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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05523388
Other study ID # 2022-01170; mu22Netzer3
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date September 1, 2022
Est. completion date October 2026

Study information

Verified date February 2024
Source University Hospital, Basel, Switzerland
Contact Cordula Netzer, PD Dr. med.
Phone +41 61 265 78 30
Email cordula.netzer@usb.ch
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

This study is to improve the understanding of the role of postural and ambulatory biomechanics for symptoms in patients with sLSS and to correlate patient-reported outcome measures (PROMs) with dynamic compensation (difference between static and dynamic sagittal spinal alignment) in patients with symptomatic lumbar spinal stenosis sLSS).


Description:

Lumbar spinal stenosis (LSS) is a common syndrome affecting the human spine characterized by age related degeneration of the lumbar discs, facet joints (FJs) and hypertrophy of the ligamentum flavum resulting in pain, limited function and compromised quality of life. Understanding the interrelationship between spinal load, kinematics and functional disability is one of the key factors in the prevention of this disease. This project assesses sagittal spinal balance and motion in patients with sLSS using an optoelectronic method based on infrared cameras and retroreflective markers and elicits paraspinal muscle fatigue using a modified version of the Biering-Sørensen test and compares sagittal spinal balance and motion before and after the fatigue exercise, which will allow to associate sLSS-specific motion patterns to paraspinal muscle fatigue. Additional data generated using magnetic resonance imaging (MRI) allows detecting associations between sLSS, muscle degeneration and fatty infiltration. Radiological images from the spine will be obtained in upright position using EOS®, a specialized low-dose x-ray unit. These images will allow the calculation of the anatomical global and local sagittal spinal balance, enabling a characterization of spinal kinematics in patients with sLSS and a validation of the workflow based on the optoelectronic method. Coded data obtained from EOS and motion analysis will allow optimizing existing biomechanical musculoskeletal models of the human spine. The results of this study will provide first mechanistic evidence of the role of clinical, radiological, functional and biomechanical factors in spine load. The combination of in vivo experiments with in silico experiments represents a unique opportunity of translating knowledge gained from systematic experiments considering biological measurements back to the patient. This study is to improve the understanding of the role of postural and ambulatory biomechanics for symptoms in patients with sLSS.


Recruitment information / eligibility

Status Recruiting
Enrollment 122
Est. completion date October 2026
Est. primary completion date October 2026
Accepts healthy volunteers No
Gender All
Age group 30 Years and older
Eligibility Inclusion Criteria: - age > 30 years - BMI < 35 kg/m2 - diagnosed sLSS - clinical symptoms for at least 6 months - intermittent neurogenic claudication with limitations of their walking ability due to symptoms in the lower back and or in one or both legs - unsuccessful conservative treatment - confirmation of the LSS through MRI - scheduled for surgery Exclusion Criteria: - inability to provide informed consent - previous spine surgery - use of walking aids - other neurologic disorders affecting gait - MRI incompatibility - pregnancy

Study Design


Intervention

Other:
Collection of health-related data
A multimodal set of data including experimental, clinical, functional, radiological and biomechanical data is compiled before and after routine surgical intervention at baseline and at one-year follow-up.

Locations

Country Name City State
Switzerland Department of Spine Surgery, University Hospital Basel Basel

Sponsors (2)

Lead Sponsor Collaborator
University Hospital, Basel, Switzerland Swiss National Science Foundation

Country where clinical trial is conducted

Switzerland, 

Outcome

Type Measure Description Time frame Safety issue
Other Change in Quality of life (EQ-5D-5L) The EQ-5D-5L comprises 5 questions/dimensions (mobility, self-care, usual activities, pain, depression) with Likert-scale response and a visual analogue scale where patients are asked to rate their overall health from 0 (the worst health imaginable) to 100 (the best health imaginable). Each dimension allows to choose five levels labelled as (1) 'not /no problems', (2) 'slight problems', (3) 'moderate problems', (4) 'severe problems', and (5) 'unable to' (mobility, self-care, usual activities), 'extreme' (pain/depression), or 'extremely' (anxiety/depression). Using the EQ-5D-5L, a total of 3125 different health states can be described. The final EQ index is a number between 0 and 1, with 0 indicating the poorest possible health (a state as bad as being dead) and 1 indicating the best possible health. At baseline and at one-year follow-up
Other Change in Swiss spinal stenosis score The Swiss Spinal Stenosis Questionnaire is a self-report outcome questionnaire for patients with LSS and assesses the intensity of symptoms, physical function, and patient satisfaction following treatment. At baseline and at one-year follow-up
Other Change in Tampa scale of kinesiophobia The Tampa scale is a 17-item self-report questionnaire based on the assessment of fear of exercise, fear of physical activity, and fear avoidance. It consists of two subscales. While activity avoidance revolves around the reflection of activities that may increase pain or cause injury, somatic focus investigates the reflection of beliefs and underlying serious conditions. At baseline and at one-year follow-up
Other Change in Core Outcome Measures Index for the back (COMI back) The COMI is a validated 11-item self-report questionnaire for assessing the main outcomes of importance to patients back problems. At baseline and at one-year follow-up
Other Change in Upper body motion (inertial sensor data) During all tasks, inertial sensor data will be collected. Inertial sensors (Blue Trident IMU, Vicon, Oxford, UK) will be placed on the subjects' femora, thoracic and lumbar spine and on the sternum. Accelerations and angular velocity will be captured for all movement assessments. At baseline and at one-year follow-up
Other Change in Manual testing for muscle strength Selected muscles of the legs will be assessed according to Janda's M5/5 levels of strength. In a sitting position: Hip flexion / M. iliopsoas (L2), Knee extension/ M. quadriceps femoris (L3). In a supine lying position: Foot extension (lift up) / M. tibialis anterior (L4), Lifting the big toe/ M extensor hallucis longus (L5). Foot extension (push down)/ M. gastrocnemius (S1). At baseline and at one-year follow-up
Other Change in Physical activity level Physical activity (PA) level will be assessed using an activity monitor (GENEActiv, Activinsights, Kimbolton, UK) during three periods of time (9 days each). first assessment period: 9 days after the baseline measurement on test day 1; second period: 6 months after the spine surgery; third period: for 9 days at the one-year follow-up visit
Other Change in Back performance scale The Back performance scale is an assessment consisting of a series of five movement activities that require mobility of the trunk. The activities (sock test, pick-up test, roll-up test, fingertip-to-floor test, and lift test) all require sagittal-plane mobility and are scored from 0 (can easily do) to 3 (hard/limited to do. At baseline and at one-year follow-up
Primary Change in Oswestry disability index (ODI) Disability related to sLSS will be assessed with the ODI, which is considered the gold standard of low back functional outcome tools. The ODI is a questionnaire comprising 10 self-administered items that quantify a patient's perceived level of functional disability. Each of the items relates to a different area of functional impairment and consists of six statements, which are scored from zero to five points. At baseline and at one-year follow-up
Primary Change in Dynamic compensation Dynamic compensation is defined as the difference between static and dynamic sagittal spinal alignment. Six possible gait events are available to choose from for the definition of dynamic sagittal spinal balance (left and right; heel-strike, toe-off, midstance). Dynamic sagittal spinal balance may be defined as sagittal spinal balance during left/right midstance, left/right heel strike and/or left/right toe off. The most appropriate gait event to calculate dynamic sagittal spinal balance will be used. At baseline and at one-year follow-up
Secondary Change in Sagittal spinal balance assessed using motion capture The curvature of the lumbar and thoracic spine during stance and during walking will be computed from the marker data using MATLAB™ software. A cubic polynomial function will be fitted to the marker positions in each time frame, approximating an S-shaped spine curvature with thoracic kyphosis (TK) and lumbar lordosis (LL) curves. The workflow used to calculate sagittal spinal balance parameters is based on the calculation methods for radiological sagittal spinal balance parameters. The set of marker-based sagittal spinal balance parameters comprises LL, TK, sagittal vertical axis (SVA), spino-sacral angle (SSA), spine inclination (SI). The data obtained using motion capture will be used to estimate spinal load using musculoskeletal modeling. At baseline and at one-year follow-up
Secondary Change in Sagittal Spinal Balance assessed using EOS Sagittal spinal balance parameters from EOS radiological images are calculated semi-automatically using the sterEOS software provided by the EOS company. This workflow allows the calculation of four sagittal spinal balance parameters: SVA, SSA, LL and TK. LL is calculated as the angle between the tangents on the superior L1 and inferior L5 vertebral endplates. TK is calculated as the angle between the tangents on the superior T4 and inferior T12 vertebral endplates. SVA is measured as the horizontal distance between C7 plumb line and the posterior-superior corner of the S1 vertebra. SSA is defined as the angle between the line connecting the center of the C7 vertebra to the center of the S1 endplate and the line parallel to the superior S1 endplate. At baseline and at one-year follow-up
Secondary Change in Muscle fatigue assessed using electromyography (EMG) Muscle fatigue will be assessed as the decrease in median EMG frequency. At baseline and at one-year follow-up
Secondary Change in Muscle fatigue assessed by fatigue exercise duration The fatigue exercise duration will be measured using a stopwatch. Time is stopped from the point where the patients starts the exercise by no longer supporting the torso with their hands until the termination of the exercise by supporting the torso. At baseline and at one-year follow-up
Secondary Change in Radiological parameter: Muscle atrophy The measurement of muscle atrophy allows quantifying abdominal and paraspinal muscle degeneration. The analysis will be performed using ImageJ image analysis software (Version 1.52t, National Institutes of Health, Bethesda, Maryland). At baseline and at one-year follow-up
Secondary Change in Radiological parameter: Fatty infiltration The measurement of fatty infiltration allows quantifying abdominal and paraspinal muscle degeneration. The analysis will be performed using ImageJ image analysis software (Version 1.52t, National Institutes of Health, Bethesda, Maryland). At baseline and at one-year follow-up
Secondary Change in Radiological parameter: Muscle cross-sectional area (CSA) For L1 to L5, the cross-sectional area (CSA) of the abdominal and paraspinal muscles on each side will be measured, including the multifidus and the erector spinae (longissimus and iliocostalis) muscles, and the CSA of the vertebral body. The relative CSA (rCSA) will be defined as the ratio between muscle CSA and vertebral body CSA and calculated for each level and side. The CSA of lean muscle in the region of interest will be defined as LeanCSA and measured on each side. The ratio of LeanCSA to the paraspinal muscle CSA will be defined as functional CSA (LeanCSA/CSA), represented as % muscle CSA and calculated for each level and side. Overall CSA, rCSA and LeanCSA will be computed as average CSA (aCSA), average rCSA (arCSA) and average LeanCSA (aLeanCSA) across all levels considering the muscle as a single unit for each side. At baseline and at one-year follow-up
Secondary Change in Radiological parameter: Stenosis severity Stenosis severity will be classified according to Schizas (Grade A stenosis is the mildest, with abundant cerebrospinal fluid inside the dural sac. In grade B stenosis, the rootlets occupy the whole of the dural sac, but they can still be individualized. In grade C, no rootlets can be recognized but epidural fat can be visualized posteriorly. In grade D, in addition to no rootlets being recognizable, there is no epidural fat posteriorly). At baseline and at one-year follow-up
Secondary Change in Radiological parameter: Segmental instability Segmental instability will be determined as a relative shift in anteroposterior position of two adjacent segments between the upright standing radiograph and the lying MRI of more than 3mm. At baseline and at one-year follow-up
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