Effect of Lumbar Bracing on Spinal Function

NCT ID: NCT02251106

Last Updated: 2023-03-08

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 54 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2012-05-31
• Study Completion Date: 2014-01-31

Brief Summary

A recent province-wide survey (Alberta, Canada) suggests that clinicians' beliefs about soft lumbar bracing for low back pain (LBP) vary substantially. Approximately 50% of clinicians (MDs, DCs, PTs) find back braces "useful" for acute back pain while the remaining half report that bracing causes muscle atrophy. While previous studies suggest bracing for acute low back conditions can reduce pain and does not cause atrophy, no prior study has assessed back function after bracing using self-reported and objective measures within the same cohort.

PURPOSE:

To assess both self-reported and objective measures of spine function before, and after, use of an inelastic lumbar brace over a two week period.

STUDY DESIGN:

Before-After Design

OUTCOME MEASURES:

Self-reported spine function, spinal stiffness and muscle endurance.

METHODS:

Three groups were studied: asymptomatics who did not wear a brace (-LBP/-Brace), asymptomatics who were braced (-LBP/+Brace) and acute LBP subjects who were braced (+LBP/+Brace). Both groups of braced subjects (-LBP/+Brace; +LBP/+Brace) were instructed to wear the brace continually for 2 weeks with the exception of bedroom & bathroom activities. Before and after the 2 week period, 3 measures of spine function were performed: spinal stiffness via motorized indentation of the L3 spinous process, a modified Sorensen test (timed lumbar extension against gravity), and the Oswestry Disability Index (ODI). Unbraced (-LBP/-Brace) subjects were studied over the same time with the same measures. Repeated measures analyses of variance were conducted for all three outcomes with a significance level of 0.05.

Detailed Description

Background: While various treatments for low back pain (LBP) are prescribed, one in particular appears to be frequently self-prescribed: external lumbar bracing (i.e. elastic corsets and other similar devices). Given that the mechanical function of the back is to bear static and dynamic loads and that most LBP is thought to be mechanical in nature, there is a biological plausibility that underlies bracing as a treatment for LBP Indeed, several reports suggest lumbar bracing may be effective for some LBP patients.

The high frequency of self-prescribed bracing may be the result of the clinical community's reluctance to prescribe these devices. Approximately half of Alberta spine clinicians believe that spine bracing results in muscle atrophy and/or future dependency on braces. Conversely, recent work from our laboratory has shown that after two weeks of brace wearing, the volume of spinal muscles remains unchanged in asymptomatic subjects (i.e. no brace-induced atrophy was caused)

Objective and hypothesis: While bracing for 14 days does not result in decreased muscle volume in asymptomatic subjects, there is a need to understand if bracing preserves muscle volume while muscle function declines. This information would allow us to understand the effects of bracing on spinal function independent of changes in muscle volume. Therefore, we hypothesize that that brace-wearing will result in an insignificant alteration in spinal function.

Future Relevance: Results from this pilot study will allow us to construct future investigations to reveal the underlying mechanisms of bracing with respect to the alleviation of LBP.

Subjects: Subjects of both genders between the ages of 18 and 65 will be recruited from the University of Alberta and surrounding area. The target recruitment populations are 1) asymptomatic subjects and 2) those with low back pain. Subjects excluded from the study will have a history of back pain with red flags, those who are pregnant (or believe they may be pregnant) or other contraindications described in the full protocol.

Methods: Potential subjects will complete a survey to obtain demographic data as well as a focused medical history and physical examination performed by one of the research team. If a subject meets the inclusion/exclusion criteria and provides written, informed consent, they will be enrolled in the study. Those not able to be enrolled will be thanked and dismissed.

Asymptomatic subjects will be assigned randomly into a brace and non-brace cohort. From the recruited subjects, three cohorts will be created: 1) Asymptomatic subjects who will wear a brace (-LBP/Brace+), 2) asymptomatic subjects who will not wear a brace (-LBP/-Brace) and 3) low back pain subjects who will wear a brace (+LBP/+Brace). Because this experiment is not designed to assess brace efficacy, there is no need to include a cohort of symptomatic subjects who do not wear a brace. Each subject who will wear a brace will be fitted and sized for an elastic brace supplied at no charge to the subject. Subjects will be instructed on how to don and remove the brace as well as the circumstances when they are permitted to remove the brace (washroom, shower, sleep). The subject will also be informed that the brace has a monitoring feature to determine brace compliance as well as their activity level.

As soon as possible after brace fitting, a battery of tests will be conducted to determine each subject's spinal function. These tests are as follows:

1. The Oswestry Disability Index (OWDI). The OWDI is a self-reported measure of function. The OWDI has established reliability and validity and has been used extensively in low back pain research.

2. Spinal Stiffness testing. This test uses a blunt probe to push into the back of a resting subject to measure the stiffness of the spine. It was developed in our lab and has been used in many prior studies both at the Universities of Alberta, Hong Kong and Utah.

3. Rehabilitation Ultrasound Imaging (RUSI). This test uses ultrasound to image spine muscles during simple tasks (e.g. arm raising) to quantify the ability of the back muscles to contract with the desired magnitude and timing. This test is well-described in the literature and has been approved for use previously in our laboratory.

4. Modified Sorensen test. This is a timed test of spine function where subjects are asked to straighten their backs from a semi-inclined position until pain onset and/or failure to maintain the target position. The test, and its variants, has been well-studied since it was first described in 1984. The modified version of the test to be used here has been shown to be safe to perform in acute back pain subjects.

The subject will now be released to their usual activities of daily living for a period of 14 days.

To determine if there are any problems in subjects wearing braces, those subjects will be contacted by the PI or research team within the first 24 hours following brace fitting and then approximately every three days after that time. If a correction to the brace cannot be made that is satisfactory to the research team and the subject, the subject will thanked and dismissed.

Following the two week experiment period, subjects will attend the laboratory. Usage data will then be extracted from the data logger of those wearing braces. If the subject has worn the brace for less than 75% of the requested time, the subject will be dismissed and thanked for their participation. If subjects have worn the brace for more than 75% of the requested time, the spinal function tests will be performed for a second time.

Change scores of each of the 5 spine function tests will be calculated and then compared between the three cohort using an analysis of variance (alpha = 0.05).

Expected results: Given our prior data that muscle volume does not changes after 14 days of bed rest, it is expected that brace-wearing will not reduce spinal function in symptomatic or asymptomatic populations.

Conditions

Low Back Pain

Study Design

• Allocation Method: NON_RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: BASIC_SCIENCE
• Blinding Strategy: NONE

Study Groups

-LBP/-Brace

Subjects in this arm did not have back pain nor did they wear brace (asymptomatic controls). Subjects had their spine function measured before and after a two week period.

Group Type: NO_INTERVENTION

No interventions assigned to this group

-LBP/+Brace

Intervention = Lumbar corset (Quickdraw, Aspen Medical Products) Subjects in this arm did not have back pain but wore a brace for a two week period (asymptomatic intervention). Subjects had their spine function measured before and after a two week period.

Group Type: ACTIVE_COMPARATOR

Lumbar corset (Quickdraw, Aspen Medical Products)

Intervention Type: DEVICE

The corset (a.k.a. brace) is made of webbing and elastic. It is wrapped around the trunk and tightened with Velcro and a series of cords (like tying shoes).

+LBP/+Brace

Intervention = Lumbar corset (Quickdraw, Aspen Medical Products) Subjects in this arm had back pain and wore a brace for a two week period (symptomatic intervention). Subjects had their spine function measured before and after a two week period.

Group Type: EXPERIMENTAL

Lumbar corset (Quickdraw, Aspen Medical Products)

Intervention Type: DEVICE

The corset (a.k.a. brace) is made of webbing and elastic. It is wrapped around the trunk and tightened with Velcro and a series of cords (like tying shoes).

Interventions

Lumbar corset (Quickdraw, Aspen Medical Products)

The corset (a.k.a. brace) is made of webbing and elastic. It is wrapped around the trunk and tightened with Velcro and a series of cords (like tying shoes).

Intervention Type: DEVICE

Other Intervention Names

Soft lumbar brace

Eligibility Criteria

Inclusion Criteria

Subjects enrolled in the study will be between the ages of 18 and 65 and include both genders.

Asymptomatic subjects will be asymptomatic for low back pain for a period of 3 months or more.

Symptomatic subjects will have non-specific low back pain that is of an acute or chronic nature. Recruiting those with non-specific low back pain ensures that we are not enrolling subjects with a specific cause for back pain (eg, spinal fracture) for which spinal function testing is contraindicated.

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 65 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Aspen Medical Products

OTHER

Sponsor Role: collaborator

University of Alberta

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Greg N Kawchuk, PhD

Role: PRINCIPAL_INVESTIGATOR

University of Alberta

Other Identifiers

Pro00030976

Identifier Type: -

Identifier Source: org_study_id