoring Scoliosis Patients Aged 10-13 Years N/A
Completed NCT02413788 - Impact of Aerobic Training and Combined in Inflammatory Markers in Patients With Adolescent Idiopathic Scoliosis N/A
Completed NCT02558985 - Pulmonary Compliance Changes During Manipulation of Early Onset Scoliosis and Cast Application
Completed NCT02890654 - Scoliosis and Quality of Life of Adolescents
Completed NCT02609009 - Back Pain and Spinal Manipulation in Adolescent Scoliosis N/A
Terminated NCT02134704 - MOUVSCO: Kinematic Analysis of the Trunk in Patients With Moderate Scoliosis N/A
Completed NCT02285621 - Validation of a New Generation of Optimized Orthoses for Personalized Treatment of Adolescent Idiopathic Scoliosis N/A
Withdrawn NCT00768313 - Phase IV Comparing Rods of Yield Strengths to Correct Adolescent Idiopathic Scoliosis. Phase 4
Completed NCT00155545 - Influence of Leg Length Discrepancy on the Spinal Shape and Biomechanics in Functional and Idiopathic Scoliosis Patients Phase 1
Completed NCT00154505 - Effects of Lateral Trunk Support on Spinal Alignment in Spinal Cord Injured Persons Phase 1
Completed NCT00320619 - Epsilon-Aminocaproaic Acid to Reduce the Need for Blood Transfusions During and Following Spine Surgery N/A
Completed NCT00273598 - Comparing Two Instrumentation Systems for the Treatment of Adolescent Scoliosis Phase 2
Completed NCT03135665 - Using Radiation-free Ultrasound for Screening Scoliosis Among School Children in Hong Kong to Reduce Unnecessary X-ray Exposure N/A
Completed NCT06428864 - Effect of the Use of a 3D Scanner Application on a Smartphone to Mold Garchois Orthotic Device in Neuromuscular Diseases Patients With Scoliosis
Recruiting NCT04423146 - Anesthesiologic Management Effect on Perioperative Outcome in Scoliosis Surgery
Completed NCT03814239 - Blood and Fluid Management During Scoliosis Surgery
Withdrawn NCT02058238 - ADDRESS - Adult Deformity Robotic vs. Freehand Surgery to Correct Spinal Deformity

External Links