Extending Ultrasound Elastography to Manual Treatment Methods
- Conditions
- Back Pain
- Registration Number
- NCT01221155
- Lead Sponsor
- Canadian Memorial Chiropractic College
- Brief Summary
Manual treatment offers benefit to some patients suffering from back pain but little is known about which of the many tissue layers are affected. This study will help identify which tissues may be stimulated sufficiently to be a source for the clinical effects of treatment and to prioritize future work to understand mechanisms of back pain and to improve care.
Current soft-tissue ultrasound elastography techniques, under static condition, will be extended to quantify relative displacement and strains(active and passive)across the depth of tissue strata that arise from small amplitude motions during continuous passive motion clinical procedures and in weight bearing postures. Relative movement of the stratified layers of the back, from treatment and task-generated perturbations, will enable the elastography interrogation of the tissue.
- Detailed Description
1. Tissue displacement and strain differs dependent on comparable tasks, in recumbent vs upright postures and muscular activation.
- Refine motion tracking and stabilization of manual elastography, used in preliminary study, to evaluate layered tissue strain patterns during clinical continuous passive motion (flexion, extension and lateral bending) and standardized weight bearing (stance, flexion to 15 degrees and arm-extended weight holding).
2. Relative muscle activity is significantly related to muscle strain ratio.
- Evaluate the biceps as a simple model, in parallel, for displacement and elastography changes.
3. Displacement and strain decrease monotonically as depth of paraspinal tissue from the surface increases.
- Evaluate the timing relationship of total passive loads, myoelectric paraspinal behavior displacement/strain characteristics at the l4/l5 level for the longissimus, intermuscular fascia and multifidus at baseline and during standardize weight bearing tasks as well as at recumbent baseline, during and return to neutral for prone and lateral recumbent continuous passive motion maneuvers.
4. Change in tissue displacement and strains differ between healthy and unhealthy individuals when change in muscle activity and tissue layer are taken into account.
* Assess any differences in displacement and strain characteristics of the layered longissimus, intermuscular fascia and multifidus between healthy and chronic low back patients in the timing relationship to movement, total passive load amplitudes and myoelectric activity.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 101
- 18-45 years old
- a clean history
- no episode of disabling back pain
- no episode of disabling leg pain
- no episode within the prior 90 days will be required Back Pain Subjects
- experiencing continuous episodes of low back pain within the prior 90 days
- experiencing recurring episodes of low back pain within the prior 90 days
- have pain at >3.0 on Visual Analogue Scale
- history of diabetes
- history of neuromuscular disease
- history of scoliosis apparent on inspection
- a bleeding disorder
- collagen vascular disease
- corticosteroid therapy
- extensive scarring or dermatological abnormalities, including adhesive tape sensitivity
- women who are pregnant or have active menstruation will be excluded to avoid positional discomfort.
- pain radiating below the knee or loss of motor, bowel or bladder control
Volunteers taking anti-inflammatory or antihistamine medications will be asked to discontinue their use 3 days before testing.
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method The quantitative tissue displacement and strains. baseline and 6 weeks These parameters may be considered as total cumulative displacement and strain over the recording interval or smaller epochs sequentially over time. After analysis completion, power and effect sizes will be calculated for the various parameters being studied. In cases where statistical power is found to be insufficient, calculation for appropriate sample size estimates will be compiled to guide future work. Secondary analyses will explore linear vs non-linear representations of the data. The best fit of linear/nonlinear correlations will be used to describe all muscle relationships.
Timing of change in the relative myoelectric activity. baseline and 6 weeks These parameters may be considered as total cumulative displacement and strain over the recording interval or smaller epochs sequentially over time. After analysis completion, power and effect sizes will be calculated for the various parameters being studied. In cases where statistical power is found to be insufficient, calculation for appropriate sample size estimates will be compiled to guide future work. Secondary analyses will explore linear vs non-linear representations of the data. The best fit of linear/nonlinear correlations will be used to describe all muscle relationships.
Strain ratio in the context of a series of motions in upright/recumbent postures and in healthy/chronic low back pain volunteers. baseline and 6 weeks These parameters may be considered as total cumulative displacement and strain over the recording interval or smaller epochs sequentially over time. After analysis completion, power and effect sizes will be calculated for the various parameters being studied. In cases where statistical power is found to be insufficient, calculation for appropriate sample size estimates will be compiled to guide future work. Secondary analyses will explore linear vs non-linear representations of the data. The best fit of linear/nonlinear correlations will be used to describe all muscle relationships.
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (1)
Canadian Memorial Chiropractic College
🇨🇦Toronto, Ontario, Canada