Clinical Trial: Using Structural Health Monitoring to Improve Diagnosis and Treatment of Low Back Injury in U.S. Service Members- Phase 2

Study Status: Recruiting
Recruit Status: Recruiting
Study Type: Interventional

Official Title: Using Structural Health Monitoring to Improve Diagnosis and Treatment of Low Back Injury in U.S. Service Members- Phase 2

Brief Summary:

The focus of this project is to evaluate the diagnostic utility of Shear Wave Elastography (SWE) in individuals after routine low back injury and begin an initial investigation of it's ability to effectively guide physical therapy treatment with dry-needling as a relevant treatment intervention.

Specific Aim #1: Evaluate the diagnostic utility of SWE in differentiating individuals with and without LBP. The investigators will also examine the interaction between tissue change and clinical improvement. The investigators hypothesize that individuals with LBP will have higher muscle stiffness (shear modulus) at rest and impaired (lower) stiffness during contraction than individuals without LBP.

Specific Aim #2: Evaluate the effectiveness of dry-needling in decreasing aberrant muscle stiffness in individuals with LBP. The investigators hypothesize that individuals with LBP that receive dry-needling will exhibit larger changes than both individuals with LBP that receive sham dry-needling and than individuals without LBP that receive dry-needling.

Specific Aim #3: Evaluate the effectiveness of dry-needling in decreasing pain and disability in individuals with LBP. The investigators hypothesize that individuals with LBP that receive dry-needling will exhibit larger improvements than individuals with LBP that receive sham dry-needling.


Detailed Summary:

Low back pain (LBP) is the second most frequent reason for health care visits and a leading cause of medical evacuation from theater. Traditional medical diagnosis based on static imaging strategies (e.g. MRI) has failed to improve management of this epidemic. Functional assessment of lumbar musculature using ultrasound imaging provides evidence of clinically relevant deficits in the lumbar multifidus (LM) muscle of patients with LBP, however such procedures are likely only valid within a narrow range of assessment conditions. Shear-Wave Elastography (SWE) is an evolving non-invasive ultrasound imaging technology capable of quantifying tissue stiffness (i.e., elasticity). Originally developed to improve diagnosis of soft tissue tumors, SWE is beginning to be used to as an alternative and more stable method of functional assessment of muscles.

This study will be the second project in a line of research aimed at improving the diagnosis, management, and treatment of patients with LBP using a new structural health monitoring technique called shear wave elastography (SWE). Since no previous studies had used SWE in the lumbar multifidus muscle, the initial project developed the measurement technique to be used with this device. We also established normative parameters, variance, and reliability estimates of SWE outcomes in asymptomatic individuals. A previous study, also performed at AMEDDC&S, found that individuals with LBP whom received dry needling to the lumbar multifidus muscle exhibited a reduction in pain and disability that was associated with an improved ability to contract the lumbar multifidus. The focus of this second project is to evaluate the diagnostic utility of SWE in individuals after routine low back injury and begin an initial investigation of it's ability to effectively guide physical therapy treatment with dry-needling as a relevant treatment intervent
Sponsor: Baylor University

Current Primary Outcome:

  • Change in muscle stiffness and activation utilizing shear-wave elastography after dry needling - one week follow-up [ Time Frame: 7 days ]
    SWE images of the lumbar multifidus and paraspinal muscles will be acquired at rest and during sub-maximal isometric contraction. All SWE images will be obtained using a Supersonic Aixplorer ultrasound system with a 50mm 10-2 MHz linear array. The sub-maximal contraction of the lumbar multifidus will be elicited by a contralateral arm lift maneuver while holding a small hand weight following techniques outlined in our previous work.42 The weight used will depend on the participant's body weight and will elicit approximately 30% of the MVC of the lumbar multifidus muscle as previously shown by fine wire EMG.43 Participants weighing less than 68 kg (150 lbs) will use .68 kg (1.5 lbs), those between 68-90 kg (150-200 lbs) will use .91 kg (2 lbs), and those greater than 91 kg (200 lbs) will use 1.36 kg (3 lbs). Participants will be instructed as follows: "lift your arm approximately 2 inches (5 cm) off the table".
  • Change in pain pressure threshold utilizing pressure algometry after dry needling [ Time Frame: 5 minutes ]

    Pressure algometry will used in the current study to determine the most painful spinal level at baseline and as a secondary outcome measure, pain pressure threshold (PPT), to assess abnormalities in nociceptive processing or hyperalgisia 37,38. PPT measures have been found to be highly reliable,39-41 especially when taken by the same rater (ICC=0.94-.097) 40. A digital pressure algometer (Wagner Force Ten FDX, Wagner Instruments, Greenwich, CT) will be used to measure PPT in the lumbar multifidus and paraspinal muscles o

    Original Primary Outcome: Same as current

    Current Secondary Outcome:

    • Change in Numerical Pain Rating Scale [ Time Frame: 7 days ]
      The numeric pain rating scale (NPRS) will be used to assess the participant's pain levels. The participant will grade his/her pain on an 11-point scale ranging from 0 (no pain) to 10 (worst imaginable pain).The NPRS has been shown to be a reliable, generalizable, and internally consistent measure of clinical and experimental pain intensity in individuals with musculoskeletal disorders.33,34 A 2-point change on the NPRS is required to be clinically meaningful.
    • Change in function and disability utilizing a physical exam [ Time Frame: 7 days ]
      Participants with current LBP will undergo a standardized clinical examination based the Treatment Based Classification System.31 Patients without current LBP will undergo an abbreviated examination primarily focused on sociodemographic
    • Change in Oswestry Disability Index [ Time Frame: 7 days ]
      The Oswestry Disability Index (ODI) is a LBP-specific subjective measure of disability. Users are asked to rate the difficulty of performing 10 functional tasks on a scale of 0 to 5 with different descriptors for each task. A total score out of 100 is calculated by summing each score and doubling the total. The answers provide a score between 0 and 100, with higher scores representing more disability. It has been shown to have excellent test-retest reliability (ICC2,1=.90), good validity, and superior responsiveness compared to other leading disability scales.32


    Original Secondary Outcome: Same as current

    Information By: Baylor University

    Dates:
    Date Received: January 26, 2015
    Date Started: January 2015
    Date Completion: June 2016
    Last Updated: January 11, 2016
    Last Verified: January 2016