It is estimated that 23% of Quebecers suffer from chronic low back pain, and that 12% are disabled by this condition. Despite medical advances, the origin of so-called 'nonspecific low back pain' remains enigmatic. Conventional imaging methods by computed tomography and magnetic resonance may provide information on vertebral structures. However, very often, they do not diagnose lesions that genuinely correlate with the patient's symptoms. The lack of accurate diagnosis limits the therapeutic management in these patients. Therefore, patients are increasingly turning to alternative and complementary medicine therapies (e.g., acupuncture, chiropractic , osteopathy, shiatsu) to relieve their pain. These therapies target painful areas of abnormal hardening in muscles of the lower back and aim to release the tension in these tissues to control pain. However, these painful areas and their resolution after manual therapy have yet to be demonstrated by means other than manual palpation. We will conduct a randomized controlled trial in chronic low back pain patients to examine the effects of acupuncture, chiropractic therapy and therapeutic massage on lower back muscular and connective tissues' physical properties using innovative ultrasound techniques.
This will be a phase II, prospective, randomized controlled study, which will have received IRB approval and will be registered at Clinicaltrials.gov before it begins. Participants with chronic non specific low back pain (NSLBP) will be recruited from one site. On the day of the registration visit, the participants will meet with the research assistant to review and sign the consent form, give clinical and demographic data and respond to validated outcome questionnaires. The participants will then undergo a research dynamic ultrasound (US) of the lower back. One musculoskeletal radiologist will perform the US exams consisting of a series of 5 dynamic scans of both the right and left paraspinal muscles, obtained during passive flexion of the lower body. Following the US exam, the participants will be randomized in three groups (allocation 1:1). One group will receive a standardized acupuncture treatment and another group will receive a standardized chiropractic treatment. One treatment session per week for 3 consecutive weeks will be provided. Following the 3 treatment sessions, at week 4, the US exam will be repeated and the questionnaires will be administered. The third group will be placed on a waiting list for 3 weeks and will be reexamined by US and respond to the questionnaires at week 4. Then, the participants will undergo a standardized therapeutic massage treatment with one treatment session per week for 3 consecutive weeks. Following the 3 treatment sessions, at week 7, the US exam will be repeated and the questionnaires will be administered.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
SINGLE
Enrollment
60
Acupuncture, Chiropractic are recognized complementary medicines and Therapeutic Massage is an alternative healing practice.
Centre hospitalier de l'Université de Montréal
Montreal, Quebec, Canada
% shear strain change.
Percent shear strain between the thoracolumbar fascia and the epimysium of the erector spinae muscle.
Time frame: Change from baseline % shear strain at week 4 (Groups 1, 2 and 3). Change from week-4 % shear strain at week 7 (Group 3).
Quantitative ultrasound marker 'μ' change.
Statistical analysis of the echo envelope: the mean intensity μ. This marker is unitless.
Time frame: Change from baseline marker 'μ' at week 4 (Groups 1, 2 and 3). Change from week-4 marker 'μ' at week 7 (Group 3)
Quantitative ultrasound marker 'α' change.
Statistical analysis of the echo envelope: the scatterer clustering parameter α. This marker is unitless.
Time frame: Change from baseline marker 'α' at week 4 (Groups 1, 2 and 3). Change from week-4 marker 'α' at week 7 (Group 3)
Quantitative ultrasound marker 'κ' change.
Statistical analysis of the echo envelope: the structure parameter κ. This marker is unitless.
Time frame: Change from baseline marker 'κ' at week 4 (Groups 1, 2 and 3). Change from week-4 marker 'κ' at week 7 (Group 3)
Brief Pain Inventory short form 'pain severity' change.
The Brief Pain Inventory short form (BPI-sf) is a self-administered questionnaire used to assess the severity of a patient's pain and the impact of this pain on the patient's daily functioning. The BPI-sf includes the four pain severity items (worst pain in last 24 hours, least pain in last 24 hours, pain on average, pain right now) and the seven interference items (general activity; mood; walking ability; normal work including housework; relations with other people; sleep; enjoyment of life). Each item is scored on an 11-point numerical rating scale (NRS) where 0 indicates no pain and 10 indicates worst pain imaginable. There is no scoring algorithm. The arithmetic mean of the four severity items will be used as measures of pain severity; the arithmetic mean of the seven interference items will be used as a measure of pain interference. The minimum and maximum values are 0 and 10 respectively. A higher score represents a worse outcome.
Time frame: Change from baseline BPI-sf pain severity at week 4 (Groups 1, 2 and 3). Change from week-4 BPI-sf pain severity at week 7 (Group 3)
Brief Pain Inventory short form 'pain interference' change.
The Brief Pain Inventory short form (BPI-sf) is a self-administered questionnaire used to assess the severity of a patient's pain and the impact of this pain on the patient's daily functioning. The BPI-sf includes the four pain severity items (worst pain in last 24 hours, least pain in last 24 hours, pain on average, pain right now) and the seven interference items (general activity; mood; walking ability; normal work including housework; relations with other people; sleep; enjoyment of life). Each item is scored on an 11-point numerical rating scale (NRS) where 0 indicates no pain and 10 indicates worst pain imaginable. There is no scoring algorithm. The arithmetic mean of the four severity items will be used as measures of pain severity; the arithmetic mean of the seven interference items will be used as a measure of pain interference. The minimum and maximum values are 0 and 10 respectively. A higher score represents a worse outcome.
Time frame: Change from baseline BPI-sf pain interference at week 4 (Groups 1, 2 and 3). Change from week-4 BPI-sf pain interference at week 7 (Group 3)
Oswestry Disability Index (ODI) change.
Self-administered questionnaire. This test is widely used as a low back functional outcome tool. The minimum and maximum values are 0% and 100% respectively. A higher score means a worse outcome.
Time frame: Change from baseline ODI at week 4 (Groups 1, 2 and 3). Change from week-4 ODI at week 7 (Group 3)
PROMIS (Patient-Reported Outcomes Measurement Information System) Global Health Scale change.
Self-administered questionnaire. The PROMIS uses T scores. A score of 50 represents the mean of the concepts being measured, in the reference population. The standard deviation is 10. The range is from 0 to 100. Higher scores equals more of the concept being measured, therefore a better global health.
Time frame: Change from baseline PROMIS Global Health at week 4 (Groups 1, 2 and 3). Change from week-4 PROMIS Global Health at week 7 (Group 3)
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